Exemple #1
0
    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        activities = []
        exclusions = []

        for act in self._getActivities(serviceRecord, exhaustive=exhaustive):
            activity = UploadedActivity()
            activity.StartTime = dateutil.parser.parse(act['startDateTimeLocal'])
            activity.EndTime = activity.StartTime + timedelta(seconds=act['duration'])
            _type = self._activityMappings.get(act['activityType'])
            if not _type:
                exclusions.append(APIExcludeActivity("Unsupported activity type %s" % act['activityType'],
                                                     activity_id=act["activityId"],
                                                     user_exception=UserException(UserExceptionType.Other)))
            activity.ServiceData = {"ActivityID": act['activityId']}
            activity.Type = _type
            activity.Notes = act['notes']
            activity.GPS = bool(act.get('startLatitude'))
            activity.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Kilometers, value=act['distance'])
            activity.Stats.Energy = ActivityStatistic(ActivityStatisticUnit.Kilocalories, value=act['calories'])
            if 'heartRateMin' in act:
                activity.Stats.HR = ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute, min=act['heartRateMin'],
                                                      max=act['heartRateMax'], avg=act['heartRateAverage'])
            activity.Stats.MovingTime = ActivityStatistic(ActivityStatisticUnit.Seconds, value=act['duration'])

            if 'temperature' in act:
                activity.Stats.Temperature = ActivityStatistic(ActivityStatisticUnit.DegreesCelcius,
                                                               avg=act['temperature'])
            activity.CalculateUID()
            logger.debug("\tActivity s/t %s", activity.StartTime)
            activities.append(activity)

        return activities, exclusions
Exemple #2
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    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        activities = []
        exclusions = []

        for act in self._getActivities(serviceRecord, exhaustive=exhaustive):
            activity = UploadedActivity()
            activity.StartTime = dateutil.parser.parse(act['startDateTimeLocal'])
            activity.EndTime = activity.StartTime + timedelta(seconds=act['duration'])
            _type = self._activityMappings.get(act['activityType'])
            if not _type:
                exclusions.append(APIExcludeActivity("Unsupported activity type %s" % act['activityType'],
                                                     activity_id=act["activityId"],
                                                     user_exception=UserException(UserExceptionType.Other)))
            activity.ServiceData = {"ActivityID": act['activityId']}
            activity.Type = _type
            activity.Notes = act['notes']
            activity.GPS = bool(act.get('startLatitude'))
            activity.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Kilometers, value=act['distance'])
            activity.Stats.Energy = ActivityStatistic(ActivityStatisticUnit.Kilocalories, value=act['calories'])
            if 'heartRateMin' in act:
                activity.Stats.HR = ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute, min=act['heartRateMin'],
                                                      max=act['heartRateMax'], avg=act['heartRateAverage'])
            activity.Stats.MovingTime = ActivityStatistic(ActivityStatisticUnit.Seconds, value=act['duration'])

            if 'temperature' in act:
                activity.Stats.Temperature = ActivityStatistic(ActivityStatisticUnit.DegreesCelcius,
                                                               avg=act['temperature'])
            activity.CalculateUID()
            logger.debug("\tActivity s/t %s", activity.StartTime)
            activities.append(activity)

        return activities, exclusions
Exemple #3
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    def _populateActivity(self, rawRecord):
        ''' Populate the 1st level of the activity object with all details required for UID from pulsstory API data '''
        activity = UploadedActivity()
        #  can stay local + naive here, recipient services can calculate TZ as required
        activity.Name = rawRecord["Name"] if "Name" in rawRecord else None
        activity.StartTime = datetime.strptime(rawRecord["StartTime"],
                                               "%Y-%m-%d %H:%M:%S")
        activity.Stats.MovingTime = ActivityStatistic(
            ActivityStatisticUnit.Seconds, value=float(rawRecord["Duration"]))
        activity.EndTime = activity.StartTime + timedelta(
            seconds=float(rawRecord["Duration"]))
        activity.Stats.Distance = ActivityStatistic(
            ActivityStatisticUnit.Meters, value=rawRecord["Distance"])
        if (activity.EndTime - activity.StartTime).total_seconds() > 0:
            activity.Stats.Speed = ActivityStatistic(
                ActivityStatisticUnit.KilometersPerHour,
                avg=activity.Stats.Distance.asUnits(
                    ActivityStatisticUnit.Kilometers).Value /
                ((activity.EndTime - activity.StartTime).total_seconds() / 60 /
                 60))
        activity.Stats.Energy = ActivityStatistic(
            ActivityStatisticUnit.Kilocalories,
            value=rawRecord["Energy"] if "Energy" in rawRecord else None)
        if rawRecord["Type"] in self._activityMappings:
            activity.Type = self._activityMappings[rawRecord["Type"]]
        activity.GPS = rawRecord["HasPath"] if "HasPath" in rawRecord else False
        activity.Stationary = rawRecord[
            "HasPoints"] if "HasPoints" in rawRecord else True
        activity.Notes = rawRecord["Notes"] if "Notes" in rawRecord else None
        activity.Private = rawRecord[
            "Private"] if "Private" in rawRecord else True

        activity.CalculateUID()
        return activity
Exemple #4
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    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        #https://connect.garmin.com/modern/proxy/activitylist-service/activities/search/activities?limit=20&start=0
        page = 1
        pageSz = 100
        activities = []
        exclusions = []
        while True:
            logger.debug("Req with " + str({"start": (page - 1) * pageSz, "limit": pageSz}))

            res = self._request_with_reauth(lambda session: session.get("https://connect.garmin.com/modern/proxy/activitylist-service/activities/search/activities", params={"start": (page - 1) * pageSz, "limit": pageSz}), serviceRecord)

            try:
                res = res.json()
            except ValueError:
                res_txt = res.text # So it can capture in the log message
                raise APIException("Parse failure in GC list resp: %s - %s" % (res.status_code, res_txt))
            for act in res:
                activity = UploadedActivity()
                # stationary activities have movingDuration = None while non-gps static activities have 0.0
                activity.Stationary = act["movingDuration"] is None
                activity.GPS = act["hasPolyline"]

                activity.Private = act["privacy"]["typeKey"] == "private"

                activity_name = act["activityName"]
                logger.debug("Name " + activity_name if activity_name is not None else "Untitled" + ":")
                if activity_name is not None and len(activity_name.strip()) and activity_name != "Untitled": # This doesn't work for internationalized accounts, oh well.
                    activity.Name = activity_name

                activity_description = act["description"]
                if activity_description is not None and len(activity_description.strip()):
                    activity.Notes = activity_description

                activity.StartTime = pytz.utc.localize(datetime.strptime(act["startTimeGMT"], "%Y-%m-%d %H:%M:%S"))
                if act["elapsedDuration"] is not None:
                    activity.EndTime = activity.StartTime + timedelta(0, float(act["elapsedDuration"])/1000)
                elif act["duration"] is not None:
                    activity.EndTime = activity.StartTime + timedelta(0, float(act["duration"]))
                else:
                    # somehow duration is not defined. Set 1 second then.
                    activity.EndTime = activity.StartTime + timedelta(0, 1)

                logger.debug("Activity s/t " + str(activity.StartTime) + " on page " + str(page))

                if "distance" in act and act["distance"] and float(act["distance"]) != 0:
                    activity.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Meters, value=float(act["distance"]))

                activity.Type = self._resolveActivityType(act["activityType"]["typeKey"])

                activity.CalculateUID()

                activity.ServiceData = {"ActivityID": int(act["activityId"])}

                activities.append(activity)
            logger.debug("Finished page " + str(page))
            if not exhaustive or len(res) == 0:
                break
            else:
                page += 1
        return activities, exclusions
Exemple #5
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    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        #https://connect.garmin.com/modern/proxy/activitylist-service/activities/search/activities?limit=20&start=0
        page = 1
        pageSz = 100
        activities = []
        exclusions = []
        while True:
            logger.debug("Req with " + str({"start": (page - 1) * pageSz, "limit": pageSz}))

            res = self._request_with_reauth(lambda session: session.get("https://connect.garmin.com/modern/proxy/activitylist-service/activities/search/activities", params={"start": (page - 1) * pageSz, "limit": pageSz}), serviceRecord)

            try:
                res = res.json()
            except ValueError:
                res_txt = res.text # So it can capture in the log message
                raise APIException("Parse failure in GC list resp: %s - %s" % (res.status_code, res_txt))
            for act in res:
                activity = UploadedActivity()
                # stationary activities have movingDuration = None while non-gps static activities have 0.0
                activity.Stationary = act["movingDuration"] is None
                activity.GPS = act["hasPolyline"]

                activity.Private = act["privacy"]["typeKey"] == "private"

                activity_name = act["activityName"]
                logger.debug("Name " + activity_name if activity_name is not None else "Untitled" + ":")
                if activity_name is not None and len(activity_name.strip()) and activity_name != "Untitled": # This doesn't work for internationalized accounts, oh well.
                    activity.Name = activity_name

                activity_description = act["description"]
                if activity_description is not None and len(activity_description.strip()):
                    activity.Notes = activity_description

                activity.StartTime = pytz.utc.localize(datetime.strptime(act["startTimeGMT"], "%Y-%m-%d %H:%M:%S"))
                if act["elapsedDuration"] is not None:
                    activity.EndTime = activity.StartTime + timedelta(0, float(act["elapsedDuration"])/1000)
                else:
                    activity.EndTime = activity.StartTime + timedelta(0, float(act["duration"]))

                logger.debug("Activity s/t " + str(activity.StartTime) + " on page " + str(page))

                if "distance" in act and act["distance"] and float(act["distance"]) != 0:
                    activity.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Meters, value=float(act["distance"]))

                activity.Type = self._resolveActivityType(act["activityType"]["typeKey"])

                activity.CalculateUID()

                activity.ServiceData = {"ActivityID": int(act["activityId"])}

                activities.append(activity)
            logger.debug("Finished page " + str(page))
            if not exhaustive or len(res) == 0:
                break
            else:
                page += 1
        return activities, exclusions
Exemple #6
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    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        activities = []
        session = self._get_session(record=serviceRecord)
        session.headers.update({"Accept": "application/json"})
        workouts_resp = session.get("https://api.trainerroad.com/api/careerworkouts")

        if workouts_resp.status_code != 200:
            if workouts_resp.status_code == 401:
                raise APIException("Invalid login", block=True, user_exception=UserException(UserExceptionType.Authorization, intervention_required=True))
            raise APIException("Workout listing error")

        cached_record = cachedb.trainerroad_meta.find_one({"ExternalID": serviceRecord.ExternalID})
        if not cached_record:
            cached_workout_meta = {}
        else:
            cached_workout_meta = cached_record["Workouts"]

        workouts = workouts_resp.json()
        for workout in workouts:
            # Un/f their API doesn't provide the start/end times in the list response
            # So we need to pull the extra data, if it's not already cached
            workout_id = str(workout["Id"]) # Mongo doesn't do non-string keys
            if workout_id not in cached_workout_meta:
                meta_resp = session.get("https://api.trainerroad.com/api/careerworkouts?guid=%s" % workout["Guid"])
                # We don't need everything
                full_meta = meta_resp.json()
                meta = {key: full_meta[key] for key in ["WorkoutDate", "WorkoutName", "WorkoutNotes", "TotalMinutes", "TotalKM", "AvgWatts", "Kj"]}
                cached_workout_meta[workout_id] = meta
            else:
                meta = cached_workout_meta[workout_id]

            activity = UploadedActivity()
            activity.ServiceData = {"ID": int(workout_id)}
            activity.Name = meta["WorkoutName"]
            activity.Notes = meta["WorkoutNotes"]
            activity.Type = ActivityType.Cycling

            # Everything's in UTC
            activity.StartTime = dateutil.parser.parse(meta["WorkoutDate"]).replace(tzinfo=pytz.utc)
            activity.EndTime = activity.StartTime + timedelta(minutes=meta["TotalMinutes"])

            activity.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Kilometers, value=meta["TotalKM"])
            activity.Stats.Power = ActivityStatistic(ActivityStatisticUnit.Watts, avg=meta["AvgWatts"])
            activity.Stats.Energy = ActivityStatistic(ActivityStatisticUnit.Kilojoules, value=meta["Kj"])

            activity.Stationary = False
            activity.GPS = False
            activity.CalculateUID()

            activities.append(activity)

        cachedb.trainerroad_meta.update({"ExternalID": serviceRecord.ExternalID}, {"ExternalID": serviceRecord.ExternalID, "Workouts": cached_workout_meta}, upsert=True)

        return activities, []
Exemple #7
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    def DownloadActivityList(self, svcRecord, exhaustive=False):
        activities = []
        exclusions = []

        url = self.SingletrackerDomain + "getRidesByUserId"
        extID = svcRecord.ExternalID

        payload = {"userId": extID}
        headers = {
            'content-type': "application/json",
            'cache-control': "no-cache",
        }
        response = requests.post(url, data=json.dumps(payload), headers=headers)
        try:
            reqdata = response.json()
        except ValueError:
            raise APIException("Failed parsing Singletracker list response %s - %s" % (resp.status_code, resp.text))

        for ride in reqdata:
            activity = UploadedActivity()
            activity.StartTime = datetime.strptime(
                datetime.utcfromtimestamp(ride["startTime"]).strftime('%Y-%m-%d %H:%M:%S'), "%Y-%m-%d %H:%M:%S")
            if "stopTime" in ride:
                activity.EndTime = datetime.strptime(
                    datetime.utcfromtimestamp(ride["stopTime"]).strftime('%Y-%m-%d %H:%M:%S'), "%Y-%m-%d %H:%M:%S")
            activity.ServiceData = {"ActivityID": ride["rideId"], "Manual": "False"}

            activity.Name = ride["trackName"]

            logger.debug("\tActivity s/t %s: %s" % (activity.StartTime, activity.Name))
            activity.Type = ActivityType.MountainBiking
            if "totalDistance" in ride:
                activity.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Meters, value=ride["totalDistance"])

            if "avgSpeed" in ride:
                activity.Stats.Speed = ActivityStatistic(ActivityStatisticUnit.MetersPerSecond,
                                                         avg=ride["avgSpeed"])
            activity.Notes = None

            activity.GPS = True

            activity.Private = False
            activity.Stationary = False  # True = no sensor data

            activity.CalculateUID()
            activities.append(activity)

        return activities, exclusions
Exemple #8
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    def _populateActivity(self, rawRecord):
        ''' Populate the 1st level of the activity object with all details required for UID from pulsstory API data '''
        activity = UploadedActivity()
        #  can stay local + naive here, recipient services can calculate TZ as required
        activity.Name = rawRecord["Name"] if "Name" in rawRecord else None
        activity.StartTime = datetime.strptime(rawRecord["StartTime"], "%Y-%m-%d %H:%M:%S")
        activity.Stats.MovingTime = ActivityStatistic(ActivityStatisticUnit.Seconds, value=float(rawRecord["Duration"]))
        activity.EndTime = activity.StartTime + timedelta(seconds=float(rawRecord["Duration"]))
        activity.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Meters, value=rawRecord["Distance"])
        if (activity.EndTime - activity.StartTime).total_seconds() > 0:
            activity.Stats.Speed = ActivityStatistic(ActivityStatisticUnit.KilometersPerHour, avg=activity.Stats.Distance.asUnits(ActivityStatisticUnit.Kilometers).Value / ((activity.EndTime - activity.StartTime).total_seconds() / 60 / 60))
        activity.Stats.Energy = ActivityStatistic(ActivityStatisticUnit.Kilocalories, value=rawRecord["Energy"] if "Energy" in rawRecord else None)
        if rawRecord["Type"] in self._activityMappings:
            activity.Type = self._activityMappings[rawRecord["Type"]]
        activity.GPS = rawRecord["HasPath"] if "HasPath" in rawRecord else False
        activity.Stationary = rawRecord["HasPoints"] if "HasPoints" in rawRecord else True
        activity.Notes = rawRecord["Notes"] if "Notes" in rawRecord else None
        activity.Private = rawRecord["Private"] if "Private" in rawRecord else True

        activity.CalculateUID()
        return activity
Exemple #9
0
    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        #http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities?&start=0&limit=50
        page = 1
        pageSz = 100
        activities = []
        exclusions = []
        while True:
            logger.debug("Req with " + str({"start": (page - 1) * pageSz, "limit": pageSz}))

            res = self._request_with_reauth(serviceRecord, lambda session: session.get("https://connect.garmin.com/modern/proxy/activity-search-service-1.0/json/activities", params={"start": (page - 1) * pageSz, "limit": pageSz}))

            try:
                res = res.json()["results"]
            except ValueError:
                res_txt = res.text # So it can capture in the log message
                raise APIException("Parse failure in GC list resp: %s - %s" % (res.status_code, res.text))
            if "activities" not in res:
                break  # No activities on this page - empty account.
            for act in res["activities"]:
                act = act["activity"]
                activity = UploadedActivity()

                # Don't really know why sumSampleCountTimestamp doesn't appear in swim activities - they're definitely timestamped...
                activity.Stationary = "sumSampleCountSpeed" not in act and "sumSampleCountTimestamp" not in act
                activity.GPS = "endLatitude" in act

                activity.Private = act["privacy"]["key"] == "private"

                try:
                    activity.TZ = pytz.timezone(act["activityTimeZone"]["key"])
                except pytz.exceptions.UnknownTimeZoneError:
                    activity.TZ = pytz.FixedOffset(float(act["activityTimeZone"]["offset"]) * 60)

                logger.debug("Name " + act["activityName"]["value"] + ":")
                if len(act["activityName"]["value"].strip()) and act["activityName"]["value"] != "Untitled": # This doesn't work for internationalized accounts, oh well.
                    activity.Name = act["activityName"]["value"]

                if len(act["activityDescription"]["value"].strip()):
                    activity.Notes = act["activityDescription"]["value"]

                # beginTimestamp/endTimestamp is in UTC
                activity.StartTime = pytz.utc.localize(datetime.utcfromtimestamp(float(act["beginTimestamp"]["millis"])/1000))
                if "sumElapsedDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(0, round(float(act["sumElapsedDuration"]["value"])))
                elif "sumDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(minutes=float(act["sumDuration"]["minutesSeconds"].split(":")[0]), seconds=float(act["sumDuration"]["minutesSeconds"].split(":")[1]))
                else:
                    activity.EndTime = pytz.utc.localize(datetime.utcfromtimestamp(float(act["endTimestamp"]["millis"])/1000))
                logger.debug("Activity s/t " + str(activity.StartTime) + " on page " + str(page))
                activity.AdjustTZ()

                if "sumDistance" in act and float(act["sumDistance"]["value"]) != 0:
                    activity.Stats.Distance = ActivityStatistic(self._unitMap[act["sumDistance"]["uom"]], value=float(act["sumDistance"]["value"]))

                if "device" in act and act["device"]["key"] != "unknown":
                    devId = DeviceIdentifier.FindMatchingIdentifierOfType(DeviceIdentifierType.GC, {"Key": act["device"]["key"]})
                    ver_split = act["device"]["key"].split(".")
                    ver_maj = None
                    ver_min = None
                    if len(ver_split) == 4:
                        # 2.90.0.0
                        ver_maj = int(ver_split[0])
                        ver_min = int(ver_split[1])
                    activity.Device = Device(devId, verMaj=ver_maj, verMin=ver_min)

                activity.Type = self._resolveActivityType(act["activityType"]["key"])

                activity.CalculateUID()

                activity.ServiceData = {"ActivityID": int(act["activityId"])}

                activities.append(activity)
            logger.debug("Finished page " + str(page) + " of " + str(res["search"]["totalPages"]))
            if not exhaustive or int(res["search"]["totalPages"]) == page:
                break
            else:
                page += 1
        return activities, exclusions
    def DownloadActivityList(self, svcRecord, exhaustive_start_time=None):
        activities = []
        exclusions = []

        headers = self._apiHeaders(svcRecord)

        limitDateFormat = "%Y-%m-%d"

        if exhaustive_start_time:
            totalListEnd = datetime.now() + timedelta(days=1.5) # Who knows which TZ it's in
            totalListStart = exhaustive_start_time - timedelta(days=1.5)
        else:
            totalListEnd = datetime.now() + timedelta(days=1.5) # Who knows which TZ it's in
            totalListStart = totalListEnd - timedelta(days=20) # Doesn't really matter

        listStep = timedelta(days=45)
        listEnd = totalListEnd
        listStart = max(totalListStart, totalListEnd - listStep)

        while True:
            logger.debug("Requesting %s to %s" % (listStart, listEnd))
            resp = requests.get(
                TRAININGPEAKS_API_BASE_URL + "/v1/workouts/%s/%s" % (
                    listStart.strftime(limitDateFormat),
                    listEnd.strftime(limitDateFormat)),
                headers=headers)

            for act in resp.json():
                if not act.get("completed", True):
                    continue
                activity = UploadedActivity()
                activity.StartTime = dateutil.parser.parse(act["StartTime"]).replace(tzinfo=None)
                logger.debug("Activity s/t " + str(activity.StartTime))
                activity.EndTime = activity.StartTime + timedelta(hours=act["TotalTime"])
                activity.Name = act.get("Title", None)
                activity.Notes = act.get("Description", None)
                activity.Type = self._workoutTypeMappings.get(act.get("WorkoutType", "").lower(), ActivityType.Other)

                activity.Stats.Cadence = ActivityStatistic(ActivityStatisticUnit.RevolutionsPerMinute,
                                                           avg=act.get("CadenceAverage", None),
                                                           max=act.get("CadenceMaximum", None))
                activity.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Meters,
                                                            value=act.get("Distance", None))
                activity.Stats.Elevation = ActivityStatistic(ActivityStatisticUnit.Meters,
                                                             avg=act.get("ElevationAverage", None),
                                                             min=act.get("ElevationMinimum", None),
                                                             max=act.get("ElevationMaximum", None),
                                                             gain=act.get("ElevationGain", None),
                                                             loss=act.get("ElevationLoss", None))
                activity.Stats.Energy = ActivityStatistic(ActivityStatisticUnit.Kilojoules,
                                                          value=act.get("Energy", None))
                activity.Stats.HR = ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute,
                                                      avg=act.get("HeartRateAverage", None),
                                                      min=act.get("HeartRateMinimum", None),
                                                      max=act.get("HeartRateMaximum", None))
                activity.Stats.Power = ActivityStatistic(ActivityStatisticUnit.Watts,
                                                         avg=act.get("PowerAverage", None),
                                                         max=act.get("PowerMaximum", None))
                activity.Stats.Temperature = ActivityStatistic(ActivityStatisticUnit.DegreesCelcius,
                                                               avg=act.get("TemperatureAverage", None),
                                                               min=act.get("TemperatureMinimum", None),
                                                               max=act.get("TemperatureMaximum", None))
                activity.Stats.Speed = ActivityStatistic(ActivityStatisticUnit.MetersPerSecond,
                                                         avg=act.get("VelocityAverage", None),
                                                         max=act.get("VelocityMaximum", None))
                activity.CalculateUID()
                activities.append(activity)

            if not exhaustive_start_time:
                break

            listStart -= listStep
            listEnd -= listStep
            if listEnd < totalListStart:
                break

        return activities, exclusions
    def _populate_sbr_activity(self, api_sbr_activity, usersettings):
        # Example JSON feed (unimportant fields have been removed)
        # [{
        #    "EventId": 63128401,                   #  Internal ID
        #    "EventType": 3,                        #  Swim (3), bike (1), or run (2)
        #    "EventDate": "4/22/2016",
        #    "EventTime": "7:44 AM",                #  User's time, time zone not specified
        #    "Planned": false,                      #  Training plan or actual data
        #    "TotalMinutes": 34.97,
        #    "TotalKilometers": 1.55448,
        #    "AverageHeartRate": 125,
        #    "MinimumHeartRate": 100,
        #    "MaximumHeartRate": 150,
        #    "MemberId": 999999,
        #    "MemberUsername": "******",
        #    "HasDeviceUpload": true,
        #    "DeviceUploadFile": "http://beginnertriathlete.com/discussion/storage/workouts/555555/abcd-123.fit",
        #    "RouteName": "",                       #  Might contain a description of the event
        #    "Comments": "",                        #  User supplied notes
        # }, ... ]

        activity = UploadedActivity()
        workout_id = api_sbr_activity["EventId"]
        eventType = api_sbr_activity["EventType"]
        eventDate = api_sbr_activity["EventDate"]
        eventTime = api_sbr_activity["EventTime"]
        totalMinutes = api_sbr_activity["TotalMinutes"]
        totalKms = api_sbr_activity["TotalKilometers"]
        averageHr = api_sbr_activity["AverageHeartRate"]
        minimumHr = api_sbr_activity["MinimumHeartRate"]
        maximumHr = api_sbr_activity["MaximumHeartRate"]
        deviceUploadFile = api_sbr_activity["DeviceUploadFile"]
        comments = api_sbr_activity["Comments"]

        # Basic SBR data does not include GPS or sensor data. If this event originated from a device upload,
        # DownloadActivity will find it.
        activity.Stationary = True

        # Same as above- The data might be there, but it's not supplied in the basic activity feed.
        activity.GPS = False

        activity.Notes = comments
        activity.Private = usersettings["Privacy"]
        activity.Type = self._workoutTypeMappings[str(eventType)]

        # Get the user's timezone from their profile. (Activity.TZ should be mentioned in the object hierarchy docs?)
        # Question: I believe if DownloadActivity finds device data, it will overwrite this. Which is OK with me.
        # The device data will most likely be more accurate.
        try:
            activity.TZ = pytz.timezone(usersettings["TimeZone"])
        except pytz.exceptions.UnknownTimeZoneError:
            activity.TZ = pytz.timezone(self._serverDefaultTimezone)

        # activity.StartTime and EndTime aren't mentioned in the object hierarchy docs, but I see them
        # set in all the other providers.
        activity.StartTime = dateutil.parser.parse(
            eventDate + " " + eventTime,
            dayfirst=False).replace(tzinfo=activity.TZ)
        activity.EndTime = activity.StartTime + timedelta(minutes=totalMinutes)

        # We can calculate some metrics from the supplied data. Would love to see some non-source code documentation
        # on each statistic and what it expects as input.
        activity.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Kilometers,
                                                    value=totalKms)
        activity.Stats.HR = ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute,
                                              avg=float(averageHr),
                                              min=float(minimumHr),
                                              max=float(maximumHr))
        activity.Stats.MovingTime = ActivityStatistic(ActivityStatisticUnit.Seconds,
                                                      value=float(totalMinutes * 60))
        activity.Stats.TimerTime = ActivityStatistic(ActivityStatisticUnit.Seconds,
                                                     value=float(totalMinutes * 60))
        # While BT does support laps, the current API doesn't report on them - a limitation that may need to be
        # corrected in a future update. For now, treat manual entries as a single lap. As more and more people upload
        # workouts using devices anyway, this probably matters much less than it once did.
        lap = Lap(stats=activity.Stats, startTime=activity.StartTime, endTime=activity.EndTime)
        activity.Laps = [lap]

        # Not 100% positive how this is utilized, but it is common for all providers. Detects duplicate downloads?
        activity.CalculateUID()

        # If a device file is attached, we'll get more details about this event in DownloadActivity
        activity.ServiceData = {
            "ID": int(workout_id),
            "DeviceUploadFile": deviceUploadFile
        }

        return activity
Exemple #12
0
    def DownloadActivityList(self, svcRecord, exhaustive=False):
        activities = []
        exclusions = []

        url = self.SetioDomain + "getRunsByUserId"
        extID = svcRecord.ExternalID

        payload = {"userId": extID}
        headers = {
            'content-type': "application/json",
            'cache-control': "no-cache",
        }
        response = requests.post(url, data=json.dumps(payload), headers=headers)
        try:
            reqdata = response.json()
        except ValueError:
            raise APIException("Failed parsing Setio list response %s - %s" % (resp.status_code, resp.text))

        for ride in reqdata:
            activity = UploadedActivity()
            activity.StartTime = datetime.strptime(
                datetime.utcfromtimestamp(ride["startTimeStamp"]).strftime('%Y-%m-%d %H:%M:%S'), "%Y-%m-%d %H:%M:%S")
            if "stopTimeStamp" in ride:
                activity.EndTime = datetime.strptime(
                    datetime.utcfromtimestamp(ride["stopTimeStamp"]).strftime('%Y-%m-%d %H:%M:%S'), "%Y-%m-%d %H:%M:%S")
            activity.ServiceData = {"ActivityID": ride["runId"], "Manual": "False"}

            activity.Name = ride["programName"]

            logger.debug("\tActivity s/t %s: %s" % (activity.StartTime, activity.Name))
            activity.Type = ActivityType.Running
            if "totalDistance" in ride:
                activity.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Meters, value=ride["totalDistance"])

            if "averageCadence" in ride:
                activity.Stats.Cadence.update(
                    ActivityStatistic(ActivityStatisticUnit.RevolutionsPerMinute, avg=ride["averageCadence"]))

            if "averageSpeed" in ride:
                activity.Stats.Speed = ActivityStatistic(ActivityStatisticUnit.MetersPerSecond,
                                                         avg=ride["averageSpeed"])

            # get comment
            url = self.SetioDomain + "getRunComment"
            payload = { "userId": extID, "runId": activity.ServiceData["ActivityID"]}
            headers = {
                'content-type': "application/json",
                'cache-control': "no-cache",
            }
            streamdata = requests.post(url, data=json.dumps(payload), headers=headers)
            if streamdata.status_code == 500:
                raise APIException("Internal server error")

            if streamdata.status_code == 403:
                raise APIException("No authorization to download activity", block=True,
                                   user_exception=UserException(UserExceptionType.Authorization,
                                                                intervention_required=True))

            activity.Notes = None
            if streamdata.status_code == 200:  # Ok
                try:
                    commentdata = streamdata.json()
                except:
                    raise APIException("Stream data returned is not JSON")

                if "comment" in commentdata:
                    activity.Notes = commentdata["comment"]

            activity.GPS = True

            activity.Private = False
            activity.Stationary = False  # True = no sensor data

            activity.CalculateUID()
            activities.append(activity)

        return activities, exclusions
Exemple #13
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    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        #http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities?&start=0&limit=50
        cookies = self._get_cookies(record=serviceRecord)
        page = 1
        pageSz = 100
        activities = []
        exclusions = []
        while True:
            logger.debug("Req with " + str({
                "start": (page - 1) * pageSz,
                "limit": pageSz
            }))
            self._rate_limit()
            res = requests.get(
                "http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities",
                params={
                    "start": (page - 1) * pageSz,
                    "limit": pageSz
                },
                cookies=cookies)
            res = res.json()["results"]
            if "activities" not in res:
                break  # No activities on this page - empty account.
            for act in res["activities"]:
                act = act["activity"]
                if "sumDistance" not in act:
                    exclusions.append(
                        APIExcludeActivity("No distance",
                                           activityId=act["activityId"],
                                           userException=UserException(
                                               UserExceptionType.Corrupt)))
                    continue
                activity = UploadedActivity()

                if "sumSampleCountSpeed" not in act and "sumSampleCountTimestamp" not in act:  # Don't really know why sumSampleCountTimestamp doesn't appear in swim activities - they're definitely timestamped...
                    activity.Stationary = True
                else:
                    activity.Stationary = False

                try:
                    activity.TZ = pytz.timezone(act["activityTimeZone"]["key"])
                except pytz.exceptions.UnknownTimeZoneError:
                    activity.TZ = pytz.FixedOffset(
                        float(act["activityTimeZone"]["offset"]) * 60)

                logger.debug("Name " + act["activityName"]["value"] + ":")
                if len(act["activityName"]["value"].strip(
                )) and act["activityName"][
                        "value"] != "Untitled":  # This doesn't work for internationalized accounts, oh well.
                    activity.Name = act["activityName"]["value"]

                if len(act["activityDescription"]["value"].strip()):
                    activity.Notes = act["activityDescription"]["value"]
                # beginTimestamp/endTimestamp is in UTC
                activity.StartTime = pytz.utc.localize(
                    datetime.utcfromtimestamp(
                        float(act["beginTimestamp"]["millis"]) / 1000))
                if "sumElapsedDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(
                        0, round(float(act["sumElapsedDuration"]["value"])))
                elif "sumDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(
                        minutes=float(act["sumDuration"]
                                      ["minutesSeconds"].split(":")[0]),
                        seconds=float(act["sumDuration"]
                                      ["minutesSeconds"].split(":")[1]))
                else:
                    activity.EndTime = pytz.utc.localize(
                        datetime.utcfromtimestamp(
                            float(act["endTimestamp"]["millis"]) / 1000))
                logger.debug("Activity s/t " + str(activity.StartTime) +
                             " on page " + str(page))
                activity.AdjustTZ()
                # TODO: fix the distance stats to account for the fact that this incorrectly reported km instead of meters for the longest time.
                activity.Stats.Distance = ActivityStatistic(
                    self._unitMap[act["sumDistance"]["uom"]],
                    value=float(act["sumDistance"]["value"]))

                def mapStat(gcKey, statKey, type, useSourceUnits=False):
                    nonlocal activity, act
                    if gcKey in act:
                        value = float(act[gcKey]["value"])
                        if math.isinf(value):
                            return  # GC returns the minimum speed as "-Infinity" instead of 0 some times :S
                        activity.Stats.__dict__[statKey].update(
                            ActivityStatistic(self._unitMap[act[gcKey]["uom"]],
                                              **({
                                                  type: value
                                              })))
                        if useSourceUnits:
                            activity.Stats.__dict__[
                                statKey] = activity.Stats.__dict__[
                                    statKey].asUnits(
                                        self._unitMap[act[gcKey]["uom"]])

                if "sumMovingDuration" in act:
                    activity.Stats.MovingTime = ActivityStatistic(
                        ActivityStatisticUnit.Time,
                        value=timedelta(
                            seconds=float(act["sumMovingDuration"]["value"])))

                if "sumDuration" in act:
                    activity.Stats.TimerTime = ActivityStatistic(
                        ActivityStatisticUnit.Time,
                        value=timedelta(
                            minutes=float(act["sumDuration"]
                                          ["minutesSeconds"].split(":")[0]),
                            seconds=float(act["sumDuration"]
                                          ["minutesSeconds"].split(":")[1])))

                mapStat(
                    "minSpeed", "Speed", "min", useSourceUnits=True
                )  # We need to suppress conversion here, so we can fix the pace-speed issue below
                mapStat("maxSpeed", "Speed", "max", useSourceUnits=True)
                mapStat("weightedMeanSpeed",
                        "Speed",
                        "avg",
                        useSourceUnits=True)
                mapStat("minAirTemperature", "Temperature", "min")
                mapStat("maxAirTemperature", "Temperature", "max")
                mapStat("weightedMeanAirTemperature", "Temperature", "avg")
                mapStat("sumEnergy", "Energy", "value")
                mapStat("maxHeartRate", "HR", "max")
                mapStat("weightedMeanHeartRate", "HR", "avg")
                mapStat("maxRunCadence", "RunCadence", "max")
                mapStat("weightedMeanRunCadence", "RunCadence", "avg")
                mapStat("maxBikeCadence", "Cadence", "max")
                mapStat("weightedMeanBikeCadence", "Cadence", "avg")
                mapStat("minPower", "Power", "min")
                mapStat("maxPower", "Power", "max")
                mapStat("weightedMeanPower", "Power", "avg")
                mapStat("minElevation", "Elevation", "min")
                mapStat("maxElevation", "Elevation", "max")
                mapStat("gainElevation", "Elevation", "gain")
                mapStat("lossElevation", "Elevation", "loss")

                # In Garmin Land, max can be smaller than min for this field :S
                if activity.Stats.Power.Max is not None and activity.Stats.Power.Min is not None and activity.Stats.Power.Min > activity.Stats.Power.Max:
                    activity.Stats.Power.Min = None

                # To get it to match what the user sees in GC.
                if activity.Stats.RunCadence.Max is not None:
                    activity.Stats.RunCadence.Max *= 2
                if activity.Stats.RunCadence.Average is not None:
                    activity.Stats.RunCadence.Average *= 2

                # GC incorrectly reports pace measurements as kph/mph when they are in fact in min/km or min/mi
                if "minSpeed" in act:
                    if ":" in act["minSpeed"][
                            "withUnitAbbr"] and activity.Stats.Speed.Min:
                        activity.Stats.Speed.Min = 60 / activity.Stats.Speed.Min
                if "maxSpeed" in act:
                    if ":" in act["maxSpeed"][
                            "withUnitAbbr"] and activity.Stats.Speed.Max:
                        activity.Stats.Speed.Max = 60 / activity.Stats.Speed.Max
                if "weightedMeanSpeed" in act:
                    if ":" in act["weightedMeanSpeed"][
                            "withUnitAbbr"] and activity.Stats.Speed.Average:
                        activity.Stats.Speed.Average = 60 / activity.Stats.Speed.Average

                # Similarly, they do weird stuff with HR at times - %-of-max and zones
                # ...and we can't just fix these, so we have to calculate it after the fact (blegh)
                recalcHR = False
                if "maxHeartRate" in act:
                    if "%" in act["maxHeartRate"]["withUnitAbbr"] or "z" in act[
                            "maxHeartRate"]["withUnitAbbr"]:
                        activity.Stats.HR.Max = None
                        recalcHR = True
                if "weightedMeanHeartRate" in act:
                    if "%" in act["weightedMeanHeartRate"][
                            "withUnitAbbr"] or "z" in act[
                                "weightedMeanHeartRate"]["withUnitAbbr"]:
                        activity.Stats.HR.Average = None
                        recalcHR = True

                activity.Type = self._resolveActivityType(
                    act["activityType"]["key"])

                activity.CalculateUID()
                activity.ServiceData = {
                    "ActivityID": act["activityId"],
                    "RecalcHR": recalcHR
                }

                activities.append(activity)
            logger.debug("Finished page " + str(page) + " of " +
                         str(res["search"]["totalPages"]))
            if not exhaustive or int(res["search"]["totalPages"]) == page:
                break
            else:
                page += 1
        return activities, exclusions
Exemple #14
0
    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        activities = []
        session = self._get_session(record=serviceRecord)
        session.headers.update({"Accept": "application/json"})
        workouts_resp = session.get(
            "https://api.trainerroad.com/api/careerworkouts")

        if workouts_resp.status_code != 200:
            if workouts_resp.status_code == 401:
                raise APIException("Invalid login",
                                   block=True,
                                   user_exception=UserException(
                                       UserExceptionType.Authorization,
                                       intervention_required=True))
            raise APIException("Workout listing error")

        cached_record = cachedb.trainerroad_meta.find_one(
            {"ExternalID": serviceRecord.ExternalID})
        if not cached_record:
            cached_workout_meta = {}
        else:
            cached_workout_meta = cached_record["Workouts"]

        workouts = workouts_resp.json()
        for workout in workouts:
            # Un/f their API doesn't provide the start/end times in the list response
            # So we need to pull the extra data, if it's not already cached
            workout_id = str(workout["Id"])  # Mongo doesn't do non-string keys
            if workout_id not in cached_workout_meta:
                meta_resp = session.get(
                    "https://api.trainerroad.com/api/careerworkouts?guid=%s" %
                    workout["Guid"])
                # We don't need everything
                full_meta = meta_resp.json()
                meta = {
                    key: full_meta[key]
                    for key in [
                        "WorkoutDate", "WorkoutName", "WorkoutNotes",
                        "TotalMinutes", "TotalKM", "AvgWatts", "Kj"
                    ]
                }
                cached_workout_meta[workout_id] = meta
            else:
                meta = cached_workout_meta[workout_id]

            activity = UploadedActivity()
            activity.ServiceData = {"ID": int(workout_id)}
            activity.Name = meta["WorkoutName"]
            activity.Notes = meta["WorkoutNotes"]
            activity.Type = ActivityType.Cycling

            # Everything's in UTC
            activity.StartTime = dateutil.parser.parse(
                meta["WorkoutDate"]).replace(tzinfo=pytz.utc)
            activity.EndTime = activity.StartTime + timedelta(
                minutes=meta["TotalMinutes"])

            activity.Stats.Distance = ActivityStatistic(
                ActivityStatisticUnit.Kilometers, value=meta["TotalKM"])
            activity.Stats.Power = ActivityStatistic(
                ActivityStatisticUnit.Watts, avg=meta["AvgWatts"])
            activity.Stats.Energy = ActivityStatistic(
                ActivityStatisticUnit.Kilojoules, value=meta["Kj"])

            activity.Stationary = False
            activity.GPS = False
            activity.CalculateUID()

            activities.append(activity)

        cachedb.trainerroad_meta.update(
            {"ExternalID": serviceRecord.ExternalID}, {
                "ExternalID": serviceRecord.ExternalID,
                "Workouts": cached_workout_meta
            },
            upsert=True)

        return activities, []
Exemple #15
0
    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        logger.debug("DownloadActivityList")
        allItems = []
        headers = self._apiHeaders(serviceRecord)
        nextRequest = '/v7.1/workout/?user=' + str(serviceRecord.ExternalID)
        while True:
            response = requests.get("https://api.mapmyfitness.com" +
                                    nextRequest,
                                    headers=headers)
            if response.status_code != 200:
                if response.status_code == 401 or response.status_code == 403:
                    raise APIException(
                        "No authorization to retrieve activity list",
                        block=True,
                        user_exception=UserException(
                            UserExceptionType.Authorization,
                            intervention_required=True))
                raise APIException(
                    "Unable to retrieve activity list " + str(response),
                    serviceRecord)
            data = response.json()
            allItems += data["_embedded"]["workouts"]
            nextLink = data["_links"].get("next")
            if not exhaustive or not nextLink:
                break
            nextRequest = nextLink[0]["href"]

        activities = []
        exclusions = []
        for act in allItems:
            # TODO catch exception and add to exclusions
            activity = UploadedActivity()
            activityID = act["_links"]["self"][0]["id"]
            activity.StartTime = datetime.strptime(act["start_datetime"],
                                                   "%Y-%m-%dT%H:%M:%S%z")
            activity.Notes = act["notes"] if "notes" in act else None

            # aggregate
            aggregates = act["aggregates"]
            elapsed_time_total = aggregates[
                "elapsed_time_total"] if "elapsed_time_total" in aggregates else "0"
            activity.EndTime = activity.StartTime + timedelta(
                0, round(float(elapsed_time_total)))
            activity.Stats.TimerTime = ActivityStatistic(
                ActivityStatisticUnit.Seconds, value=float(elapsed_time_total))
            activity.Stats.MovingTime = ActivityStatistic(
                ActivityStatisticUnit.Seconds, value=float(elapsed_time_total))
            if "active_time_total" in aggregates:
                activity.Stats.MovingTime = ActivityStatistic(
                    ActivityStatisticUnit.Seconds,
                    value=float(aggregates["active_time_total"]))

            if "distance_total" in aggregates:
                activity.Stats.Distance = ActivityStatistic(
                    ActivityStatisticUnit.Meters,
                    value=float(aggregates["distance_total"]))

            if "speed_min" in aggregates:
                activity.Stats.Speed.Min = float(aggregates["speed_min"])
            if "speed_max" in aggregates:
                activity.Stats.Speed.Max = float(aggregates["speed_max"])
            if "speed_avg" in aggregates:
                activity.Stats.Speed.Average = float(aggregates["speed_avg"])

            if "heartrate_min" in aggregates:
                activity.Stats.HR.update(
                    ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute,
                                      min=float(aggregates["heartrate_min"])))
            if "heartrate_max" in aggregates:
                activity.Stats.HR.update(
                    ActivityStatistic(ActivityStatisticUnit.BeatsPerMinute,
                                      max=float(aggregates["heartrate_max"])))
            if "heartrate_avg" in aggregates:
                activity.Stats.HR = ActivityStatistic(
                    ActivityStatisticUnit.BeatsPerMinute,
                    avg=float(aggregates["heartrate_avg"]))

            if "cadence_min" in aggregates:
                activity.Stats.Cadence.update(
                    ActivityStatistic(
                        ActivityStatisticUnit.RevolutionsPerMinute,
                        min=int(aggregates["cadence_min"])))
            if "cadence_max" in aggregates:
                activity.Stats.Cadence.update(
                    ActivityStatistic(
                        ActivityStatisticUnit.RevolutionsPerMinute,
                        max=int(aggregates["cadence_max"])))
            if "cadence_avg" in aggregates:
                activity.Stats.Cadence = ActivityStatistic(
                    ActivityStatisticUnit.RevolutionsPerMinute,
                    avg=int(aggregates["cadence_avg"]))

            if "power_min" in aggregates:
                activity.Stats.Power.update(
                    ActivityStatistic(ActivityStatisticUnit.Watts,
                                      min=int(aggregates["power_min"])))
            if "power_max" in aggregates:
                activity.Stats.Power.update(
                    ActivityStatistic(ActivityStatisticUnit.Watts,
                                      max=int(aggregates["power_max"])))
            if "power_avg" in aggregates:
                activity.Stats.Power = ActivityStatistic(
                    ActivityStatisticUnit.Watts,
                    avg=int(aggregates["power_avg"]))

            activityTypeLink = act["_links"].get("activity_type")
            activityTypeID = activityTypeLink[0][
                "id"] if activityTypeLink is not None else None

            privacyLink = act["_links"].get("privacy")
            privacyID = privacyLink[0][
                "id"] if privacyLink is not None else None
            activity.Private = privacyID == "0"

            activity.Type = self._resolveActivityType(activityTypeID, headers)

            activity.ServiceData = {
                "ActivityID": activityID,
                "activityTypeID": activityTypeID,
                "privacyID": privacyID
            }
            activity.CalculateUID()
            activities.append(activity)
        return activities, exclusions
    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        # http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities?&start=0&limit=50
        cookies = self._get_cookies(record=serviceRecord)
        page = 1
        pageSz = 100
        activities = []
        exclusions = []
        while True:
            logger.debug("Req with " + str({"start": (page - 1) * pageSz, "limit": pageSz}))
            self._rate_limit()
            res = requests.get(
                "http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities",
                params={"start": (page - 1) * pageSz, "limit": pageSz},
                cookies=cookies,
            )
            res = res.json()["results"]
            if "activities" not in res:
                break  # No activities on this page - empty account.
            for act in res["activities"]:
                act = act["activity"]
                if "sumDistance" not in act:
                    exclusions.append(APIExcludeActivity("No distance", activityId=act["activityId"]))
                    continue
                activity = UploadedActivity()

                if (
                    "sumSampleCountSpeed" not in act and "sumSampleCountTimestamp" not in act
                ):  # Don't really know why sumSampleCountTimestamp doesn't appear in swim activities - they're definitely timestamped...
                    activity.Stationary = True
                else:
                    activity.Stationary = False

                try:
                    activity.TZ = pytz.timezone(act["activityTimeZone"]["key"])
                except pytz.exceptions.UnknownTimeZoneError:
                    activity.TZ = pytz.FixedOffset(float(act["activityTimeZone"]["offset"]) * 60)

                logger.debug("Name " + act["activityName"]["value"] + ":")
                if (
                    len(act["activityName"]["value"].strip()) and act["activityName"]["value"] != "Untitled"
                ):  # This doesn't work for internationalized accounts, oh well.
                    activity.Name = act["activityName"]["value"]

                if len(act["activityDescription"]["value"].strip()):
                    activity.Notes = act["activityDescription"]["value"]
                # beginTimestamp/endTimestamp is in UTC
                activity.StartTime = pytz.utc.localize(
                    datetime.utcfromtimestamp(float(act["beginTimestamp"]["millis"]) / 1000)
                )
                if "sumElapsedDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(
                        0, round(float(act["sumElapsedDuration"]["value"]))
                    )
                elif "sumDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(
                        minutes=float(act["sumDuration"]["minutesSeconds"].split(":")[0]),
                        seconds=float(act["sumDuration"]["minutesSeconds"].split(":")[1]),
                    )
                else:
                    activity.EndTime = pytz.utc.localize(
                        datetime.utcfromtimestamp(float(act["endTimestamp"]["millis"]) / 1000)
                    )
                logger.debug("Activity s/t " + str(activity.StartTime) + " on page " + str(page))
                activity.AdjustTZ()
                # TODO: fix the distance stats to account for the fact that this incorrectly reported km instead of meters for the longest time.
                activity.Stats.Distance = ActivityStatistic(
                    self._unitMap[act["sumDistance"]["uom"]], value=float(act["sumDistance"]["value"])
                )

                def mapStat(gcKey, statKey, type, useSourceUnits=False):
                    nonlocal activity, act
                    if gcKey in act:
                        value = float(act[gcKey]["value"])
                        if math.isinf(value):
                            return  # GC returns the minimum speed as "-Infinity" instead of 0 some times :S
                        activity.Stats.__dict__[statKey].update(
                            ActivityStatistic(self._unitMap[act[gcKey]["uom"]], **({type: value}))
                        )
                        if useSourceUnits:
                            activity.Stats.__dict__[statKey] = activity.Stats.__dict__[statKey].asUnits(
                                self._unitMap[act[gcKey]["uom"]]
                            )

                if "sumMovingDuration" in act:
                    activity.Stats.MovingTime = ActivityStatistic(
                        ActivityStatisticUnit.Time, value=timedelta(seconds=float(act["sumMovingDuration"]["value"]))
                    )

                if "sumDuration" in act:
                    activity.Stats.TimerTime = ActivityStatistic(
                        ActivityStatisticUnit.Time,
                        value=timedelta(
                            minutes=float(act["sumDuration"]["minutesSeconds"].split(":")[0]),
                            seconds=float(act["sumDuration"]["minutesSeconds"].split(":")[1]),
                        ),
                    )

                mapStat(
                    "minSpeed", "Speed", "min", useSourceUnits=True
                )  # We need to suppress conversion here, so we can fix the pace-speed issue below
                mapStat("maxSpeed", "Speed", "max", useSourceUnits=True)
                mapStat("weightedMeanSpeed", "Speed", "avg", useSourceUnits=True)
                mapStat("minAirTemperature", "Temperature", "min")
                mapStat("maxAirTemperature", "Temperature", "max")
                mapStat("weightedMeanAirTemperature", "Temperature", "avg")
                mapStat("sumEnergy", "Energy", "value")
                mapStat("maxHeartRate", "HR", "max")
                mapStat("weightedMeanHeartRate", "HR", "avg")
                mapStat("maxRunCadence", "RunCadence", "max")
                mapStat("weightedMeanRunCadence", "RunCadence", "avg")
                mapStat("maxBikeCadence", "Cadence", "max")
                mapStat("weightedMeanBikeCadence", "Cadence", "avg")
                mapStat("minPower", "Power", "min")
                mapStat("maxPower", "Power", "max")
                mapStat("weightedMeanPower", "Power", "avg")
                mapStat("minElevation", "Elevation", "min")
                mapStat("maxElevation", "Elevation", "max")
                mapStat("gainElevation", "Elevation", "gain")
                mapStat("lossElevation", "Elevation", "loss")

                # In Garmin Land, max can be smaller than min for this field :S
                if (
                    activity.Stats.Power.Max is not None
                    and activity.Stats.Power.Min is not None
                    and activity.Stats.Power.Min > activity.Stats.Power.Max
                ):
                    activity.Stats.Power.Min = None

                # To get it to match what the user sees in GC.
                if activity.Stats.RunCadence.Max is not None:
                    activity.Stats.RunCadence.Max *= 2
                if activity.Stats.RunCadence.Average is not None:
                    activity.Stats.RunCadence.Average *= 2

                # GC incorrectly reports pace measurements as kph/mph when they are in fact in min/km or min/mi
                if "minSpeed" in act:
                    if ":" in act["minSpeed"]["withUnitAbbr"] and activity.Stats.Speed.Min:
                        activity.Stats.Speed.Min = 60 / activity.Stats.Speed.Min
                if "maxSpeed" in act:
                    if ":" in act["maxSpeed"]["withUnitAbbr"] and activity.Stats.Speed.Max:
                        activity.Stats.Speed.Max = 60 / activity.Stats.Speed.Max
                if "weightedMeanSpeed" in act:
                    if ":" in act["weightedMeanSpeed"]["withUnitAbbr"] and activity.Stats.Speed.Average:
                        activity.Stats.Speed.Average = 60 / activity.Stats.Speed.Average

                # Similarly, they do weird stuff with HR at times - %-of-max and zones
                # ...and we can't just fix these, so we have to calculate it after the fact (blegh)
                recalcHR = False
                if "maxHeartRate" in act:
                    if "%" in act["maxHeartRate"]["withUnitAbbr"] or "z" in act["maxHeartRate"]["withUnitAbbr"]:
                        activity.Stats.HR.Max = None
                        recalcHR = True
                if "weightedMeanHeartRate" in act:
                    if (
                        "%" in act["weightedMeanHeartRate"]["withUnitAbbr"]
                        or "z" in act["weightedMeanHeartRate"]["withUnitAbbr"]
                    ):
                        activity.Stats.HR.Average = None
                        recalcHR = True

                activity.Type = self._resolveActivityType(act["activityType"]["key"])

                activity.CalculateUID()
                activity.ServiceData = {"ActivityID": act["activityId"], "RecalcHR": recalcHR}

                activities.append(activity)
            logger.debug("Finished page " + str(page) + " of " + str(res["search"]["totalPages"]))
            if not exhaustive or int(res["search"]["totalPages"]) == page:
                break
            else:
                page += 1
        return activities, exclusions
    def _populate_sbr_activity(self, api_sbr_activity, usersettings):
        # Example JSON feed (unimportant fields have been removed)
        # [{
        #    "EventId": 63128401,                   #  Internal ID
        #    "EventType": 3,                        #  Swim (3), bike (1), or run (2)
        #    "EventDate": "4/22/2016",
        #    "EventTime": "7:44 AM",                #  User's time, time zone not specified
        #    "Planned": false,                      #  Training plan or actual data
        #    "TotalMinutes": 34.97,
        #    "TotalKilometers": 1.55448,
        #    "AverageHeartRate": 125,
        #    "MinimumHeartRate": 100,
        #    "MaximumHeartRate": 150,
        #    "MemberId": 999999,
        #    "MemberUsername": "******",
        #    "HasDeviceUpload": true,
        #    "DeviceUploadFile": "http://beginnertriathlete.com/discussion/storage/workouts/555555/abcd-123.fit",
        #    "RouteName": "",                       #  Might contain a description of the event
        #    "Comments": "",                        #  User supplied notes
        # }, ... ]

        activity = UploadedActivity()
        workout_id = api_sbr_activity["EventId"]
        eventType = api_sbr_activity["EventType"]
        eventDate = api_sbr_activity["EventDate"]
        eventTime = api_sbr_activity["EventTime"]
        totalMinutes = api_sbr_activity["TotalMinutes"]
        totalKms = api_sbr_activity["TotalKilometers"]
        averageHr = api_sbr_activity["AverageHeartRate"]
        minimumHr = api_sbr_activity["MinimumHeartRate"]
        maximumHr = api_sbr_activity["MaximumHeartRate"]
        deviceUploadFile = api_sbr_activity["DeviceUploadFile"]
        comments = api_sbr_activity["Comments"]

        # Basic SBR data does not include GPS or sensor data. If this event originated from a device upload,
        # DownloadActivity will find it.
        activity.Stationary = True

        # Same as above- The data might be there, but it's not supplied in the basic activity feed.
        activity.GPS = False

        activity.Notes = comments
        activity.Private = usersettings["Privacy"]
        activity.Type = self._workoutTypeMappings[str(eventType)]

        # Get the user's timezone from their profile. (Activity.TZ should be mentioned in the object hierarchy docs?)
        # Question: I believe if DownloadActivity finds device data, it will overwrite this. Which is OK with me.
        # The device data will most likely be more accurate.
        try:
            activity.TZ = pytz.timezone(usersettings["TimeZone"])
        except pytz.exceptions.UnknownTimeZoneError:
            activity.TZ = pytz.timezone(self._serverDefaultTimezone)

        # activity.StartTime and EndTime aren't mentioned in the object hierarchy docs, but I see them
        # set in all the other providers.
        activity.StartTime = dateutil.parser.parse(
            eventDate + " " + eventTime,
            dayfirst=False).replace(tzinfo=activity.TZ)
        activity.EndTime = activity.StartTime + timedelta(minutes=totalMinutes)

        # We can calculate some metrics from the supplied data. Would love to see some non-source code documentation
        # on each statistic and what it expects as input.
        activity.Stats.Distance = ActivityStatistic(
            ActivityStatisticUnit.Kilometers, value=totalKms)
        activity.Stats.HR = ActivityStatistic(
            ActivityStatisticUnit.BeatsPerMinute,
            avg=float(averageHr),
            min=float(minimumHr),
            max=float(maximumHr))
        activity.Stats.MovingTime = ActivityStatistic(
            ActivityStatisticUnit.Seconds, value=float(totalMinutes * 60))
        activity.Stats.TimerTime = ActivityStatistic(
            ActivityStatisticUnit.Seconds, value=float(totalMinutes * 60))
        # While BT does support laps, the current API doesn't report on them - a limitation that may need to be
        # corrected in a future update. For now, treat manual entries as a single lap. As more and more people upload
        # workouts using devices anyway, this probably matters much less than it once did.
        lap = Lap(stats=activity.Stats,
                  startTime=activity.StartTime,
                  endTime=activity.EndTime)
        activity.Laps = [lap]

        # Not 100% positive how this is utilized, but it is common for all providers. Detects duplicate downloads?
        activity.CalculateUID()

        # If a device file is attached, we'll get more details about this event in DownloadActivity
        activity.ServiceData = {
            "ID": int(workout_id),
            "DeviceUploadFile": deviceUploadFile
        }

        return activity
Exemple #18
0
    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        #http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities?&start=0&limit=50
        session = self._get_session(record=serviceRecord)
        page = 1
        pageSz = 100
        activities = []
        exclusions = []
        while True:
            logger.debug("Req with " + str({"start": (page - 1) * pageSz, "limit": pageSz}))
            self._rate_limit()

            retried_auth = False
            while True:
                res = session.get("http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities", params={"start": (page - 1) * pageSz, "limit": pageSz})
                # It's 10 PM and I have no clue why it's throwing these errors, maybe we just need to log in again?
                if res.status_code == 403 and not retried_auth:
                    retried_auth = True
                    session = self._get_session(serviceRecord, skip_cache=True)
                else:
                    break
            try:
                res = res.json()["results"]
            except ValueError:
                res_txt = res.text # So it can capture in the log message
                raise APIException("Parse failure in GC list resp: %s" % res.status_code)
            if "activities" not in res:
                break  # No activities on this page - empty account.
            for act in res["activities"]:
                act = act["activity"]
                activity = UploadedActivity()

                # Don't really know why sumSampleCountTimestamp doesn't appear in swim activities - they're definitely timestamped...
                activity.Stationary = "sumSampleCountSpeed" not in act and "sumSampleCountTimestamp" not in act
                activity.GPS = "endLatitude" in act

                activity.Private = act["privacy"]["key"] == "private"

                try:
                    activity.TZ = pytz.timezone(act["activityTimeZone"]["key"])
                except pytz.exceptions.UnknownTimeZoneError:
                    activity.TZ = pytz.FixedOffset(float(act["activityTimeZone"]["offset"]) * 60)

                logger.debug("Name " + act["activityName"]["value"] + ":")
                if len(act["activityName"]["value"].strip()) and act["activityName"]["value"] != "Untitled": # This doesn't work for internationalized accounts, oh well.
                    activity.Name = act["activityName"]["value"]

                if len(act["activityDescription"]["value"].strip()):
                    activity.Notes = act["activityDescription"]["value"]

                # beginTimestamp/endTimestamp is in UTC
                activity.StartTime = pytz.utc.localize(datetime.utcfromtimestamp(float(act["beginTimestamp"]["millis"])/1000))
                if "sumElapsedDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(0, round(float(act["sumElapsedDuration"]["value"])))
                elif "sumDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(minutes=float(act["sumDuration"]["minutesSeconds"].split(":")[0]), seconds=float(act["sumDuration"]["minutesSeconds"].split(":")[1]))
                else:
                    activity.EndTime = pytz.utc.localize(datetime.utcfromtimestamp(float(act["endTimestamp"]["millis"])/1000))
                logger.debug("Activity s/t " + str(activity.StartTime) + " on page " + str(page))
                activity.AdjustTZ()

                if "sumDistance" in act and float(act["sumDistance"]["value"]) != 0:
                    activity.Stats.Distance = ActivityStatistic(self._unitMap[act["sumDistance"]["uom"]], value=float(act["sumDistance"]["value"]))

                activity.Type = self._resolveActivityType(act["activityType"]["key"])

                activity.CalculateUID()
                
                activity.ServiceData = {"ActivityID": int(act["activityId"])}

                activities.append(activity)
            logger.debug("Finished page " + str(page) + " of " + str(res["search"]["totalPages"]))
            if not exhaustive or int(res["search"]["totalPages"]) == page:
                break
            else:
                page += 1
        return activities, exclusions
Exemple #19
0
    def DownloadActivityList(self, svcRecord, exhaustive_start_time=None):
        activities = []
        exclusions = []

        headers = self._apiHeaders(svcRecord)

        limitDateFormat = "%Y-%m-%d"

        if exhaustive_start_time:
            totalListEnd = datetime.now() + timedelta(
                days=1.5)  # Who knows which TZ it's in
            totalListStart = exhaustive_start_time - timedelta(days=1.5)
        else:
            totalListEnd = datetime.now() + timedelta(
                days=1.5)  # Who knows which TZ it's in
            totalListStart = totalListEnd - timedelta(
                days=20)  # Doesn't really matter

        listStep = timedelta(days=45)
        listEnd = totalListEnd
        listStart = max(totalListStart, totalListEnd - listStep)

        while True:
            logger.debug("Requesting %s to %s" % (listStart, listEnd))
            resp = requests.get(TRAININGPEAKS_API_BASE_URL +
                                "/v1/workouts/%s/%s" %
                                (listStart.strftime(limitDateFormat),
                                 listEnd.strftime(limitDateFormat)),
                                headers=headers)

            for act in resp.json():
                if not act.get("completed", True):
                    continue
                activity = UploadedActivity()
                activity.StartTime = dateutil.parser.parse(
                    act["StartTime"]).replace(tzinfo=None)
                logger.debug("Activity s/t " + str(activity.StartTime))
                activity.EndTime = activity.StartTime + timedelta(
                    hours=act["TotalTime"])
                activity.Name = act.get("Title", None)
                activity.Notes = act.get("Description", None)
                activity.Type = self._workoutTypeMappings.get(
                    act.get("WorkoutType", "").lower(), ActivityType.Other)

                activity.Stats.Cadence = ActivityStatistic(
                    ActivityStatisticUnit.RevolutionsPerMinute,
                    avg=act.get("CadenceAverage", None),
                    max=act.get("CadenceMaximum", None))
                activity.Stats.Distance = ActivityStatistic(
                    ActivityStatisticUnit.Meters,
                    value=act.get("Distance", None))
                activity.Stats.Elevation = ActivityStatistic(
                    ActivityStatisticUnit.Meters,
                    avg=act.get("ElevationAverage", None),
                    min=act.get("ElevationMinimum", None),
                    max=act.get("ElevationMaximum", None),
                    gain=act.get("ElevationGain", None),
                    loss=act.get("ElevationLoss", None))
                activity.Stats.Energy = ActivityStatistic(
                    ActivityStatisticUnit.Kilojoules,
                    value=act.get("Energy", None))
                activity.Stats.HR = ActivityStatistic(
                    ActivityStatisticUnit.BeatsPerMinute,
                    avg=act.get("HeartRateAverage", None),
                    min=act.get("HeartRateMinimum", None),
                    max=act.get("HeartRateMaximum", None))
                activity.Stats.Power = ActivityStatistic(
                    ActivityStatisticUnit.Watts,
                    avg=act.get("PowerAverage", None),
                    max=act.get("PowerMaximum", None))
                activity.Stats.Temperature = ActivityStatistic(
                    ActivityStatisticUnit.DegreesCelcius,
                    avg=act.get("TemperatureAverage", None),
                    min=act.get("TemperatureMinimum", None),
                    max=act.get("TemperatureMaximum", None))
                activity.Stats.Speed = ActivityStatistic(
                    ActivityStatisticUnit.MetersPerSecond,
                    avg=act.get("VelocityAverage", None),
                    max=act.get("VelocityMaximum", None))
                activity.CalculateUID()
                activities.append(activity)

            if not exhaustive_start_time:
                break

            listStart -= listStep
            listEnd -= listStep
            if listEnd < totalListStart:
                break

        return activities, exclusions
Exemple #20
0
    def DownloadActivityList(self, svcRecord, exhaustive=False):
        activities = []
        exclusions = []

        url = self.SetioDomain + "getRunsByUserId"
        extID = svcRecord.ExternalID

        payload = {"userId": extID}
        headers = {
            'content-type': "application/json",
            'cache-control': "no-cache",
        }
        response = requests.post(url,
                                 data=json.dumps(payload),
                                 headers=headers)
        try:
            reqdata = response.json()
        except ValueError:
            raise APIException("Failed parsing Setio list response %s - %s" %
                               (resp.status_code, resp.text))

        for ride in reqdata:
            activity = UploadedActivity()
            activity.StartTime = datetime.strptime(
                datetime.utcfromtimestamp(
                    ride["startTimeStamp"]).strftime('%Y-%m-%d %H:%M:%S'),
                "%Y-%m-%d %H:%M:%S")
            if "stopTimeStamp" in ride:
                activity.EndTime = datetime.strptime(
                    datetime.utcfromtimestamp(
                        ride["stopTimeStamp"]).strftime('%Y-%m-%d %H:%M:%S'),
                    "%Y-%m-%d %H:%M:%S")
            activity.ServiceData = {
                "ActivityID": ride["runId"],
                "Manual": "False"
            }

            activity.Name = ride["programName"]

            logger.debug("\tActivity s/t %s: %s" %
                         (activity.StartTime, activity.Name))
            activity.Type = ActivityType.Running
            if "totalDistance" in ride:
                activity.Stats.Distance = ActivityStatistic(
                    ActivityStatisticUnit.Meters, value=ride["totalDistance"])

            if "averageCadence" in ride:
                activity.Stats.Cadence.update(
                    ActivityStatistic(
                        ActivityStatisticUnit.RevolutionsPerMinute,
                        avg=ride["averageCadence"]))

            if "averageSpeed" in ride:
                activity.Stats.Speed = ActivityStatistic(
                    ActivityStatisticUnit.MetersPerSecond,
                    avg=ride["averageSpeed"])

            # get comment
            url = self.SetioDomain + "getRunComment"
            payload = {
                "userId": extID,
                "runId": activity.ServiceData["ActivityID"]
            }
            headers = {
                'content-type': "application/json",
                'cache-control': "no-cache",
            }
            streamdata = requests.post(url,
                                       data=json.dumps(payload),
                                       headers=headers)
            if streamdata.status_code == 500:
                raise APIException("Internal server error")

            if streamdata.status_code == 403:
                raise APIException("No authorization to download activity",
                                   block=True,
                                   user_exception=UserException(
                                       UserExceptionType.Authorization,
                                       intervention_required=True))

            activity.Notes = None
            if streamdata.status_code == 200:  # Ok
                try:
                    commentdata = streamdata.json()
                except:
                    raise APIException("Stream data returned is not JSON")

                if "comment" in commentdata:
                    activity.Notes = commentdata["comment"]

            activity.GPS = True

            activity.Private = False
            activity.Stationary = False  # True = no sensor data

            activity.CalculateUID()
            activities.append(activity)

        return activities, exclusions
Exemple #21
0
    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        #http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities?&start=0&limit=50
        cookies = self._get_cookies(record=serviceRecord)
        page = 1
        pageSz = 100
        activities = []
        exclusions = []
        while True:
            logger.debug("Req with " + str({"start": (page - 1) * pageSz, "limit": pageSz}))
            self._rate_limit()
            res = requests.get("http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities", params={"start": (page - 1) * pageSz, "limit": pageSz}, cookies=cookies)
            try:
                res = res.json()["results"]
            except ValueError:
                res_txt = res.text # So it can capture in the log message
                raise APIException("Parse failure in GC list resp: %s" % res.status_code)
            if "activities" not in res:
                break  # No activities on this page - empty account.
            for act in res["activities"]:
                act = act["activity"]
                if "sumDistance" not in act:
                    exclusions.append(APIExcludeActivity("No distance", activityId=act["activityId"], userException=UserException(UserExceptionType.Corrupt)))
                    continue
                activity = UploadedActivity()

                if "sumSampleCountSpeed" not in act and "sumSampleCountTimestamp" not in act: # Don't really know why sumSampleCountTimestamp doesn't appear in swim activities - they're definitely timestamped...
                    activity.Stationary = True
                else:
                    activity.Stationary = False

                activity.Private = act["privacy"]["key"] == "private"

                try:
                    activity.TZ = pytz.timezone(act["activityTimeZone"]["key"])
                except pytz.exceptions.UnknownTimeZoneError:
                    activity.TZ = pytz.FixedOffset(float(act["activityTimeZone"]["offset"]) * 60)

                logger.debug("Name " + act["activityName"]["value"] + ":")
                if len(act["activityName"]["value"].strip()) and act["activityName"]["value"] != "Untitled": # This doesn't work for internationalized accounts, oh well.
                    activity.Name = act["activityName"]["value"]

                if len(act["activityDescription"]["value"].strip()):
                    activity.Notes = act["activityDescription"]["value"]

                # beginTimestamp/endTimestamp is in UTC
                activity.StartTime = pytz.utc.localize(datetime.utcfromtimestamp(float(act["beginTimestamp"]["millis"])/1000))
                if "sumElapsedDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(0, round(float(act["sumElapsedDuration"]["value"])))
                elif "sumDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(minutes=float(act["sumDuration"]["minutesSeconds"].split(":")[0]), seconds=float(act["sumDuration"]["minutesSeconds"].split(":")[1]))
                else:
                    activity.EndTime = pytz.utc.localize(datetime.utcfromtimestamp(float(act["endTimestamp"]["millis"])/1000))
                logger.debug("Activity s/t " + str(activity.StartTime) + " on page " + str(page))
                activity.AdjustTZ()

                # TODO: fix the distance stats to account for the fact that this incorrectly reported km instead of meters for the longest time.
                activity.Stats.Distance = ActivityStatistic(self._unitMap[act["sumDistance"]["uom"]], value=float(act["sumDistance"]["value"]))

                activity.Type = self._resolveActivityType(act["activityType"]["key"])

                activity.CalculateUID()
                activity.ServiceData = {"ActivityID": act["activityId"]}

                activities.append(activity)
            logger.debug("Finished page " + str(page) + " of " + str(res["search"]["totalPages"]))
            if not exhaustive or int(res["search"]["totalPages"]) == page:
                break
            else:
                page += 1
        return activities, exclusions
    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        #http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities?&start=0&limit=50
        page = 1
        pageSz = 100
        activities = []
        exclusions = []
        while True:
            logger.debug("Req with " + str({
                "start": (page - 1) * pageSz,
                "limit": pageSz
            }))

            res = self._request_with_reauth(
                serviceRecord, lambda session: session.get(
                    "https://connect.garmin.com/modern/proxy/activity-search-service-1.0/json/activities",
                    params={
                        "start": (page - 1) * pageSz,
                        "limit": pageSz
                    }))

            try:
                res = res.json()["results"]
            except ValueError:
                res_txt = res.text  # So it can capture in the log message
                raise APIException("Parse failure in GC list resp: %s - %s" %
                                   (res.status_code, res.text))
            if "activities" not in res:
                break  # No activities on this page - empty account.
            for act in res["activities"]:
                act = act["activity"]
                activity = UploadedActivity()

                # Don't really know why sumSampleCountTimestamp doesn't appear in swim activities - they're definitely timestamped...
                activity.Stationary = "sumSampleCountSpeed" not in act and "sumSampleCountTimestamp" not in act
                activity.GPS = "endLatitude" in act

                activity.Private = act["privacy"]["key"] == "private"

                try:
                    activity.TZ = pytz.timezone(act["activityTimeZone"]["key"])
                except pytz.exceptions.UnknownTimeZoneError:
                    activity.TZ = pytz.FixedOffset(
                        float(act["activityTimeZone"]["offset"]) * 60)

                logger.debug("Name " + act["activityName"]["value"] + ":")
                if len(act["activityName"]["value"].strip(
                )) and act["activityName"][
                        "value"] != "Untitled":  # This doesn't work for internationalized accounts, oh well.
                    activity.Name = act["activityName"]["value"]

                if len(act["activityDescription"]["value"].strip()):
                    activity.Notes = act["activityDescription"]["value"]

                # beginTimestamp/endTimestamp is in UTC
                activity.StartTime = pytz.utc.localize(
                    datetime.utcfromtimestamp(
                        float(act["beginTimestamp"]["millis"]) / 1000))
                if "sumElapsedDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(
                        0, round(float(act["sumElapsedDuration"]["value"])))
                elif "sumDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(
                        minutes=float(act["sumDuration"]
                                      ["minutesSeconds"].split(":")[0]),
                        seconds=float(act["sumDuration"]
                                      ["minutesSeconds"].split(":")[1]))
                else:
                    activity.EndTime = pytz.utc.localize(
                        datetime.utcfromtimestamp(
                            float(act["endTimestamp"]["millis"]) / 1000))
                logger.debug("Activity s/t " + str(activity.StartTime) +
                             " on page " + str(page))
                activity.AdjustTZ()

                if "sumDistance" in act and float(
                        act["sumDistance"]["value"]) != 0:
                    activity.Stats.Distance = ActivityStatistic(
                        self._unitMap[act["sumDistance"]["uom"]],
                        value=float(act["sumDistance"]["value"]))

                if "device" in act and act["device"]["key"] != "unknown":
                    devId = DeviceIdentifier.FindMatchingIdentifierOfType(
                        DeviceIdentifierType.GC, {"Key": act["device"]["key"]})
                    ver_split = act["device"]["key"].split(".")
                    ver_maj = None
                    ver_min = None
                    if len(ver_split) == 4:
                        # 2.90.0.0
                        ver_maj = int(ver_split[0])
                        ver_min = int(ver_split[1])
                    activity.Device = Device(devId,
                                             verMaj=ver_maj,
                                             verMin=ver_min)

                activity.Type = self._resolveActivityType(
                    act["activityType"]["key"])

                activity.CalculateUID()

                activity.ServiceData = {"ActivityID": int(act["activityId"])}

                activities.append(activity)
            logger.debug("Finished page " + str(page) + " of " +
                         str(res["search"]["totalPages"]))
            if not exhaustive or int(res["search"]["totalPages"]) == page:
                break
            else:
                page += 1
        return activities, exclusions
Exemple #23
0
    def DownloadActivityList(self, serviceRecord, exhaustive=False):

        def mapStatTriple(act, stats_obj, key, units):
            if "%s_max" % key in act and act["%s_max" % key]:
                stats_obj.update(ActivityStatistic(units, max=float(act["%s_max" % key])))
            if "%s_min" % key in act and act["%s_min" % key]:
                stats_obj.update(ActivityStatistic(units, min=float(act["%s_min" % key])))
            if "%s_avg" % key in act and act["%s_avg" % key]:
                stats_obj.update(ActivityStatistic(units, avg=float(act["%s_avg" % key])))


        # http://ridewithgps.com/users/1/trips.json?limit=200&order_by=created_at&order_dir=asc
        # offset also supported
        activities = []
        exclusions = []
        # They don't actually support paging right now, for whatever reason
        params = self._add_auth_params({}, record=serviceRecord)

        res = requests.get("http://ridewithgps.com/users/{}/trips.json".format(serviceRecord.ExternalID), params=params)
        res = res.json()

        # Apparently some API users are seeing this new result format - I'm not
        if type(res) is dict:
            res = res.get("results", [])

        if res == []:
            return [], [] # No activities
        for act in res:
            if "distance" not in act:
                exclusions.append(APIExcludeActivity("No distance", activity_id=act["id"], user_exception=UserException(UserExceptionType.Corrupt)))
                continue
            if "duration" not in act or not act["duration"]:
                exclusions.append(APIExcludeActivity("No duration", activity_id=act["id"], user_exception=UserException(UserExceptionType.Corrupt)))
                continue
            activity = UploadedActivity()

            logger.debug("Name " + act["name"] + ":")
            if len(act["name"].strip()):
                activity.Name = act["name"]

            if len(act["description"].strip()):
                activity.Notes = act["description"]

            activity.GPS = act["is_gps"]
            activity.Stationary = not activity.GPS # I think

            # 0 = public, 1 = private, 2 = friends
            activity.Private = act["visibility"] == 1

            activity.StartTime = dateutil.parser.parse(act["departed_at"])

            try:
                activity.TZ = pytz.timezone(act["time_zone"])
            except pytz.exceptions.UnknownTimeZoneError:
                # Sometimes the time_zone returned isn't quite what we'd like it
                # So, just pull the offset from the datetime
                if isinstance(activity.StartTime.tzinfo, tzutc):
                    activity.TZ = pytz.utc # The dateutil tzutc doesn't have an _offset value.
                else:
                    activity.TZ = pytz.FixedOffset(activity.StartTime.tzinfo.utcoffset(activity.StartTime).total_seconds() / 60)

            activity.StartTime = activity.StartTime.replace(tzinfo=activity.TZ) # Overwrite dateutil's sillyness

            activity.EndTime = activity.StartTime + timedelta(seconds=self._duration_to_seconds(act["duration"]))
            logger.debug("Activity s/t " + str(activity.StartTime))
            activity.AdjustTZ()

            activity.Stats.Distance = ActivityStatistic(ActivityStatisticUnit.Meters, float(act["distance"]))

            mapStatTriple(act, activity.Stats.Power, "watts", ActivityStatisticUnit.Watts)
            mapStatTriple(act, activity.Stats.Speed, "speed", ActivityStatisticUnit.KilometersPerHour)
            mapStatTriple(act, activity.Stats.Cadence, "cad", ActivityStatisticUnit.RevolutionsPerMinute)
            mapStatTriple(act, activity.Stats.HR, "hr", ActivityStatisticUnit.BeatsPerMinute)

            if "elevation_gain" in act and act["elevation_gain"]:
                activity.Stats.Elevation.update(ActivityStatistic(ActivityStatisticUnit.Meters, gain=float(act["elevation_gain"])))

            if "elevation_loss" in act and act["elevation_loss"]:
                activity.Stats.Elevation.update(ActivityStatistic(ActivityStatisticUnit.Meters, loss=float(act["elevation_loss"])))

            # Activity type is not implemented yet in RWGPS results; we will assume cycling, though perhaps "OTHER" wouuld be correct
            activity.Type = ActivityType.Cycling

            activity.CalculateUID()
            activity.ServiceData = {"ActivityID": act["id"]}
            activities.append(activity)
        return activities, exclusions
Exemple #24
0
    def DownloadActivityList(self, svcRecord, exhaustive=False):
        activities = []
        exclusions = []

        url = self.SingletrackerDomain + "getRidesByUserId"
        extID = svcRecord.ExternalID

        payload = {"userId": extID}
        headers = {
            'content-type': "application/json",
            'cache-control': "no-cache",
        }
        response = requests.post(url,
                                 data=json.dumps(payload),
                                 headers=headers)
        try:
            reqdata = response.json()
        except ValueError:
            raise APIException(
                "Failed parsing Singletracker list response %s - %s" %
                (resp.status_code, resp.text))

        for ride in reqdata:
            activity = UploadedActivity()
            activity.StartTime = datetime.strptime(
                datetime.utcfromtimestamp(
                    ride["startTime"]).strftime('%Y-%m-%d %H:%M:%S'),
                "%Y-%m-%d %H:%M:%S")
            if "stopTime" in ride:
                activity.EndTime = datetime.strptime(
                    datetime.utcfromtimestamp(
                        ride["stopTime"]).strftime('%Y-%m-%d %H:%M:%S'),
                    "%Y-%m-%d %H:%M:%S")
            activity.ServiceData = {
                "ActivityID": ride["rideId"],
                "Manual": "False"
            }

            activity.Name = ride["trackName"]

            logger.debug("\tActivity s/t %s: %s" %
                         (activity.StartTime, activity.Name))
            activity.Type = ActivityType.MountainBiking
            if "totalDistance" in ride:
                activity.Stats.Distance = ActivityStatistic(
                    ActivityStatisticUnit.Meters, value=ride["totalDistance"])

            if "avgSpeed" in ride:
                activity.Stats.Speed = ActivityStatistic(
                    ActivityStatisticUnit.MetersPerSecond,
                    avg=ride["avgSpeed"])
            activity.Notes = None

            activity.GPS = True

            activity.Private = False
            activity.Stationary = False  # True = no sensor data

            activity.CalculateUID()
            activities.append(activity)

        return activities, exclusions
Exemple #25
0
    def DownloadActivityList(self, serviceRecord, exhaustive=False):
        #http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities?&start=0&limit=50
        session = self._get_session(record=serviceRecord)
        page = 1
        pageSz = 100
        activities = []
        exclusions = []
        while True:
            logger.debug("Req with " + str({
                "start": (page - 1) * pageSz,
                "limit": pageSz
            }))
            self._rate_limit()

            retried_auth = False
            while True:
                res = session.get(
                    "http://connect.garmin.com/proxy/activity-search-service-1.0/json/activities",
                    params={
                        "start": (page - 1) * pageSz,
                        "limit": pageSz
                    })
                # It's 10 PM and I have no clue why it's throwing these errors, maybe we just need to log in again?
                if res.status_code == 403 and not retried_auth:
                    retried_auth = True
                    session = self._get_session(serviceRecord, skip_cache=True)
                else:
                    break
            try:
                res = res.json()["results"]
            except ValueError:
                res_txt = res.text  # So it can capture in the log message
                raise APIException("Parse failure in GC list resp: %s" %
                                   res.status_code)
            if "activities" not in res:
                break  # No activities on this page - empty account.
            for act in res["activities"]:
                act = act["activity"]
                if "sumDistance" not in act:
                    exclusions.append(
                        APIExcludeActivity("No distance",
                                           activityId=act["activityId"],
                                           userException=UserException(
                                               UserExceptionType.Corrupt)))
                    continue
                activity = UploadedActivity()

                # Don't really know why sumSampleCountTimestamp doesn't appear in swim activities - they're definitely timestamped...
                activity.Stationary = "sumSampleCountSpeed" not in act and "sumSampleCountTimestamp" not in act
                activity.GPS = "endLatitude" in act

                activity.Private = act["privacy"]["key"] == "private"

                try:
                    activity.TZ = pytz.timezone(act["activityTimeZone"]["key"])
                except pytz.exceptions.UnknownTimeZoneError:
                    activity.TZ = pytz.FixedOffset(
                        float(act["activityTimeZone"]["offset"]) * 60)

                logger.debug("Name " + act["activityName"]["value"] + ":")
                if len(act["activityName"]["value"].strip(
                )) and act["activityName"][
                        "value"] != "Untitled":  # This doesn't work for internationalized accounts, oh well.
                    activity.Name = act["activityName"]["value"]

                if len(act["activityDescription"]["value"].strip()):
                    activity.Notes = act["activityDescription"]["value"]

                # beginTimestamp/endTimestamp is in UTC
                activity.StartTime = pytz.utc.localize(
                    datetime.utcfromtimestamp(
                        float(act["beginTimestamp"]["millis"]) / 1000))
                if "sumElapsedDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(
                        0, round(float(act["sumElapsedDuration"]["value"])))
                elif "sumDuration" in act:
                    activity.EndTime = activity.StartTime + timedelta(
                        minutes=float(act["sumDuration"]
                                      ["minutesSeconds"].split(":")[0]),
                        seconds=float(act["sumDuration"]
                                      ["minutesSeconds"].split(":")[1]))
                else:
                    activity.EndTime = pytz.utc.localize(
                        datetime.utcfromtimestamp(
                            float(act["endTimestamp"]["millis"]) / 1000))
                logger.debug("Activity s/t " + str(activity.StartTime) +
                             " on page " + str(page))
                activity.AdjustTZ()

                # TODO: fix the distance stats to account for the fact that this incorrectly reported km instead of meters for the longest time.
                activity.Stats.Distance = ActivityStatistic(
                    self._unitMap[act["sumDistance"]["uom"]],
                    value=float(act["sumDistance"]["value"]))

                activity.Type = self._resolveActivityType(
                    act["activityType"]["key"])

                activity.CalculateUID()

                activity.ServiceData = {"ActivityID": int(act["activityId"])}

                activities.append(activity)
            logger.debug("Finished page " + str(page) + " of " +
                         str(res["search"]["totalPages"]))
            if not exhaustive or int(res["search"]["totalPages"]) == page:
                break
            else:
                page += 1
        return activities, exclusions