use anyhow::Result;
use smartstring::alias::String;
use std::path::Path;
use std::sync::Arc;
use tauri_plugin_shell::ShellExt;
use tokio::sync::Mutex;

use crate::config::{Config, ConfigType};
use crate::core::handle;
use crate::singleton_lazy;
use crate::utils::dirs;
use crate::{logging, utils::logging::Type};

// pub enum ValidationResult {
//     Valid,
//     Invalid(String),
// }

#[derive(PartialEq, Eq, Clone, Copy, Debug)]
pub enum ValidationProcessStatus {
    Ongoing,
    Completed,
}

pub struct CoreConfigValidator {
    // inner: Vec<String>,
    // result: ValidationResult,
    process_status: Arc<Mutex<ValidationProcessStatus>>,
}

impl CoreConfigValidator {
    pub fn new() -> Self {
        CoreConfigValidator {
            process_status: Arc::new(Mutex::new(ValidationProcessStatus::Completed)),
        }
    }

    /// 检查文件是否为脚本文件
    fn is_script_file<P>(path: P) -> Result<bool>
    where
        P: AsRef<Path> + std::fmt::Display,
    {
        // 1. 先通过扩展名快速判断
        if has_ext(&path, "yaml") || has_ext(&path, "yml") {
            return Ok(false); // YAML文件不是脚本文件
        } else if has_ext(&path, "js") {
            return Ok(true); // JS文件是脚本文件
        }

        // 2. 读取文件内容
        let content = match std::fs::read_to_string(&path) {
            Ok(content) => content,
            Err(err) => {
                logging!(
                    warn,
                    Type::Validate,
                    "无法读取文件以检测类型: {}, 错误: {}",
                    path,
                    err
                );
                return Err(anyhow::anyhow!(
                    "Failed to read file to detect type: {}",
                    err
                ));
            }
        };

        // 3. 检查是否存在明显的YAML特征
        let has_yaml_features = content.contains(": ")
            || content.contains("#")
            || content.contains("---")
            || content.lines().any(|line| line.trim().starts_with("- "));

        // 4. 检查是否存在明显的JS特征
        let has_js_features = content.contains("function ")
            || content.contains("const ")
            || content.contains("let ")
            || content.contains("var ")
            || content.contains("//")
            || content.contains("/*")
            || content.contains("*/")
            || content.contains("export ")
            || content.contains("import ");

        // 5. 决策逻辑
        if has_yaml_features && !has_js_features {
            // 只有YAML特征，没有JS特征
            return Ok(false);
        } else if has_js_features && !has_yaml_features {
            // 只有JS特征，没有YAML特征
            return Ok(true);
        } else if has_yaml_features && has_js_features {
            // 两种特征都有，需要更精细判断
            // 优先检查是否有明确的JS结构特征
            if content.contains("function main")
                || content.contains("module.exports")
                || content.contains("export default")
            {
                return Ok(true);
            }

            // 检查冒号后是否有空格（YAML的典型特征）
            let yaml_pattern_count = content.lines().filter(|line| line.contains(": ")).count();

            if yaml_pattern_count > 2 {
                return Ok(false); // 多个键值对格式，更可能是YAML
            }
        }

        // 默认情况：无法确定时，假设为非脚本文件（更安全）
        logging!(
            debug,
            Type::Validate,
            "无法确定文件类型，默认当作YAML处理: {}",
            path
        );
        Ok(false)
    }

    /// 只进行文件语法检查，不进行完整验证
    fn validate_file_syntax(config_path: &str) -> Result<(bool, String)> {
        logging!(info, Type::Validate, "开始检查文件: {}", config_path);

        // 读取文件内容
        let content = match std::fs::read_to_string(config_path) {
            Ok(content) => content,
            Err(err) => {
                let error_msg = format!("Failed to read file: {err}").into();
                logging!(error, Type::Validate, "无法读取文件: {}", error_msg);
                return Ok((false, error_msg));
            }
        };
        // 对YAML文件尝试解析，只检查语法正确性
        logging!(info, Type::Validate, "进行YAML语法检查");
        match serde_yaml_ng::from_str::<serde_yaml_ng::Value>(&content) {
            Ok(_) => {
                logging!(info, Type::Validate, "YAML语法检查通过");
                Ok((true, String::new()))
            }
            Err(err) => {
                // 使用标准化的前缀，以便错误处理函数能正确识别
                let error_msg = format!("YAML syntax error: {err}").into();
                logging!(error, Type::Validate, "YAML语法错误: {}", error_msg);
                Ok((false, error_msg))
            }
        }
    }

    /// 验证脚本文件语法
    fn validate_script_file(path: &str) -> Result<(bool, String)> {
        // 读取脚本内容
        let content = match std::fs::read_to_string(path) {
            Ok(content) => content,
            Err(err) => {
                let error_msg = format!("Failed to read script file: {err}").into();
                logging!(warn, Type::Validate, "脚本语法错误: {}", err);
                //handle::Handle::notice_message("config_validate::script_syntax_error", &error_msg);
                return Ok((false, error_msg));
            }
        };

        logging!(debug, Type::Validate, "验证脚本文件: {}", path);

        // 使用boa引擎进行基本语法检查
        use boa_engine::{Context, Source};

        let mut context = Context::default();
        let result = context.eval(Source::from_bytes(&content));

        match result {
            Ok(_) => {
                logging!(debug, Type::Validate, "脚本语法验证通过: {}", path);

                // 检查脚本是否包含main函数
                if !content.contains("function main")
                    && !content.contains("const main")
                    && !content.contains("let main")
                {
                    let error_msg = "Script must contain a main function";
                    logging!(warn, Type::Validate, "脚本缺少main函数: {}", path);
                    //handle::Handle::notice_message("config_validate::script_missing_main", error_msg);
                    return Ok((false, error_msg.into()));
                }

                Ok((true, String::new()))
            }
            Err(err) => {
                let error_msg = format!("Script syntax error: {err}").into();
                logging!(warn, Type::Validate, "脚本语法错误: {}", err);
                //handle::Handle::notice_message("config_validate::script_syntax_error", &error_msg);
                Ok((false, error_msg))
            }
        }
    }

    /// 验证指定的配置文件
    pub async fn validate_config_file(
        config_path: &str,
        is_merge_file: Option<bool>,
    ) -> Result<(bool, String)> {
        // 检查程序是否正在退出，如果是则跳过验证
        if handle::Handle::global().is_exiting() {
            logging!(info, Type::Core, "应用正在退出，跳过验证");
            return Ok((true, String::new()));
        }

        // 检查文件是否存在
        if !std::path::Path::new(config_path).exists() {
            let error_msg = format!("File not found: {config_path}").into();
            //handle::Handle::notice_message("config_validate::file_not_found", &error_msg);
            return Ok((false, error_msg));
        }

        // 如果是合并文件且不是强制验证，执行语法检查但不进行完整验证
        if is_merge_file.unwrap_or(false) {
            logging!(
                info,
                Type::Validate,
                "检测到Merge文件，仅进行语法检查: {}",
                config_path
            );
            return Self::validate_file_syntax(config_path);
        }

        // 检查是否为脚本文件
        let is_script = if config_path.ends_with(".js") {
            true
        } else {
            match Self::is_script_file(config_path) {
                Ok(result) => result,
                Err(err) => {
                    // 如果无法确定文件类型，尝试使用Clash内核验证
                    logging!(
                        warn,
                        Type::Validate,
                        "无法确定文件类型: {}, 错误: {}",
                        config_path,
                        err
                    );
                    return Self::validate_config_internal(config_path).await;
                }
            }
        };

        if is_script {
            logging!(
                info,
                Type::Validate,
                "检测到脚本文件，使用JavaScript验证: {}",
                config_path
            );
            return Self::validate_script_file(config_path);
        }

        // 对YAML配置文件使用Clash内核验证
        logging!(
            info,
            Type::Validate,
            "使用Clash内核验证配置文件: {}",
            config_path
        );
        Self::validate_config_internal(config_path).await
    }

    /// 内部验证配置文件的实现
    async fn validate_config_internal(config_path: &str) -> Result<(bool, String)> {
        // 检查程序是否正在退出，如果是则跳过验证
        if handle::Handle::global().is_exiting() {
            logging!(info, Type::Validate, "应用正在退出，跳过验证");
            return Ok((true, String::new()));
        }

        logging!(info, Type::Validate, "开始验证配置文件: {}", config_path);

        let clash_core = Config::verge().await.latest_ref().get_valid_clash_core();
        logging!(info, Type::Validate, "使用内核: {}", clash_core);

        let app_handle = handle::Handle::app_handle();
        let app_dir = dirs::app_home_dir()?;
        let app_dir_str = dirs::path_to_str(&app_dir)?;
        logging!(info, Type::Validate, "验证目录: {}", app_dir_str);

        // 使用子进程运行clash验证配置
        let output = app_handle
            .shell()
            .sidecar(clash_core.as_str())?
            .args(["-t", "-d", app_dir_str, "-f", config_path])
            .output()
            .await?;

        let stderr = std::string::String::from_utf8_lossy(&output.stderr);
        let stdout = std::string::String::from_utf8_lossy(&output.stdout);

        // 检查进程退出状态和错误输出
        let error_keywords = ["FATA", "fatal", "Parse config error", "level=fatal"];
        let has_error =
            !output.status.success() || error_keywords.iter().any(|&kw| stderr.contains(kw));

        logging!(info, Type::Validate, "-------- 验证结果 --------");

        if !stderr.is_empty() {
            logging!(info, Type::Validate, "stderr输出:\n{}", stderr);
        }

        if has_error {
            logging!(info, Type::Validate, "发现错误，开始处理错误信息");
            let error_msg = if !stdout.is_empty() {
                stdout.into()
            } else if !stderr.is_empty() {
                stderr.into()
            } else if let Some(code) = output.status.code() {
                format!("验证进程异常退出，退出码: {code}")
            } else {
                "验证进程被终止".into()
            };

            logging!(info, Type::Validate, "-------- 验证结束 --------");
            Ok((false, error_msg.into())) // 返回错误消息给调用者处理
        } else {
            logging!(info, Type::Validate, "验证成功");
            logging!(info, Type::Validate, "-------- 验证结束 --------");
            Ok((true, String::new()))
        }
    }

    /// 验证运行时配置
    pub async fn validate_config(&self) -> Result<(bool, String)> {
        if *self.process_status.lock().await == ValidationProcessStatus::Ongoing {
            logging!(info, Type::Validate, "验证已在进行中，跳过新的验证请求");
            return Ok((true, String::new()));
        }
        *self.process_status.lock().await = ValidationProcessStatus::Ongoing;
        logging!(info, Type::Validate, "生成临时配置文件用于验证");

        let result = async {
            let config_path = Config::generate_file(ConfigType::Check).await?;
            let config_path = dirs::path_to_str(&config_path)?;
            Self::validate_config_internal(config_path).await
        }
        .await;

        *self.process_status.lock().await = ValidationProcessStatus::Completed;
        result
    }
}

fn has_ext<P: AsRef<std::path::Path>>(path: P, ext: &str) -> bool {
    path.as_ref()
        .extension()
        .and_then(|s| s.to_str())
        .map(|s| s.eq_ignore_ascii_case(ext))
        .unwrap_or(false)
}

singleton_lazy!(
    CoreConfigValidator,
    CORECONFIGVALIDATOR,
    CoreConfigValidator::new
);