1<html><body> 2<style> 3 4body, h1, h2, h3, div, span, p, pre, a { 5 margin: 0; 6 padding: 0; 7 border: 0; 8 font-weight: inherit; 9 font-style: inherit; 10 font-size: 100%; 11 font-family: inherit; 12 vertical-align: baseline; 13} 14 15body { 16 font-size: 13px; 17 padding: 1em; 18} 19 20h1 { 21 font-size: 26px; 22 margin-bottom: 1em; 23} 24 25h2 { 26 font-size: 24px; 27 margin-bottom: 1em; 28} 29 30h3 { 31 font-size: 20px; 32 margin-bottom: 1em; 33 margin-top: 1em; 34} 35 36pre, code { 37 line-height: 1.5; 38 font-family: Monaco, 'DejaVu Sans Mono', 'Bitstream Vera Sans Mono', 'Lucida Console', monospace; 39} 40 41pre { 42 margin-top: 0.5em; 43} 44 45h1, h2, h3, p { 46 font-family: Arial, sans serif; 47} 48 49h1, h2, h3 { 50 border-bottom: solid #CCC 1px; 51} 52 53.toc_element { 54 margin-top: 0.5em; 55} 56 57.firstline { 58 margin-left: 2 em; 59} 60 61.method { 62 margin-top: 1em; 63 border: solid 1px #CCC; 64 padding: 1em; 65 background: #EEE; 66} 67 68.details { 69 font-weight: bold; 70 font-size: 14px; 71} 72 73</style> 74 75<h1><a href="monitoring_v3.html">Stackdriver Monitoring API</a> . <a href="monitoring_v3.projects.html">projects</a> . <a href="monitoring_v3.projects.timeSeries.html">timeSeries</a></h1> 76<h2>Instance Methods</h2> 77<p class="toc_element"> 78 <code><a href="#create">create(name, body, x__xgafv=None)</a></code></p> 79<p class="firstline">Creates or adds data to one or more time series. The response is empty if all time series in the request were written. If any time series could not be written, a corresponding failure message is included in the error response.</p> 80<p class="toc_element"> 81 <code><a href="#list">list(name, orderBy=None, pageSize=None, x__xgafv=None, aggregation_alignmentPeriod=None, pageToken=None, aggregation_groupByFields=None, aggregation_perSeriesAligner=None, interval_endTime=None, aggregation_crossSeriesReducer=None, filter=None, interval_startTime=None, view=None)</a></code></p> 82<p class="firstline">Lists time series that match a filter. This method does not require a Stackdriver account.</p> 83<p class="toc_element"> 84 <code><a href="#list_next">list_next(previous_request, previous_response)</a></code></p> 85<p class="firstline">Retrieves the next page of results.</p> 86<h3>Method Details</h3> 87<div class="method"> 88 <code class="details" id="create">create(name, body, x__xgafv=None)</code> 89 <pre>Creates or adds data to one or more time series. The response is empty if all time series in the request were written. If any time series could not be written, a corresponding failure message is included in the error response. 90 91Args: 92 name: string, The project on which to execute the request. The format is "projects/{project_id_or_number}". (required) 93 body: object, The request body. (required) 94 The object takes the form of: 95 96{ # The CreateTimeSeries request. 97 "timeSeries": [ # The new data to be added to a list of time series. Adds at most one data point to each of several time series. The new data point must be more recent than any other point in its time series. Each TimeSeries value must fully specify a unique time series by supplying all label values for the metric and the monitored resource. 98 { # A collection of data points that describes the time-varying values of a metric. A time series is identified by a combination of a fully-specified monitored resource and a fully-specified metric. This type is used for both listing and creating time series. 99 "metricKind": "A String", # The metric kind of the time series. When listing time series, this metric kind might be different from the metric kind of the associated metric if this time series is an alignment or reduction of other time series.When creating a time series, this field is optional. If present, it must be the same as the metric kind of the associated metric. If the associated metric's descriptor must be auto-created, then this field specifies the metric kind of the new descriptor and must be either GAUGE (the default) or CUMULATIVE. 100 "metric": { # A specific metric, identified by specifying values for all of the labels of a MetricDescriptor. # The associated metric. A fully-specified metric used to identify the time series. 101 "labels": { # The set of label values that uniquely identify this metric. All labels listed in the MetricDescriptor must be assigned values. 102 "a_key": "A String", 103 }, 104 "type": "A String", # An existing metric type, see google.api.MetricDescriptor. For example, custom.googleapis.com/invoice/paid/amount. 105 }, 106 "points": [ # The data points of this time series. When listing time series, the order of the points is specified by the list method.When creating a time series, this field must contain exactly one point and the point's type must be the same as the value type of the associated metric. If the associated metric's descriptor must be auto-created, then the value type of the descriptor is determined by the point's type, which must be BOOL, INT64, DOUBLE, or DISTRIBUTION. 107 { # A single data point in a time series. 108 "interval": { # A time interval extending just after a start time through an end time. If the start time is the same as the end time, then the interval represents a single point in time. # The time interval to which the data point applies. For GAUGE metrics, only the end time of the interval is used. For DELTA metrics, the start and end time should specify a non-zero interval, with subsequent points specifying contiguous and non-overlapping intervals. For CUMULATIVE metrics, the start and end time should specify a non-zero interval, with subsequent points specifying the same start time and increasing end times, until an event resets the cumulative value to zero and sets a new start time for the following points. 109 "endTime": "A String", # Required. The end of the time interval. 110 "startTime": "A String", # Optional. The beginning of the time interval. The default value for the start time is the end time. The start time must not be later than the end time. 111 }, 112 "value": { # A single strongly-typed value. # The value of the data point. 113 "distributionValue": { # Distribution contains summary statistics for a population of values. It optionally contains a histogram representing the distribution of those values across a set of buckets.The summary statistics are the count, mean, sum of the squared deviation from the mean, the minimum, and the maximum of the set of population of values. The histogram is based on a sequence of buckets and gives a count of values that fall into each bucket. The boundaries of the buckets are given either explicitly or by formulas for buckets of fixed or exponentially increasing widths.Although it is not forbidden, it is generally a bad idea to include non-finite values (infinities or NaNs) in the population of values, as this will render the mean and sum_of_squared_deviation fields meaningless. # A distribution value. 114 "count": "A String", # The number of values in the population. Must be non-negative. This value must equal the sum of the values in bucket_counts if a histogram is provided. 115 "bucketCounts": [ # Required in the Stackdriver Monitoring API v3. The values for each bucket specified in bucket_options. The sum of the values in bucketCounts must equal the value in the count field of the Distribution object. The order of the bucket counts follows the numbering schemes described for the three bucket types. The underflow bucket has number 0; the finite buckets, if any, have numbers 1 through N-2; and the overflow bucket has number N-1. The size of bucket_counts must not be greater than N. If the size is less than N, then the remaining buckets are assigned values of zero. 116 "A String", 117 ], 118 "bucketOptions": { # BucketOptions describes the bucket boundaries used to create a histogram for the distribution. The buckets can be in a linear sequence, an exponential sequence, or each bucket can be specified explicitly. BucketOptions does not include the number of values in each bucket.A bucket has an inclusive lower bound and exclusive upper bound for the values that are counted for that bucket. The upper bound of a bucket must be strictly greater than the lower bound. The sequence of N buckets for a distribution consists of an underflow bucket (number 0), zero or more finite buckets (number 1 through N - 2) and an overflow bucket (number N - 1). The buckets are contiguous: the lower bound of bucket i (i > 0) is the same as the upper bound of bucket i - 1. The buckets span the whole range of finite values: lower bound of the underflow bucket is -infinity and the upper bound of the overflow bucket is +infinity. The finite buckets are so-called because both bounds are finite. # Required in the Stackdriver Monitoring API v3. Defines the histogram bucket boundaries. 119 "exponentialBuckets": { # Specifies an exponential sequence of buckets that have a width that is proportional to the value of the lower bound. Each bucket represents a constant relative uncertainty on a specific value in the bucket.There are num_finite_buckets + 2 (= N) buckets. Bucket i has the following boundaries:Upper bound (0 <= i < N-1): scale * (growth_factor ^ i). Lower bound (1 <= i < N): scale * (growth_factor ^ (i - 1)). # The exponential buckets. 120 "scale": 3.14, # Must be greater than 0. 121 "growthFactor": 3.14, # Must be greater than 1. 122 "numFiniteBuckets": 42, # Must be greater than 0. 123 }, 124 "linearBuckets": { # Specifies a linear sequence of buckets that all have the same width (except overflow and underflow). Each bucket represents a constant absolute uncertainty on the specific value in the bucket.There are num_finite_buckets + 2 (= N) buckets. Bucket i has the following boundaries:Upper bound (0 <= i < N-1): offset + (width * i). Lower bound (1 <= i < N): offset + (width * (i - 1)). # The linear bucket. 125 "width": 3.14, # Must be greater than 0. 126 "numFiniteBuckets": 42, # Must be greater than 0. 127 "offset": 3.14, # Lower bound of the first bucket. 128 }, 129 "explicitBuckets": { # Specifies a set of buckets with arbitrary widths.There are size(bounds) + 1 (= N) buckets. Bucket i has the following boundaries:Upper bound (0 <= i < N-1): boundsi Lower bound (1 <= i < N); boundsi - 1The bounds field must contain at least one element. If bounds has only one element, then there are no finite buckets, and that single element is the common boundary of the overflow and underflow buckets. # The explicit buckets. 130 "bounds": [ # The values must be monotonically increasing. 131 3.14, 132 ], 133 }, 134 }, 135 "range": { # The range of the population values. # If specified, contains the range of the population values. The field must not be present if the count is zero. This field is presently ignored by the Stackdriver Monitoring API v3. 136 "max": 3.14, # The maximum of the population values. 137 "min": 3.14, # The minimum of the population values. 138 }, 139 "sumOfSquaredDeviation": 3.14, # The sum of squared deviations from the mean of the values in the population. For values x_i this is: 140 # Sum[i=1..n]((x_i - mean)^2) 141 # Knuth, "The Art of Computer Programming", Vol. 2, page 323, 3rd edition describes Welford's method for accumulating this sum in one pass.If count is zero then this field must be zero. 142 "mean": 3.14, # The arithmetic mean of the values in the population. If count is zero then this field must be zero. 143 }, 144 "stringValue": "A String", # A variable-length string value. 145 "int64Value": "A String", # A 64-bit integer. Its range is approximately ±9.2x10<sup>18</sup>. 146 "doubleValue": 3.14, # A 64-bit double-precision floating-point number. Its magnitude is approximately ±10<sup>±300</sup> and it has 16 significant digits of precision. 147 "boolValue": True or False, # A Boolean value: true or false. 148 }, 149 }, 150 ], 151 "resource": { # An object representing a resource that can be used for monitoring, logging, billing, or other purposes. Examples include virtual machine instances, databases, and storage devices such as disks. The type field identifies a MonitoredResourceDescriptor object that describes the resource's schema. Information in the labels field identifies the actual resource and its attributes according to the schema. For example, a particular Compute Engine VM instance could be represented by the following object, because the MonitoredResourceDescriptor for "gce_instance" has labels "instance_id" and "zone": # The associated monitored resource. Custom metrics can use only certain monitored resource types in their time series data. 152 # { "type": "gce_instance", 153 # "labels": { "instance_id": "12345678901234", 154 # "zone": "us-central1-a" }} 155 "labels": { # Required. Values for all of the labels listed in the associated monitored resource descriptor. For example, Compute Engine VM instances use the labels "project_id", "instance_id", and "zone". 156 "a_key": "A String", 157 }, 158 "type": "A String", # Required. The monitored resource type. This field must match the type field of a MonitoredResourceDescriptor object. For example, the type of a Compute Engine VM instance is gce_instance. 159 }, 160 "valueType": "A String", # The value type of the time series. When listing time series, this value type might be different from the value type of the associated metric if this time series is an alignment or reduction of other time series.When creating a time series, this field is optional. If present, it must be the same as the type of the data in the points field. 161 }, 162 ], 163 } 164 165 x__xgafv: string, V1 error format. 166 Allowed values 167 1 - v1 error format 168 2 - v2 error format 169 170Returns: 171 An object of the form: 172 173 { # A generic empty message that you can re-use to avoid defining duplicated empty messages in your APIs. A typical example is to use it as the request or the response type of an API method. For instance: 174 # service Foo { 175 # rpc Bar(google.protobuf.Empty) returns (google.protobuf.Empty); 176 # } 177 # The JSON representation for Empty is empty JSON object {}. 178 }</pre> 179</div> 180 181<div class="method"> 182 <code class="details" id="list">list(name, orderBy=None, pageSize=None, x__xgafv=None, aggregation_alignmentPeriod=None, pageToken=None, aggregation_groupByFields=None, aggregation_perSeriesAligner=None, interval_endTime=None, aggregation_crossSeriesReducer=None, filter=None, interval_startTime=None, view=None)</code> 183 <pre>Lists time series that match a filter. This method does not require a Stackdriver account. 184 185Args: 186 name: string, The project on which to execute the request. The format is "projects/{project_id_or_number}". (required) 187 orderBy: string, Specifies the order in which the points of the time series should be returned. By default, results are not ordered. Currently, this field must be left blank. 188 pageSize: integer, A positive number that is the maximum number of results to return. When view field sets to FULL, it limits the number of Points server will return; if view field is HEADERS, it limits the number of TimeSeries server will return. 189 x__xgafv: string, V1 error format. 190 Allowed values 191 1 - v1 error format 192 2 - v2 error format 193 aggregation_alignmentPeriod: string, The alignment period for per-time series alignment. If present, alignmentPeriod must be at least 60 seconds. After per-time series alignment, each time series will contain data points only on the period boundaries. If perSeriesAligner is not specified or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner is specified and does not equal ALIGN_NONE, then this field must be defined; otherwise an error is returned. 194 pageToken: string, If this field is not empty then it must contain the nextPageToken value returned by a previous call to this method. Using this field causes the method to return additional results from the previous method call. 195 aggregation_groupByFields: string, The set of fields to preserve when crossSeriesReducer is specified. The groupByFields determine how the time series are partitioned into subsets prior to applying the aggregation function. Each subset contains time series that have the same value for each of the grouping fields. Each individual time series is a member of exactly one subset. The crossSeriesReducer is applied to each subset of time series. It is not possible to reduce across different resource types, so this field implicitly contains resource.type. Fields not specified in groupByFields are aggregated away. If groupByFields is not specified and all the time series have the same resource type, then the time series are aggregated into a single output time series. If crossSeriesReducer is not defined, this field is ignored. (repeated) 196 aggregation_perSeriesAligner: string, The approach to be used to align individual time series. Not all alignment functions may be applied to all time series, depending on the metric type and value type of the original time series. Alignment may change the metric type or the value type of the time series.Time series data must be aligned in order to perform cross-time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. 197 interval_endTime: string, Required. The end of the time interval. 198 aggregation_crossSeriesReducer: string, The approach to be used to combine time series. Not all reducer functions may be applied to all time series, depending on the metric type and the value type of the original time series. Reduction may change the metric type of value type of the time series.Time series data must be aligned in order to perform cross-time series reduction. If crossSeriesReducer is specified, then perSeriesAligner must be specified and not equal ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error is returned. 199 filter: string, A monitoring filter that specifies which time series should be returned. The filter must specify a single metric type, and can additionally specify metric labels and other information. For example: 200metric.type = "compute.googleapis.com/instance/cpu/usage_time" AND 201 metric.label.instance_name = "my-instance-name" 202 203 interval_startTime: string, Optional. The beginning of the time interval. The default value for the start time is the end time. The start time must not be later than the end time. 204 view: string, Specifies which information is returned about the time series. 205 206Returns: 207 An object of the form: 208 209 { # The ListTimeSeries response. 210 "nextPageToken": "A String", # If there are more results than have been returned, then this field is set to a non-empty value. To see the additional results, use that value as pageToken in the next call to this method. 211 "timeSeries": [ # One or more time series that match the filter included in the request. 212 { # A collection of data points that describes the time-varying values of a metric. A time series is identified by a combination of a fully-specified monitored resource and a fully-specified metric. This type is used for both listing and creating time series. 213 "metricKind": "A String", # The metric kind of the time series. When listing time series, this metric kind might be different from the metric kind of the associated metric if this time series is an alignment or reduction of other time series.When creating a time series, this field is optional. If present, it must be the same as the metric kind of the associated metric. If the associated metric's descriptor must be auto-created, then this field specifies the metric kind of the new descriptor and must be either GAUGE (the default) or CUMULATIVE. 214 "metric": { # A specific metric, identified by specifying values for all of the labels of a MetricDescriptor. # The associated metric. A fully-specified metric used to identify the time series. 215 "labels": { # The set of label values that uniquely identify this metric. All labels listed in the MetricDescriptor must be assigned values. 216 "a_key": "A String", 217 }, 218 "type": "A String", # An existing metric type, see google.api.MetricDescriptor. For example, custom.googleapis.com/invoice/paid/amount. 219 }, 220 "points": [ # The data points of this time series. When listing time series, the order of the points is specified by the list method.When creating a time series, this field must contain exactly one point and the point's type must be the same as the value type of the associated metric. If the associated metric's descriptor must be auto-created, then the value type of the descriptor is determined by the point's type, which must be BOOL, INT64, DOUBLE, or DISTRIBUTION. 221 { # A single data point in a time series. 222 "interval": { # A time interval extending just after a start time through an end time. If the start time is the same as the end time, then the interval represents a single point in time. # The time interval to which the data point applies. For GAUGE metrics, only the end time of the interval is used. For DELTA metrics, the start and end time should specify a non-zero interval, with subsequent points specifying contiguous and non-overlapping intervals. For CUMULATIVE metrics, the start and end time should specify a non-zero interval, with subsequent points specifying the same start time and increasing end times, until an event resets the cumulative value to zero and sets a new start time for the following points. 223 "endTime": "A String", # Required. The end of the time interval. 224 "startTime": "A String", # Optional. The beginning of the time interval. The default value for the start time is the end time. The start time must not be later than the end time. 225 }, 226 "value": { # A single strongly-typed value. # The value of the data point. 227 "distributionValue": { # Distribution contains summary statistics for a population of values. It optionally contains a histogram representing the distribution of those values across a set of buckets.The summary statistics are the count, mean, sum of the squared deviation from the mean, the minimum, and the maximum of the set of population of values. The histogram is based on a sequence of buckets and gives a count of values that fall into each bucket. The boundaries of the buckets are given either explicitly or by formulas for buckets of fixed or exponentially increasing widths.Although it is not forbidden, it is generally a bad idea to include non-finite values (infinities or NaNs) in the population of values, as this will render the mean and sum_of_squared_deviation fields meaningless. # A distribution value. 228 "count": "A String", # The number of values in the population. Must be non-negative. This value must equal the sum of the values in bucket_counts if a histogram is provided. 229 "bucketCounts": [ # Required in the Stackdriver Monitoring API v3. The values for each bucket specified in bucket_options. The sum of the values in bucketCounts must equal the value in the count field of the Distribution object. The order of the bucket counts follows the numbering schemes described for the three bucket types. The underflow bucket has number 0; the finite buckets, if any, have numbers 1 through N-2; and the overflow bucket has number N-1. The size of bucket_counts must not be greater than N. If the size is less than N, then the remaining buckets are assigned values of zero. 230 "A String", 231 ], 232 "bucketOptions": { # BucketOptions describes the bucket boundaries used to create a histogram for the distribution. The buckets can be in a linear sequence, an exponential sequence, or each bucket can be specified explicitly. BucketOptions does not include the number of values in each bucket.A bucket has an inclusive lower bound and exclusive upper bound for the values that are counted for that bucket. The upper bound of a bucket must be strictly greater than the lower bound. The sequence of N buckets for a distribution consists of an underflow bucket (number 0), zero or more finite buckets (number 1 through N - 2) and an overflow bucket (number N - 1). The buckets are contiguous: the lower bound of bucket i (i > 0) is the same as the upper bound of bucket i - 1. The buckets span the whole range of finite values: lower bound of the underflow bucket is -infinity and the upper bound of the overflow bucket is +infinity. The finite buckets are so-called because both bounds are finite. # Required in the Stackdriver Monitoring API v3. Defines the histogram bucket boundaries. 233 "exponentialBuckets": { # Specifies an exponential sequence of buckets that have a width that is proportional to the value of the lower bound. Each bucket represents a constant relative uncertainty on a specific value in the bucket.There are num_finite_buckets + 2 (= N) buckets. Bucket i has the following boundaries:Upper bound (0 <= i < N-1): scale * (growth_factor ^ i). Lower bound (1 <= i < N): scale * (growth_factor ^ (i - 1)). # The exponential buckets. 234 "scale": 3.14, # Must be greater than 0. 235 "growthFactor": 3.14, # Must be greater than 1. 236 "numFiniteBuckets": 42, # Must be greater than 0. 237 }, 238 "linearBuckets": { # Specifies a linear sequence of buckets that all have the same width (except overflow and underflow). Each bucket represents a constant absolute uncertainty on the specific value in the bucket.There are num_finite_buckets + 2 (= N) buckets. Bucket i has the following boundaries:Upper bound (0 <= i < N-1): offset + (width * i). Lower bound (1 <= i < N): offset + (width * (i - 1)). # The linear bucket. 239 "width": 3.14, # Must be greater than 0. 240 "numFiniteBuckets": 42, # Must be greater than 0. 241 "offset": 3.14, # Lower bound of the first bucket. 242 }, 243 "explicitBuckets": { # Specifies a set of buckets with arbitrary widths.There are size(bounds) + 1 (= N) buckets. Bucket i has the following boundaries:Upper bound (0 <= i < N-1): boundsi Lower bound (1 <= i < N); boundsi - 1The bounds field must contain at least one element. If bounds has only one element, then there are no finite buckets, and that single element is the common boundary of the overflow and underflow buckets. # The explicit buckets. 244 "bounds": [ # The values must be monotonically increasing. 245 3.14, 246 ], 247 }, 248 }, 249 "range": { # The range of the population values. # If specified, contains the range of the population values. The field must not be present if the count is zero. This field is presently ignored by the Stackdriver Monitoring API v3. 250 "max": 3.14, # The maximum of the population values. 251 "min": 3.14, # The minimum of the population values. 252 }, 253 "sumOfSquaredDeviation": 3.14, # The sum of squared deviations from the mean of the values in the population. For values x_i this is: 254 # Sum[i=1..n]((x_i - mean)^2) 255 # Knuth, "The Art of Computer Programming", Vol. 2, page 323, 3rd edition describes Welford's method for accumulating this sum in one pass.If count is zero then this field must be zero. 256 "mean": 3.14, # The arithmetic mean of the values in the population. If count is zero then this field must be zero. 257 }, 258 "stringValue": "A String", # A variable-length string value. 259 "int64Value": "A String", # A 64-bit integer. Its range is approximately ±9.2x10<sup>18</sup>. 260 "doubleValue": 3.14, # A 64-bit double-precision floating-point number. Its magnitude is approximately ±10<sup>±300</sup> and it has 16 significant digits of precision. 261 "boolValue": True or False, # A Boolean value: true or false. 262 }, 263 }, 264 ], 265 "resource": { # An object representing a resource that can be used for monitoring, logging, billing, or other purposes. Examples include virtual machine instances, databases, and storage devices such as disks. The type field identifies a MonitoredResourceDescriptor object that describes the resource's schema. Information in the labels field identifies the actual resource and its attributes according to the schema. For example, a particular Compute Engine VM instance could be represented by the following object, because the MonitoredResourceDescriptor for "gce_instance" has labels "instance_id" and "zone": # The associated monitored resource. Custom metrics can use only certain monitored resource types in their time series data. 266 # { "type": "gce_instance", 267 # "labels": { "instance_id": "12345678901234", 268 # "zone": "us-central1-a" }} 269 "labels": { # Required. Values for all of the labels listed in the associated monitored resource descriptor. For example, Compute Engine VM instances use the labels "project_id", "instance_id", and "zone". 270 "a_key": "A String", 271 }, 272 "type": "A String", # Required. The monitored resource type. This field must match the type field of a MonitoredResourceDescriptor object. For example, the type of a Compute Engine VM instance is gce_instance. 273 }, 274 "valueType": "A String", # The value type of the time series. When listing time series, this value type might be different from the value type of the associated metric if this time series is an alignment or reduction of other time series.When creating a time series, this field is optional. If present, it must be the same as the type of the data in the points field. 275 }, 276 ], 277 }</pre> 278</div> 279 280<div class="method"> 281 <code class="details" id="list_next">list_next(previous_request, previous_response)</code> 282 <pre>Retrieves the next page of results. 283 284Args: 285 previous_request: The request for the previous page. (required) 286 previous_response: The response from the request for the previous page. (required) 287 288Returns: 289 A request object that you can call 'execute()' on to request the next 290 page. Returns None if there are no more items in the collection. 291 </pre> 292</div> 293 294</body></html>