package core import ( "fmt" "github.com/TwinProduction/gatus/jsonpath" "github.com/TwinProduction/gatus/pattern" "log" "strconv" "strings" ) const ( // StatusPlaceholder is a placeholder for a HTTP status. // // Values that could replace the placeholder: 200, 404, 500, ... StatusPlaceholder = "[STATUS]" // IPPlaceHolder is a placeholder for an IP. // // Values that could replace the placeholder: 127.0.0.1, 10.0.0.1, ... IPPlaceHolder = "[IP]" // ResponseTimePlaceHolder is a placeholder for the request response time, in milliseconds. // // Values that could replace the placeholder: 1, 500, 1000, ... ResponseTimePlaceHolder = "[RESPONSE_TIME]" // BodyPlaceHolder is a placeholder for the body of the response // // Values that could replace the placeholder: {}, {"data":{"name":"john"}}, ... BodyPlaceHolder = "[BODY]" // ConnectedPlaceHolder is a placeholder for whether a connection was successfully established. // // Values that could replace the placeholder: true, false ConnectedPlaceHolder = "[CONNECTED]" // LengthFunctionPrefix is the prefix for the length function LengthFunctionPrefix = "len(" // PatternFunctionPrefix is the prefix for the pattern function PatternFunctionPrefix = "pat(" // FunctionSuffix is the suffix for all functions FunctionSuffix = ")" // InvalidConditionElementSuffix is the suffix that will be appended to an invalid condition InvalidConditionElementSuffix = "(INVALID)" ) // Condition is a condition that needs to be met in order for a Service to be considered healthy. type Condition string // evaluate the Condition with the Result of the health check func (c *Condition) evaluate(result *Result) bool { condition := string(*c) success := false var resolvedCondition string if strings.Contains(condition, "==") { parts := sanitizeAndResolve(strings.Split(condition, "=="), result) success = isEqual(parts[0], parts[1]) resolvedCondition = fmt.Sprintf("%v == %v", parts[0], parts[1]) } else if strings.Contains(condition, "!=") { parts := sanitizeAndResolve(strings.Split(condition, "!="), result) success = !isEqual(parts[0], parts[1]) resolvedCondition = fmt.Sprintf("%v != %v", parts[0], parts[1]) } else if strings.Contains(condition, "<=") { parts := sanitizeAndResolveNumerical(strings.Split(condition, "<="), result) success = parts[0] <= parts[1] resolvedCondition = fmt.Sprintf("%v <= %v", parts[0], parts[1]) } else if strings.Contains(condition, ">=") { parts := sanitizeAndResolveNumerical(strings.Split(condition, ">="), result) success = parts[0] >= parts[1] resolvedCondition = fmt.Sprintf("%v >= %v", parts[0], parts[1]) } else if strings.Contains(condition, ">") { parts := sanitizeAndResolveNumerical(strings.Split(condition, ">"), result) success = parts[0] > parts[1] resolvedCondition = fmt.Sprintf("%v > %v", parts[0], parts[1]) } else if strings.Contains(condition, "<") { parts := sanitizeAndResolveNumerical(strings.Split(condition, "<"), result) success = parts[0] < parts[1] resolvedCondition = fmt.Sprintf("%v < %v", parts[0], parts[1]) } else { result.Errors = append(result.Errors, fmt.Sprintf("invalid condition '%s' has been provided", condition)) return false } conditionToDisplay := condition // If the condition isn't a success, return what the resolved condition was too if !success { log.Printf("[Condition][evaluate] Condition '%s' did not succeed because '%s' is false", condition, resolvedCondition) // Check if the resolved condition was an invalid path isResolvedConditionInvalidPath := strings.ReplaceAll(resolvedCondition, fmt.Sprintf("%s ", InvalidConditionElementSuffix), "") == condition if isResolvedConditionInvalidPath { // Since, in the event of an invalid path, the resolvedCondition contains the condition itself, // we'll only display the resolvedCondition conditionToDisplay = resolvedCondition } else { conditionToDisplay = fmt.Sprintf("%s (%s)", condition, resolvedCondition) } } result.ConditionResults = append(result.ConditionResults, &ConditionResult{Condition: conditionToDisplay, Success: success}) return success } // isEqual compares two strings. // // It also supports the pattern function. That is to say, if one of the strings starts with PatternFunctionPrefix // and ends with FunctionSuffix, it will be treated like a pattern. func isEqual(first, second string) bool { var isFirstPattern, isSecondPattern bool if strings.HasPrefix(first, PatternFunctionPrefix) && strings.HasSuffix(first, FunctionSuffix) { isFirstPattern = true first = strings.TrimSuffix(strings.TrimPrefix(first, PatternFunctionPrefix), FunctionSuffix) } if strings.HasPrefix(second, PatternFunctionPrefix) && strings.HasSuffix(second, FunctionSuffix) { isSecondPattern = true second = strings.TrimSuffix(strings.TrimPrefix(second, PatternFunctionPrefix), FunctionSuffix) } if isFirstPattern && !isSecondPattern { return pattern.Match(first, second) } else if !isFirstPattern && isSecondPattern { return pattern.Match(second, first) } else { return first == second } } // sanitizeAndResolve sanitizes and resolves a list of element and returns the list of resolved elements func sanitizeAndResolve(list []string, result *Result) []string { var sanitizedList []string body := strings.TrimSpace(string(result.Body)) for _, element := range list { element = strings.TrimSpace(element) switch strings.ToUpper(element) { case StatusPlaceholder: element = strconv.Itoa(result.HTTPStatus) case IPPlaceHolder: element = result.IP case ResponseTimePlaceHolder: element = strconv.Itoa(int(result.Duration.Milliseconds())) case BodyPlaceHolder: element = body case ConnectedPlaceHolder: element = strconv.FormatBool(result.Connected) default: // if contains the BodyPlaceHolder, then evaluate json path if strings.Contains(element, BodyPlaceHolder) { wantLength := false if strings.HasPrefix(element, LengthFunctionPrefix) && strings.HasSuffix(element, FunctionSuffix) { wantLength = true element = strings.TrimSuffix(strings.TrimPrefix(element, LengthFunctionPrefix), FunctionSuffix) } resolvedElement, resolvedElementLength, err := jsonpath.Eval(strings.Replace(element, fmt.Sprintf("%s.", BodyPlaceHolder), "", 1), result.Body) if err != nil { if err.Error() != "unexpected end of JSON input" { result.Errors = append(result.Errors, err.Error()) } if wantLength { element = fmt.Sprintf("len(%s) %s", element, InvalidConditionElementSuffix) } else { element = fmt.Sprintf("%s %s", element, InvalidConditionElementSuffix) } } else { if wantLength { element = fmt.Sprintf("%d", resolvedElementLength) } else { element = resolvedElement } } } } sanitizedList = append(sanitizedList, element) } return sanitizedList } func sanitizeAndResolveNumerical(list []string, result *Result) []int { var sanitizedNumbers []int sanitizedList := sanitizeAndResolve(list, result) for _, element := range sanitizedList { if number, err := strconv.Atoi(element); err != nil { // Default to 0 if the string couldn't be converted to an integer sanitizedNumbers = append(sanitizedNumbers, 0) } else { sanitizedNumbers = append(sanitizedNumbers, number) } } return sanitizedNumbers }