mirror of
https://github.com/woodpecker-ci/woodpecker.git
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c28f7cb29f
Initial part of #435
282 lines
7.9 KiB
Go
282 lines
7.9 KiB
Go
package rule
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import (
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"fmt"
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"go/ast"
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"go/token"
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"regexp"
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"strconv"
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"github.com/mgechev/revive/lint"
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)
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// #region Revive API
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// StringFormatRule lints strings and/or comments according to a set of regular expressions given as Arguments
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type StringFormatRule struct{}
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// Apply applies the rule to the given file.
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func (r *StringFormatRule) Apply(file *lint.File, arguments lint.Arguments) []lint.Failure {
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var failures []lint.Failure
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onFailure := func(failure lint.Failure) {
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failures = append(failures, failure)
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}
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w := lintStringFormatRule{onFailure: onFailure}
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w.parseArguments(arguments)
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ast.Walk(w, file.AST)
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return failures
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}
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// Name returns the rule name.
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func (r *StringFormatRule) Name() string {
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return "string-format"
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}
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// ParseArgumentsTest is a public wrapper around w.parseArguments used for testing. Returns the error message provided to panic, or nil if no error was encountered
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func (r *StringFormatRule) ParseArgumentsTest(arguments lint.Arguments) *string {
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w := lintStringFormatRule{}
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c := make(chan interface{})
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// Parse the arguments in a goroutine, defer a recover() call, return the error encountered (or nil if there was no error)
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go func() {
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defer func() {
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err := recover()
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c <- err
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}()
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w.parseArguments(arguments)
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}()
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err := <-c
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if err != nil {
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e := fmt.Sprintf("%s", err)
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return &e
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}
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return nil
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}
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// #endregion
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// #region Internal structure
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type lintStringFormatRule struct {
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onFailure func(lint.Failure)
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rules []stringFormatSubrule
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stringDeclarations map[string]string
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}
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type stringFormatSubrule struct {
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parent *lintStringFormatRule
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scope stringFormatSubruleScope
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regexp *regexp.Regexp
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errorMessage string
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}
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type stringFormatSubruleScope struct {
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funcName string // Function name the rule is scoped to
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argument int // (optional) Which argument in calls to the function is checked against the rule (the first argument is checked by default)
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field string // (optional) If the argument to be checked is a struct, which member of the struct is checked against the rule (top level members only)
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}
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// Regex inserted to match valid function/struct field identifiers
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const identRegex = "[_A-Za-z][_A-Za-z0-9]*"
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var parseStringFormatScope = regexp.MustCompile(
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fmt.Sprintf("^(%s(?:\\.%s)?)(?:\\[([0-9]+)\\](?:\\.(%s))?)?$", identRegex, identRegex, identRegex))
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// #endregion
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// #region Argument parsing
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func (w *lintStringFormatRule) parseArguments(arguments lint.Arguments) {
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for i, argument := range arguments {
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scope, regex, errorMessage := w.parseArgument(argument, i)
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w.rules = append(w.rules, stringFormatSubrule{
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parent: w,
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scope: scope,
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regexp: regex,
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errorMessage: errorMessage,
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})
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}
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}
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func (w lintStringFormatRule) parseArgument(argument interface{}, ruleNum int) (scope stringFormatSubruleScope, regex *regexp.Regexp, errorMessage string) {
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g, ok := argument.([]interface{}) // Cast to generic slice first
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if !ok {
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w.configError("argument is not a slice", ruleNum, 0)
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}
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if len(g) < 2 {
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w.configError("less than two slices found in argument, scope and regex are required", ruleNum, len(g)-1)
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}
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rule := make([]string, len(g))
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for i, obj := range g {
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val, ok := obj.(string)
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if !ok {
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w.configError("unexpected value, string was expected", ruleNum, i)
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}
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rule[i] = val
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}
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// Validate scope and regex length
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if len(rule[0]) == 0 {
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w.configError("empty scope provided", ruleNum, 0)
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} else if len(rule[1]) < 2 {
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w.configError("regex is too small (regexes should begin and end with '/')", ruleNum, 1)
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}
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// Parse rule scope
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scope = stringFormatSubruleScope{}
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matches := parseStringFormatScope.FindStringSubmatch(rule[0])
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if matches == nil {
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// The rule's scope didn't match the parsing regex at all, probably a configuration error
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w.parseError("unable to parse rule scope", ruleNum, 0)
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} else if len(matches) != 4 {
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// The rule's scope matched the parsing regex, but an unexpected number of submatches was returned, probably a bug
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w.parseError(fmt.Sprintf("unexpected number of submatches when parsing scope: %d, expected 4", len(matches)), ruleNum, 0)
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}
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scope.funcName = matches[1]
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if len(matches[2]) > 0 {
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var err error
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scope.argument, err = strconv.Atoi(matches[2])
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if err != nil {
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w.parseError("unable to parse argument number in rule scope", ruleNum, 0)
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}
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}
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if len(matches[3]) > 0 {
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scope.field = matches[3]
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}
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// Strip / characters from the beginning and end of rule[1] before compiling
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regex, err := regexp.Compile(rule[1][1 : len(rule[1])-1])
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if err != nil {
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w.parseError(fmt.Sprintf("unable to compile %s as regexp", rule[1]), ruleNum, 1)
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}
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// Use custom error message if provided
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if len(rule) == 3 {
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errorMessage = rule[2]
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}
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return scope, regex, errorMessage
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}
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// Report an invalid config, this is specifically the user's fault
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func (w lintStringFormatRule) configError(msg string, ruleNum, option int) {
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panic(fmt.Sprintf("invalid configuration for string-format: %s [argument %d, option %d]", msg, ruleNum, option))
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}
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// Report a general config parsing failure, this may be the user's fault, but it isn't known for certain
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func (w lintStringFormatRule) parseError(msg string, ruleNum, option int) {
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panic(fmt.Sprintf("failed to parse configuration for string-format: %s [argument %d, option %d]", msg, ruleNum, option))
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}
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// #endregion
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// #region Node traversal
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func (w lintStringFormatRule) Visit(node ast.Node) ast.Visitor {
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// First, check if node is a call expression
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call, ok := node.(*ast.CallExpr)
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if !ok {
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return w
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}
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// Get the name of the call expression to check against rule scope
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callName, ok := w.getCallName(call)
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if !ok {
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return w
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}
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for _, rule := range w.rules {
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if rule.scope.funcName == callName {
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rule.Apply(call)
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}
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}
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return w
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}
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// Return the name of a call expression in the form of package.Func or Func
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func (w lintStringFormatRule) getCallName(call *ast.CallExpr) (callName string, ok bool) {
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if ident, ok := call.Fun.(*ast.Ident); ok {
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// Local function call
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return ident.Name, true
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}
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if selector, ok := call.Fun.(*ast.SelectorExpr); ok {
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// Scoped function call
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scope, ok := selector.X.(*ast.Ident)
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if !ok {
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return "", false
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}
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return scope.Name + "." + selector.Sel.Name, true
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}
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return "", false
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}
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// #endregion
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// #region Linting logic
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// Apply a single format rule to a call expression (should be done after verifying the that the call expression matches the rule's scope)
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func (rule stringFormatSubrule) Apply(call *ast.CallExpr) {
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if len(call.Args) <= rule.scope.argument {
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return
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}
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arg := call.Args[rule.scope.argument]
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var lit *ast.BasicLit
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if len(rule.scope.field) > 0 {
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// Try finding the scope's Field, treating arg as a composite literal
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composite, ok := arg.(*ast.CompositeLit)
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if !ok {
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return
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}
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for _, el := range composite.Elts {
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kv, ok := el.(*ast.KeyValueExpr)
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if !ok {
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continue
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}
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key, ok := kv.Key.(*ast.Ident)
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if !ok || key.Name != rule.scope.field {
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continue
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}
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// We're now dealing with the exact field in the rule's scope, so if anything fails, we can safely return instead of continuing the loop
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lit, ok = kv.Value.(*ast.BasicLit)
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if !ok || lit.Kind != token.STRING {
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return
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}
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}
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} else {
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var ok bool
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// Treat arg as a string literal
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lit, ok = arg.(*ast.BasicLit)
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if !ok || lit.Kind != token.STRING {
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return
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}
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}
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// Unquote the string literal before linting
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unquoted := lit.Value[1 : len(lit.Value)-1]
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rule.lintMessage(unquoted, lit)
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}
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func (rule stringFormatSubrule) lintMessage(s string, node ast.Node) {
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// Fail if the string doesn't match the user's regex
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if rule.regexp.MatchString(s) {
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return
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}
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var failure string
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if len(rule.errorMessage) > 0 {
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failure = rule.errorMessage
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} else {
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failure = fmt.Sprintf("string literal doesn't match user defined regex /%s/", rule.regexp.String())
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}
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rule.parent.onFailure(lint.Failure{
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Confidence: 1,
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Failure: failure,
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Node: node})
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}
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// #endregion
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