Configuring a Traffic Policy
- Log in to the ASM console and click the name of the target service mesh to go to its details page.
- In the navigation pane, choose Service Management. In the upper right corner of the list, select the namespace that your services belong to.
- Locate the target service and click Manage Traffic in the Operation column. In the window that slides out from the right, configure retry, timeout, connection pool, outlier detection, load balancing, HTTP header, and fault injection policies.
Retry
Auto retries upon service access failures improve the access quality and success rate.
On the Retry tab, click Configure now. In the displayed dialog box, set the parameters listed in the table below.
Table 1 Retry parameters Parameter
Description
Value Range
Retries
Maximum number of retries allowed for a single request. The default retry interval is 25 ms. The actual number of retries depends on the configured timeout period and retry timeout period.
1-2147483647
Retry Timeout (s)
Timeout period of an initial or retry request. The default value is the same as the timeout period configured in the Timeout area below.
0.001–2592000
Retry Condition
Configure retry conditions. For details, see Retry Policies and gRPC Retry Policies.
-
Timeout
Auto processing and quickly failure return upon service access timeout eliminate resource locking and request freezing.
On the Timeout tab, click Configure now. In the displayed dialog box, set the parameters listed in the table below.
Table 2 Timeout parameters Parameter
Description
Value Range
Timeout (s)
Timeout period for HTTP requests
0.001–2592000
Connection Pool
Connections and requests that exceed the thresholds are cut off to protect target services. Connection pool settings are applied to each pod of the upstream service at the TCP and HTTP levels. For details, see Circuit Breaker.
On the Connection Pool tab, click Configure now. In the displayed dialog box, set the parameters listed in the tables below.
Table 3 Parameters under TCP Settings Parameter
Description
Value Range
Maximum Number of Connections
Maximum number of HTTP/TCP connections to the target service. The default value is 4294967295.
1-2147483647
Maximum Number of Non-responses
Maximum number of keepalive probes to be sent before the connection is determined to be invalid. By default, the OS-level configuration is used. (The default value is 9 for Linux.)
1-2147483647
Health Check Interval (s)
Time interval between two keepalive probes. By default, the OS-level configuration is used. (The default value is 75 for Linux.)
0.001–2592000
Connection Timeout (s)
TCP connection timeout period. The default value is 10.
0.001–2592000
Minimum Idle Period (s)
Duration in which a connection remains idle before a keepalive probe is sent. By default, the OS-level configuration is used. (The default value is 7200 for Linux, namely, 2 hours.)
0.001–2592000
Table 4 Parameters under HTTP Settings Parameter
Description
Value Range
Maximum Number of Requests
Maximum number of requests that can be forwarded to a single service pod. The default value is 4294967295.
1-2147483647
Maximum Number of Pending Requests
Maximum number of HTTP requests that can be forwarded to the target service for processing. The default value is 4294967295.
1-2147483647
Maximum Connection Idle Period (s)
Timeout period of an idle upstream service connection. If there is no active request within this time period, the connection will be closed. The default value is 3600 (1 hour).
0.001–2592000
Maximum Retries
Maximum number of retries of all service pods within a specified period. The default value is 4294967295.
1-2147483647
Maximum Number of Requests Per Connection
Maximum number of requests for each connection to the backend. If this parameter is set to 1, the keepalive function is disabled. The default value is 0, indicating infinite. The maximum value is 536870912.
1–536870912
Outlier Detection
Unhealthy pods are automatically isolated to improve the overall access success rate.
The traffic status of service pods is traced to determine whether the pods are healthy. Unhealthy pods will be ejected from the connection pool to improve the overall access success rate. Outlier detection can be configured for HTTP and TCP services. For HTTP services, pods that continuously return 5xx errors are considered unhealthy. For TCP services, pods whose connections time out or fail are considered unhealthy. For details, see Outlier Detection.
On the Outlier Detection tab, click Configure now. In the displayed dialog box, set the parameters listed in the table below.
Table 5 Outlier detection parameters Parameter
Description
Value Range
Consecutive Errors
Number of consecutive errors in a specified time period. If the number of consecutive errors exceeds the parameter value, the pod will be ejected. The default value is 5.
1-2147483647
Base Ejection Time (s)
Base ejection time of a service pod that meets the outlier detection conditions. The actual ejection time of a service pod = Base ejection time x Number of ejection times. The value must be greater than or equal to 0.001s. The default value is 30.
0.001–2592000
Inspection Interval (s)
If the number of errors reaches the threshold within this time period, the pod will be ejected. The value must be greater than or equal to 0.001s. The default value is 10.
0.001–2592000
Maximum Percentage of Ejected Pods (%)
Maximum percentage of ejected service pods. The default value is 10.
1–100
Load Balancing
You can customize a load balancing policy to target backend service pods.
On the Load Balancing tab, click Configure now. In the displayed dialog box, select one of the following load balancing algorithms as required:
- Round robin: The default load balancing algorithm. Each service pod in the pool gets a request in turn.
- Least connection: Requests are forwarded to the pod with fewer connections among two randomly selected healthy pods.
- Random: Requests are forwarded to a randomly selected healthy pod.
- Consistent hashing: There are four types, as described in Table 6.
Table 6 Consistent hashing algorithm types Type
Description
Based on HTTP header
The hash value is calculated using the header of the HTTP request. Requests with the same hash value are forwarded to the same pod.
Based on cookie
The hash value is calculated using the cookie key name of the HTTP request. Requests with the same hash value are forwarded to the same pod.
Based on source IP
The hash value is calculated using the IP address of the HTTP request. Requests with the same hash value are forwarded to the same pod.
Based on query parameter
The hash value is calculated using the query parameter key name of the HTTP request. Requests with the same hash value are forwarded to the same pod.
HTTP Header
You can flexibly add, modify, and delete specified HTTP headers to manage request contents in non-intrusive mode.
On the HTTP Header tab, click Configure now. In the displayed dialog box, set the parameters listed in the tables below.
Table 7 Operations on the HTTP headers before the request is forwarded to the destination service Parameter
Description
Add request headers.
To add a request header, you need to set key and value. You can also click to add more request headers.
Edit request headers.
To edit an existing request header, you need to set key and value. You can also click to edit more request headers.
Remove request headers.
To remove an existing request header, you need to set key. You can also click to remove more request headers.
Table 8 Operations on the HTTP headers before the response is returned to the client Parameter
Description
Add response headers.
To add a response header, you need to set key and value. You can also click to add more response headers.
Edit response headers.
To edit an existing response header, you need to set key and value. You can also click to edit more response headers.
Remove response headers.
To remove an existing response header, you need to set key. You can also click to remove more response headers.
Fault Injection
You can inject faults into the system to check whether it can tolerate and recover from faults.
On the Fault Injection tab, click Configure now. In the displayed dialog box, set the parameters listed in the table below.
Table 9 Fault injection parameters Parameter
Description
Value Range
Fault Type
The options are Delay and Abort.
- Delay: Service requests are delayed.
- Abort: A service is aborted and the preset status code is returned.
Delay and Abort
Delay (s)
This parameter needs to be set when Fault Type is set to Delay.
A request will be delayed for this period of time before it is forwarded.
0.001–2592000
HTTP Status Code
This parameter needs to be set when Fault Type is set to Abort.
HTTP status code returned when an abort fault occurs. The default value is 500.
200–599
Fault Percentage (%)
Percentage of requests for which the delay or abort fault is injected.
1–100
Feedback
Was this page helpful?
Provide feedbackThank you very much for your feedback. We will continue working to improve the documentation.See the reply and handling status in My Cloud VOC.
For any further questions, feel free to contact us through the chatbot.
Chatbot