protected override void ValidateRead(List <ValidationError> errors) { if (this.EventMessage == EventLogText.Empty) { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.ArgumentNotSet, base.Name)); return; } int index; if (!Utils.CheckIsUnicodeStringWellFormed(this.eventMessage.Value, out index)) { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.CommentsHaveInvalidChars((int)this.eventMessage.Value[index]), base.Name)); return; } base.ValidateRead(errors); }
internal static void ValidateReadContainsWordsPredicate(Word[] words, string name, List <ValidationError> errors) { if (words == null || words.Length == 0) { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.ArgumentNotSet, name)); return; } foreach (Word word in words) { string value = word.Value; int index; if (!string.IsNullOrEmpty(value) && !Utils.CheckIsUnicodeStringWellFormed(value, out index)) { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.CommentsHaveInvalidChars((int)value[index]), name)); break; } } }
protected override void ValidateRead(List <ValidationError> errors) { if (this.Words == null || this.Words.Length == 0) { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.ArgumentNotSet, base.Name)); return; } foreach (Word word in this.Words) { string value = word.Value; int index; if (!string.IsNullOrEmpty(value) && !Utils.CheckIsUnicodeStringWellFormed(value, out index)) { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.CommentsHaveInvalidChars((int)value[index]), base.Name)); return; } } base.ValidateRead(errors); }
protected override void ValidateRead(List <ValidationError> errors) { if (this.Words == null || this.Words.Length == 0) { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.ArgumentNotSet, base.Name)); return; } Word[] words = this.Words; int i = 0; while (i < words.Length) { Word word = words[i]; string value = word.Value; int index; if (!string.IsNullOrEmpty(value) && !Utils.CheckIsUnicodeStringWellFormed(value, out index)) { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.CommentsHaveInvalidChars((int)value[index]), base.Name)); } else { int num = value.IndexOf(':'); if (num >= 0) { string text = value.Substring(0, num).Trim().ToLowerInvariant(); if (TransportUtils.GetDisclaimerMacroLookupTable().ContainsKey(text)) { i++; continue; } errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.InvalidMacroName(text), base.Name)); } else { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.MacroNameNotSpecified(value), base.Name)); } } return; } base.ValidateRead(errors); }
internal static void ValidateReadMatchesPatternsPredicate(Pattern[] patterns, bool useLegacyRegex, string name, List <ValidationError> errors) { if (patterns == null || patterns.Length == 0) { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.ArgumentNotSet, name)); return; } foreach (Pattern pattern in patterns) { string value = pattern.Value; if (!string.IsNullOrEmpty(value)) { int index; if (!Utils.CheckIsUnicodeStringWellFormed(value, out index)) { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.CommentsHaveInvalidChars((int)value[index]), name)); } else { try { Pattern.ValidatePattern(value, useLegacyRegex, false); } catch (ValidationArgumentException ex) { LocalizedString description = ValidationError.CombineErrorDescriptions(new List <ValidationError> { new RulePhrase.RulePhraseValidationError(RulesTasksStrings.InvalidRegex(value), name), new RulePhrase.RulePhraseValidationError(ex.LocalizedString, name) }); errors.Add(new RulePhrase.RulePhraseValidationError(description, name)); } catch (ArgumentException) { errors.Add(new RulePhrase.RulePhraseValidationError(RulesTasksStrings.InvalidRegex(value), name)); } } } } }