Custom Runtime
Scenarios
A runtime runs the code of a function, reads the handler name from an environment variable, and reads invocation events from the runtime APIs of FunctionGraph. The runtime passes event data to the function handler and returns the response from the handler to FunctionGraph.
FunctionGraph supports custom runtimes. You can use an executable file named bootstrap to include a runtime in your function deployment package. The runtime runs the function's handler method when the function is invoked.
Your runtime runs in the FunctionGraph execution environment. It can be a shell script or a binary executable file that is compiled in Linux.
After programming, simply package your code into a ZIP file (Java, Node.js, Python, and Go) or JAR file (Java), and upload the file to FunctionGraph for execution. When creating a ZIP file, place the handler file under the root directory to ensure that your code can run normally after being decompressed.
If you edit code in Go, zip the compiled file, and ensure that the name of the dynamic library file is consistent with the plug-in name of the handler. For example, if the name of the dynamic library file is testplugin.so, set the handler name to testplugin.Handler.
Compiling Description
CGO_ENABLED=0 GOOS=linux GOARCH=amd64 go build main.go
Runtime File bootstrap
If there is a file named bootstrap in your function deployment package, FunctionGraph executes that file. If the bootstrap file is not found or not executable, your function will return an error when invoked.
The runtime code is responsible for completing initialization tasks. It processes invocation events in a loop until it is terminated.
The initialization tasks run once for each instance of the function to prepare the environment for handling invocations.
Runtime APIs
FunctionGraph provides HTTP runtime APIs to receive function invocation events and returns response data in the execution environment.
- Obtaining Invocation Event
Method – Get
Path – http://$RUNTIME_API_ADDR/v1/runtime/invocation/request
This API is used to retrieve an invocation event. The response body contains the event data. The following table describes additional data about the invocation contained in the response header.
Table 1 Response header information Parameter
Description
X-Cff-Request-Id
Request ID.
X-CFF-Access-Key
AK of the account. An agency must be configured for the function if this variable is used.
X-CFF-Auth-Token
Token of the account. An agency must be configured for the function if this variable is used.
X-CFF-Invoke-Type
Invocation type of the function.
X-CFF-Secret-Key
SK of the account. An agency must be configured for the function if this variable is used.
X-CFF-Security-Token
Security token of the account. An agency must be configured for the function if this variable is used.
- Invocation Response
Method – POST
Path – http://$RUNTIME_API_ADDR/v1/runtime/invocation/response/$REQUEST_ID
This API is used to send a successful invocation response to FunctionGraph. After the runtime invokes the function handler, it publishes the response from the function to the invocation response path.
- Invocation Error
Method – POST
Path – http://$RUNTIME_API_ADDR/v1/runtime/invocation/error/$REQUEST_ID
$REQUEST_ID is the value of variable X-Cff-Request-Id in the header of an event retrieval response. For more information, see Table 1.
$RUNTIME_API_ADDR is a system environment variable. For more information, see Table 2.
This API is used to send an error invocation response to FunctionGraph. After the runtime invokes the function handler, it publishes the response from the function to the invocation response path.
Runtime Environment Variables
You can use both custom and runtime environment variables in function code. The following table lists the runtime environment variables that are used in the FunctionGraph execution environment.
Key |
Description |
---|---|
RUNTIME_PROJECT_ID |
Project ID |
RUNTIME_FUNC_NAME |
Function name |
RUNTIME_FUNC_VERSION |
Function version |
RUNTIME_PACKAGE |
App to which the function belongs |
RUNTIME_HANDLER |
Function handler |
RUNTIME_TIMEOUT |
Function timeout duration |
RUNTIME_USERDATA |
Value passed through an environment variable |
RUNTIME_CPU |
Number of allocated CPU cores |
RUNTIME_MEMORY |
Allocated memory |
RUNTIME_CODE_ROOT |
Directory that stores the function code |
RUNTIME_API_ADDR |
Host IP address and port of a custom runtime API |
The value of a custom environment variable can be retrieved in the same way as the value of a FunctionGraph environment variable.
Example
This example contains one file called bootstrap. The file is implemented in Bash.
The runtime loads the function script from the deployment package by using two variables.
The bootstrap file is as follows:
#!/bin/sh set -o pipefail #Processing requests loop while true do HEADERS="$(mktemp)" # Get an event EVENT_DATA=$(curl -sS -LD "$HEADERS" -X GET "http://$RUNTIME_API_ADDR/v1/runtime/invocation/request") # Get request id from response header REQUEST_ID=$(grep -Fi x-cff-request-id "$HEADERS" | tr -d '[:space:]' | cut -d: -f2) if [ -z "$REQUEST_ID" ]; then continue fi # Process request data RESPONSE="Echoing request: hello world!" # Put response curl -X POST "http://$RUNTIME_API_ADDR/v1/runtime/invocation/response/$REQUEST_ID" -d "$RESPONSE" done
After loading the script, the runtime processes invocation events in a loop until it is terminated. It uses the API to retrieve invocation events from FunctionGraph, passes the events to the handler, and then sends responses back to FunctionGraph.
To obtain the request ID, the runtime saves the API response header in a temporary file, and then reads the request ID from the x-cff-request-id header field. The runtime processes the retrieved event data and sends a response back to FunctionGraph.
The following is an example of source code in Go. It can be executed only after compilation.
package main import ( "bytes" "encoding/json" "fmt" "io" "io/ioutil" "log" "net" "net/http" "os" "strings" "time" ) var ( getRequestUrl = os.ExpandEnv("http://${RUNTIME_API_ADDR}/v1/runtime/invocation/request") putResponseUrl = os.ExpandEnv("http://${RUNTIME_API_ADDR}/v1/runtime/invocation/response/{REQUEST_ID}") putErrorResponseUrl = os.ExpandEnv("http://${RUNTIME_API_ADDR}/v1/runtime/invocation/error/{REQUEST_ID}") requestIdInvalidError = fmt.Errorf("request id invalid") noRequestAvailableError = fmt.Errorf("no request available") putResponseFailedError = fmt.Errorf("put response failed") functionPackage = os.Getenv("RUNTIME_PACKAGE") functionName = os.Getenv("RUNTIME_FUNC_NAME") functionVersion = os.Getenv("RUNTIME_FUNC_VERSION") client = http.Client{ Transport: &http.Transport{ DialContext: (&net.Dialer{ Timeout: 3 * time.Second, }).DialContext, }, } ) func main() { // main loop for processing requests. for { requestId, header, payload, err := getRequest() if err != nil { time.Sleep(50 * time.Millisecond) continue } result, err := processRequestEvent(requestId, header, payload) err = putResponse(requestId, result, err) if err != nil { log.Printf("put response failed, err: %s.", err.Error()) } } } // event processing function func processRequestEvent(requestId string, header http.Header, evtBytes []byte) ([]byte, error) { log.Printf("processing request '%s'.", requestId) result := fmt.Sprintf("function: %s:%s:%s, request id: %s, headers: %+v, payload: %s", functionPackage, functionName, functionVersion, requestId, header, string(evtBytes)) var event FunctionEvent err := json.Unmarshal(evtBytes, &event) if err != nil { return (&ErrorMessage{ErrorType: "invalid event", ErrorMessage: "invalid json formated event"}).toJsonBytes(), err } return (&APIGFormatResult{StatusCode: 200, Body: result}).toJsonBytes(), nil } func getRequest() (string, http.Header, []byte, error) { resp, err := client.Get(getRequestUrl) if err != nil { log.Printf("get request error, err: %s.", err.Error()) return "", nil, nil, err } defer resp.Body.Close() // get request id from response header requestId := resp.Header.Get("X-CFF-Request-Id") if requestId == "" { log.Printf("request id not found.") return "", nil, nil, requestIdInvalidError } payload, err := ioutil.ReadAll(resp.Body) if err != nil { log.Printf("read request body error, err: %s.", err.Error()) return "", nil, nil, err } if resp.StatusCode != 200 { log.Printf("get request failed, status: %d, message: %s.", resp.StatusCode, string(payload)) return "", nil, nil, noRequestAvailableError } log.Printf("get request ok.") return requestId, resp.Header, payload, nil } func putResponse(requestId string, payload []byte, err error) error { var body io.Reader if payload != nil && len(payload) > 0 { body = bytes.NewBuffer(payload) } url := "" if err == nil { url = strings.Replace(putResponseUrl, "{REQUEST_ID}", requestId, -1) } else { url = strings.Replace(putErrorResponseUrl, "{REQUEST_ID}", requestId, -1) } resp, err := client.Post(strings.Replace(url, "{REQUEST_ID}", requestId, -1), "", body) if err != nil { log.Printf("put response error, err: %s.", err.Error()) return err } defer resp.Body.Close() responsePayload, err := ioutil.ReadAll(resp.Body) if err != nil { log.Printf("read request body error, err: %s.", err.Error()) return err } if resp.StatusCode != 200 { log.Printf("put response failed, status: %d, message: %s.", resp.StatusCode, string(responsePayload)) return putResponseFailedError } return nil } type FunctionEvent struct { Type string `json:"type"` Name string `json:"name"` } type APIGFormatResult struct { StatusCode int `json:"statusCode"` IsBase64Encoded bool `json:"isBase64Encoded"` Headers map[string]string `json:"headers,omitempty"` Body string `json:"body,omitempty"` } func (result *APIGFormatResult) toJsonBytes() []byte { data, err := json.MarshalIndent(result, "", " ") if err != nil { return nil } return data } type ErrorMessage struct { ErrorType string `json:"errorType"` ErrorMessage string `json:"errorMessage"` } func (errMsg *ErrorMessage) toJsonBytes() []byte { data, err := json.MarshalIndent(errMsg, "", " ") if err != nil { return nil } return data }
Table 3 describes the environment variables used in the preceding code.
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