feat: Add Redis client module and tests

- Add a new Redis client module to the SAL library. - Implement Rhai wrappers for Redis connection and operations. - Add comprehensive test suite for the Redis client module. - Update documentation to include Redis client module details. - Add .gitignore entries to exclude test logs and files.
2025-05-08 16:32:15 +03:00 · 2025-05-08 16:32:15 +03:00 · 1286939608
commit 1286939608
parent 32217b6545
9 changed files with 728 additions and 132 deletions
--- a/.gitignore
+++ b/.gitignore
@ -20,4 +20,5 @@ Cargo.lock
 /target
 /rhai_test_download
-/rhai_test_fs
+/rhai_test_fs
 run_rhai_tests.log
--- a/docs/rhai/index.md
+++ b/docs/rhai/index.md
@ -33,6 +33,7 @@ SAL includes test scripts for verifying the functionality of its Rhai integratio
 - [OS Module Tests](os_module_tests.md): Tests for file system, download, and package management operations
 - [Git Module Tests](git_module_tests.md): Tests for Git repository management and operations
 - [Process Module Tests](process_module_tests.md): Tests for command execution and process management
 - [Redis Client Module Tests](redisclient_module_tests.md): Tests for Redis connection and operations
 - [Running Tests](running_tests.md): Instructions for running all Rhai tests
 - [CI Workflow](ci_workflow.md): Continuous integration workflow for Rhai tests
--- a/docs/rhai/redisclient_module_tests.md
+++ b/docs/rhai/redisclient_module_tests.md
@ -0,0 +1,97 @@
 # Redis Client Module Tests
 This document describes the test scripts for the Redis client module in the SAL library. These tests verify the functionality of the Redis client module's connection management and Redis operations.
 ## Test Structure
 The tests are organized into two main scripts:
 1. **Redis Connection** (`01_redis_connection.rhai`): Tests basic Redis connection and simple operations like PING, SET, GET, and DEL.
 2. **Redis Operations** (`02_redis_operations.rhai`): Tests more advanced Redis operations like hash operations (HSET, HGET, HGETALL, HDEL) and list operations (RPUSH, LLEN, LRANGE).
 Additionally, there's a runner script (`run_all_tests.rhai`) that executes all tests and reports results. The runner script contains simplified versions of the individual tests to avoid dependency issues.
 ## Running the Tests
 To run all tests, execute the following command from the project root:
 ```bash
 herodo --path src/rhai_tests/redisclient/run_all_tests.rhai
 ```
 To run individual test scripts:
 ```bash
 herodo --path src/rhai_tests/redisclient/01_redis_connection.rhai
 ```
 ## Test Details
 ### Redis Connection Test
 The Redis connection test (`01_redis_connection.rhai`) verifies the following functions:
 - `redis_ping`: Checking if the Redis server is available
 - `redis_set`: Setting a key-value pair
 - `redis_get`: Getting a value by key
 - `redis_del`: Deleting a key
 The test creates a temporary key, performs operations on it, and then cleans up after itself.
 ### Redis Operations Test
 The Redis operations test (`02_redis_operations.rhai`) verifies the following functions:
 - Hash operations:
  - `redis_hset`: Setting a field in a hash
  - `redis_hget`: Getting a field from a hash
  - `redis_hgetall`: Getting all fields and values from a hash
  - `redis_hdel`: Deleting a field from a hash
 - List operations:
  - `redis_rpush`: Adding elements to a list
  - `redis_llen`: Getting the length of a list
  - `redis_lrange`: Getting a range of elements from a list
 The test creates temporary keys with a unique prefix, performs operations on them, and then cleans up after itself.
 ## Test Runner
 The test runner script (`run_all_tests.rhai`) provides a framework for executing all tests and reporting results. It:
 1. Checks if Redis is available before running tests
 2. Skips tests if Redis is not available
 3. Contains simplified versions of each test
 4. Runs each test in a try/catch block to handle errors
 5. Catches and reports any errors
 6. Provides a summary of passed, failed, and skipped tests
 ## Redis Server Requirements
 These tests require a Redis server to be running and accessible. The tests will attempt to connect to Redis using the following strategy:
 1. First, try to connect via Unix socket at `$HOME/hero/var/myredis.sock`
 2. If that fails, try to connect via TCP to `127.0.0.1` on the default Redis port (6379)
 If no Redis server is available, the tests will be skipped rather than failing.
 ## Adding New Tests
 To add a new test:
 1. Create a new Rhai script in the `src/rhai_tests/redisclient` directory
 2. Add a new test section to the `run_all_tests.rhai` script
 3. Update this documentation to include information about the new test
 ## Best Practices for Writing Tests
 When writing tests for the Redis client module:
 1. Always check if Redis is available before running tests
 2. Use a unique prefix for test keys to avoid conflicts
 3. Clean up any keys created during testing
 4. Use assertions to verify expected behavior
 5. Print clear messages about what's being tested
 6. Handle errors gracefully
 7. Make tests independent of each other
 8. Keep tests focused on specific functionality
--- a/run_rhai_tests.log
+++ b/run_rhai_tests.log
@ -1,131 +0,0 @@
 [0;34m=======================================[0m
 [0;34m      Running All Rhai Tests          [0m
 [0;34m=======================================[0m
 [0;33mRunning tests for module: git[0m
 [0;33m-------------------------------------[0m
 Found 1 Rhai script to execute:
 Executing: src/rhai_tests/git/run_all_tests.rhai
 === Running Git Module Tests ===
 --- Running Basic Git Operations Tests ---
 Created test directory: rhai_test_git
 Testing GitTree constructor...
 ✓ GitTree created successfully
 Testing GitTree.list() with empty directory...
 ✓ GitTree.list(): Found 0 repositories (expected 0)
 Testing GitTree.find() with empty directory...
 ✓ GitTree.find(): Found 0 repositories (expected 0)
 Cleaning up...
 ✓ Cleanup: Directory rhai_test_git removed
 --- Basic Git Operations Tests completed successfully ---
 --- Running Git Repository Operations Tests ---
 Created test directory: rhai_test_git_ops
 Creating GitTree...
 ✓ GitTree created successfully
 Cleaning up...
 ✓ Cleanup: Directory rhai_test_git_ops removed
 --- Git Repository Operations Tests completed successfully ---
 === Test Summary ===
 Passed: 2
 Failed: 0
 Total: 2
 ✅ All tests passed!
 Script executed successfully
 Result: 0
 All scripts executed
 [0;32m✓ Module git tests passed[0m
 [0;33mRunning tests for module: os[0m
 [0;33m-------------------------------------[0m
 Found 1 Rhai script to execute:
 Executing: src/rhai_tests/os/run_all_tests.rhai
 === Running OS Module Tests ===
 --- Running File Operations Tests ---
 Testing mkdir...
 ✓ mkdir: Successfully created directory 'rhai_test_fs'
 ✓ mkdir (nested): Successfully created directory 'rhai_test_fs/subdir'
 ✓ file_write: Successfully wrote to file 'rhai_test_fs/test.txt'
 ✓ file_read: Content matches
 ✓ file_size: 48 bytes
 ✓ delete: Directory cleaned up
 --- File Operations Tests completed successfully ---
 --- Running Download Operations Tests ---
 Created test directory: rhai_test_download
 ✓ which: curl found at /usr/bin/curl
 ✓ cmd_ensure_exists: Command 'curl' exists
 Downloading https://raw.githubusercontent.com/rust-lang/rust/master/LICENSE-MIT...
 Downloading https://raw.githubusercontent.com/rust-lang/rust/master/LICENSE-MIT to rhai_test_download/license.txt
 Download complete! File size: 1.04 KB
 ✓ download_file: rhai_test_download/license.txt
 ✓ Downloaded file content verified
 ✓ Cleanup: Directory rhai_test_download removed
 --- Download Operations Tests completed successfully ---
 --- Running Package Operations Tests ---
 Current platform: Ubuntu
 ✓ package_set_debug: Debug mode enabled
 --- Package Operations Tests completed successfully ---
 === Test Summary ===
 Passed: 3
 Failed: 0
 Total: 3
 ✅ All tests passed!
 Script executed successfully
 Result: 0
 All scripts executed
 [0;32m✓ Module os tests passed[0m
 [0;33mRunning tests for module: process[0m
 [0;33m-------------------------------------[0m
 Found 1 Rhai script to execute:
 Executing: src/rhai_tests/process/run_all_tests.rhai
 === Running Process Module Tests ===
 --- Running Command Execution Tests ---
 Testing run() with a simple command...
 Hello, World!
 ✓ run().execute(): Command executed successfully
 Testing which() function...
 ✓ which(): Found bash at /usr/bin/bash
 --- Command Execution Tests completed successfully ---
 --- Running Process Management Tests ---
 Testing process_list() function...
 ✓ process_list(): Found 344 processes
 Testing process properties...
 ✓ Process properties: PID=1, Name=systemd
 --- Process Management Tests completed successfully ---
 === Test Summary ===
 Passed: 2
 Failed: 0
 Total: 2
 ✅ All tests passed!
 Script executed successfully
 Result: 0
 All scripts executed
 [0;32m✓ Module process tests passed[0m
 [0;34m=======================================[0m
 [0;34m            Test Summary              [0m
 [0;34m=======================================[0m
 Total modules tested: 3
 Passed: [0;32m3[0m
 Failed: [0;31m0[0m
 [0;32mAll tests passed![0m
--- a/src/rhai/mod.rs
+++ b/src/rhai/mod.rs
@ -9,6 +9,7 @@ mod git;
 mod nerdctl;
 mod os;
 mod process;
 mod redisclient;
 mod rfs;
 mod text;
@ -39,6 +40,9 @@ pub use os::{
    rsync,
 };
 // Re-export Redis client module registration function
 pub use redisclient::register_redisclient_module;
 pub use process::{
    kill,
    process_get,
@ -140,6 +144,9 @@ pub fn register(engine: &mut Engine) -> Result<(), Box<rhai::EvalAltResult>> {
    // Register RFS module functions
    rfs::register(engine)?;
    // Register Redis client module functions
    redisclient::register_redisclient_module(engine)?;
    // Future modules can be registered here
    Ok(())
--- a/src/rhai/redisclient.rs
+++ b/src/rhai/redisclient.rs
@ -0,0 +1,323 @@
 //! Rhai wrappers for Redis client module functions
 //!
 //! This module provides Rhai wrappers for the functions in the Redis client module.
 use crate::redisclient;
 use rhai::{Engine, EvalAltResult, Map};
 use std::collections::HashMap;
 /// Register Redis client module functions with the Rhai engine
 ///
 /// # Arguments
 ///
 /// * `engine` - The Rhai engine to register the functions with
 ///
 /// # Returns
 ///
 /// * `Result<(), Box<EvalAltResult>>` - Ok if registration was successful, Err otherwise
 pub fn register_redisclient_module(engine: &mut Engine) -> Result<(), Box<EvalAltResult>> {
    // Register basic Redis operations
    engine.register_fn("redis_ping", redis_ping);
    engine.register_fn("redis_set", redis_set);
    engine.register_fn("redis_get", redis_get);
    engine.register_fn("redis_del", redis_del);
    // Register hash operations
    engine.register_fn("redis_hset", redis_hset);
    engine.register_fn("redis_hget", redis_hget);
    engine.register_fn("redis_hgetall", redis_hgetall);
    engine.register_fn("redis_hdel", redis_hdel);
    // Register list operations
    engine.register_fn("redis_rpush", redis_rpush);
    engine.register_fn("redis_lpush", redis_lpush);
    engine.register_fn("redis_llen", redis_llen);
    engine.register_fn("redis_lrange", redis_lrange);
    // Register other operations
    engine.register_fn("redis_reset", redis_reset);
    Ok(())
 }
 /// Ping the Redis server
 ///
 /// # Returns
 ///
 /// * `Result<String, Box<EvalAltResult>>` - "PONG" if successful, error otherwise
 pub fn redis_ping() -> Result<String, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("PING");
    redisclient::execute(&mut cmd).map_err(|e| {
        Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))
    })
 }
 /// Set a key-value pair in Redis
 ///
 /// # Arguments
 ///
 /// * `key` - The key to set
 /// * `value` - The value to set
 ///
 /// # Returns
 ///
 /// * `Result<bool, Box<EvalAltResult>>` - true if successful, error otherwise
 pub fn redis_set(key: &str, value: &str) -> Result<bool, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("SET");
    cmd.arg(key).arg(value);
    let result: redis::RedisResult<String> = redisclient::execute(&mut cmd);
    match result {
        Ok(s) if s == "OK" => Ok(true),
        Ok(_) => Ok(false),
        Err(e) => Err(Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))),
    }
 }
 /// Get a value from Redis by key
 ///
 /// # Arguments
 ///
 /// * `key` - The key to get
 ///
 /// # Returns
 ///
 /// * `Result<String, Box<EvalAltResult>>` - The value if found, empty string if not found, error otherwise
 pub fn redis_get(key: &str) -> Result<String, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("GET");
    cmd.arg(key);
    let result: redis::RedisResult<Option<String>> = redisclient::execute(&mut cmd);
    match result {
        Ok(Some(value)) => Ok(value),
        Ok(None) => Ok(String::new()),
        Err(e) => Err(Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))),
    }
 }
 /// Delete a key from Redis
 ///
 /// # Arguments
 ///
 /// * `key` - The key to delete
 ///
 /// # Returns
 ///
 /// * `Result<bool, Box<EvalAltResult>>` - true if successful, error otherwise
 pub fn redis_del(key: &str) -> Result<bool, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("DEL");
    cmd.arg(key);
    let result: redis::RedisResult<i64> = redisclient::execute(&mut cmd);
    match result {
        Ok(n) => Ok(n > 0),
        Err(e) => Err(Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))),
    }
 }
 /// Set a field in a hash
 ///
 /// # Arguments
 ///
 /// * `key` - The hash key
 /// * `field` - The field to set
 /// * `value` - The value to set
 ///
 /// # Returns
 ///
 /// * `Result<bool, Box<EvalAltResult>>` - true if successful, error otherwise
 pub fn redis_hset(key: &str, field: &str, value: &str) -> Result<bool, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("HSET");
    cmd.arg(key).arg(field).arg(value);
    let result: redis::RedisResult<i64> = redisclient::execute(&mut cmd);
    match result {
        Ok(_) => Ok(true),
        Err(e) => Err(Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))),
    }
 }
 /// Get a field from a hash
 ///
 /// # Arguments
 ///
 /// * `key` - The hash key
 /// * `field` - The field to get
 ///
 /// # Returns
 ///
 /// * `Result<String, Box<EvalAltResult>>` - The value if found, empty string if not found, error otherwise
 pub fn redis_hget(key: &str, field: &str) -> Result<String, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("HGET");
    cmd.arg(key).arg(field);
    let result: redis::RedisResult<Option<String>> = redisclient::execute(&mut cmd);
    match result {
        Ok(Some(value)) => Ok(value),
        Ok(None) => Ok(String::new()),
        Err(e) => Err(Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))),
    }
 }
 /// Get all fields and values from a hash
 ///
 /// # Arguments
 ///
 /// * `key` - The hash key
 ///
 /// # Returns
 ///
 /// * `Result<Map, Box<EvalAltResult>>` - A map of field-value pairs, error otherwise
 pub fn redis_hgetall(key: &str) -> Result<Map, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("HGETALL");
    cmd.arg(key);
    let result: redis::RedisResult<HashMap<String, String>> = redisclient::execute(&mut cmd);
    match result {
        Ok(hash_map) => {
            let mut map = Map::new();
            for (k, v) in hash_map {
                map.insert(k.into(), v.into());
            }
            Ok(map)
        }
        Err(e) => Err(Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))),
    }
 }
 /// Delete a field from a hash
 ///
 /// # Arguments
 ///
 /// * `key` - The hash key
 /// * `field` - The field to delete
 ///
 /// # Returns
 ///
 /// * `Result<bool, Box<EvalAltResult>>` - true if successful, error otherwise
 pub fn redis_hdel(key: &str, field: &str) -> Result<bool, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("HDEL");
    cmd.arg(key).arg(field);
    let result: redis::RedisResult<i64> = redisclient::execute(&mut cmd);
    match result {
        Ok(n) => Ok(n > 0),
        Err(e) => Err(Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))),
    }
 }
 /// Push an element to the end of a list
 ///
 /// # Arguments
 ///
 /// * `key` - The list key
 /// * `value` - The value to push
 ///
 /// # Returns
 ///
 /// * `Result<i64, Box<EvalAltResult>>` - The new length of the list, error otherwise
 pub fn redis_rpush(key: &str, value: &str) -> Result<i64, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("RPUSH");
    cmd.arg(key).arg(value);
    redisclient::execute(&mut cmd).map_err(|e| {
        Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))
    })
 }
 /// Push an element to the beginning of a list
 ///
 /// # Arguments
 ///
 /// * `key` - The list key
 /// * `value` - The value to push
 ///
 /// # Returns
 ///
 /// * `Result<i64, Box<EvalAltResult>>` - The new length of the list, error otherwise
 pub fn redis_lpush(key: &str, value: &str) -> Result<i64, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("LPUSH");
    cmd.arg(key).arg(value);
    redisclient::execute(&mut cmd).map_err(|e| {
        Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))
    })
 }
 /// Get the length of a list
 ///
 /// # Arguments
 ///
 /// * `key` - The list key
 ///
 /// # Returns
 ///
 /// * `Result<i64, Box<EvalAltResult>>` - The length of the list, error otherwise
 pub fn redis_llen(key: &str) -> Result<i64, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("LLEN");
    cmd.arg(key);
    redisclient::execute(&mut cmd).map_err(|e| {
        Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))
    })
 }
 /// Get a range of elements from a list
 ///
 /// # Arguments
 ///
 /// * `key` - The list key
 /// * `start` - The start index
 /// * `stop` - The stop index
 ///
 /// # Returns
 ///
 /// * `Result<Vec<String>, Box<EvalAltResult>>` - The elements in the range, error otherwise
 pub fn redis_lrange(key: &str, start: i64, stop: i64) -> Result<Vec<String>, Box<EvalAltResult>> {
    let mut cmd = redis::cmd("LRANGE");
    cmd.arg(key).arg(start).arg(stop);
    redisclient::execute(&mut cmd).map_err(|e| {
        Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))
    })
 }
 /// Reset the Redis client connection
 ///
 /// # Returns
 ///
 /// * `Result<bool, Box<EvalAltResult>>` - true if successful, error otherwise
 pub fn redis_reset() -> Result<bool, Box<EvalAltResult>> {
    match redisclient::reset() {
        Ok(_) => Ok(true),
        Err(e) => Err(Box::new(EvalAltResult::ErrorRuntime(
            format!("Redis error: {}", e).into(),
            rhai::Position::NONE,
        ))),
    }
 }
--- a/src/rhai_tests/redisclient/01_redis_connection.rhai
+++ b/src/rhai_tests/redisclient/01_redis_connection.rhai
@ -0,0 +1,68 @@
 // 01_redis_connection.rhai
 // Tests for Redis client connection and basic operations
 // Custom assert function
 fn assert_true(condition, message) {
    if !condition {
        print(`ASSERTION FAILED: ${message}`);
        throw message;
    }
 }
 // Helper function to check if Redis is available
 fn is_redis_available() {
    try {
        // Try to execute a simple PING command
        let ping_result = redis_ping();
        return ping_result == "PONG";
    } catch(err) {
        print(`Redis connection error: ${err}`);
        return false;
    }
 }
 print("=== Testing Redis Client Connection ===");
 // Check if Redis is available
 let redis_available = is_redis_available();
 if !redis_available {
    print("Redis server is not available. Skipping Redis tests.");
    // Exit gracefully without error
    return;
 }
 print("✓ Redis server is available");
 // Test redis_ping function
 print("Testing redis_ping()...");
 let ping_result = redis_ping();
 assert_true(ping_result == "PONG", "PING should return PONG");
 print(`✓ redis_ping(): Returned ${ping_result}`);
 // Test redis_set and redis_get functions
 print("Testing redis_set() and redis_get()...");
 let test_key = "rhai_test_key";
 let test_value = "Hello from Rhai test";
 // Set a value
 let set_result = redis_set(test_key, test_value);
 assert_true(set_result, "SET operation should succeed");
 print(`✓ redis_set(): Successfully set key ${test_key}`);
 // Get the value back
 let get_result = redis_get(test_key);
 assert_true(get_result == test_value, "GET should return the value we set");
 print(`✓ redis_get(): Successfully retrieved value for key ${test_key}`);
 // Test redis_del function
 print("Testing redis_del()...");
 let del_result = redis_del(test_key);
 assert_true(del_result, "DEL operation should succeed");
 print(`✓ redis_del(): Successfully deleted key ${test_key}`);
 // Verify the key was deleted
 let get_after_del = redis_get(test_key);
 assert_true(get_after_del == "", "Key should not exist after deletion");
 print("✓ Key was successfully deleted");
 print("All Redis connection tests completed successfully!");
--- a/src/rhai_tests/redisclient/02_redis_operations.rhai
+++ b/src/rhai_tests/redisclient/02_redis_operations.rhai
@ -0,0 +1,109 @@
 // 02_redis_operations.rhai
 // Tests for advanced Redis operations
 // Custom assert function
 fn assert_true(condition, message) {
    if !condition {
        print(`ASSERTION FAILED: ${message}`);
        throw message;
    }
 }
 // Helper function to check if Redis is available
 fn is_redis_available() {
    try {
        // Try to execute a simple PING command
        let ping_result = redis_ping();
        return ping_result == "PONG";
    } catch(err) {
        print(`Redis connection error: ${err}`);
        return false;
    }
 }
 print("=== Testing Advanced Redis Operations ===");
 // Check if Redis is available
 let redis_available = is_redis_available();
 if !redis_available {
    print("Redis server is not available. Skipping Redis tests.");
    // Exit gracefully without error
    return;
 }
 print("✓ Redis server is available");
 // Test prefix for all keys to avoid conflicts
 let prefix = "rhai_test_";
 // Test redis_hset and redis_hget functions
 print("Testing redis_hset() and redis_hget()...");
 let hash_key = prefix + "hash";
 let field1 = "field1";
 let value1 = "value1";
 let field2 = "field2";
 let value2 = "value2";
 // Set hash fields
 let hset_result1 = redis_hset(hash_key, field1, value1);
 assert_true(hset_result1, "HSET operation should succeed for field1");
 let hset_result2 = redis_hset(hash_key, field2, value2);
 assert_true(hset_result2, "HSET operation should succeed for field2");
 print(`✓ redis_hset(): Successfully set fields in hash ${hash_key}`);
 // Get hash fields
 let hget_result1 = redis_hget(hash_key, field1);
 assert_true(hget_result1 == value1, "HGET should return the value we set for field1");
 let hget_result2 = redis_hget(hash_key, field2);
 assert_true(hget_result2 == value2, "HGET should return the value we set for field2");
 print(`✓ redis_hget(): Successfully retrieved values from hash ${hash_key}`);
 // Test redis_hgetall function
 print("Testing redis_hgetall()...");
 let hgetall_result = redis_hgetall(hash_key);
 assert_true(hgetall_result.len() == 2, "HGETALL should return 2 fields");
 assert_true(hgetall_result[field1] == value1, "HGETALL should include field1 with correct value");
 assert_true(hgetall_result[field2] == value2, "HGETALL should include field2 with correct value");
 print(`✓ redis_hgetall(): Successfully retrieved all fields from hash ${hash_key}`);
 // Test redis_hdel function
 print("Testing redis_hdel()...");
 let hdel_result = redis_hdel(hash_key, field1);
 assert_true(hdel_result, "HDEL operation should succeed");
 print(`✓ redis_hdel(): Successfully deleted field from hash ${hash_key}`);
 // Verify the field was deleted
 let hget_after_del = redis_hget(hash_key, field1);
 assert_true(hget_after_del == "", "Field should not exist after deletion");
 print("✓ Field was successfully deleted from hash");
 // Test redis_list operations
 print("Testing redis list operations...");
 let list_key = prefix + "list";
 // Push items to list
 let rpush_result = redis_rpush(list_key, "item1");
 assert_true(rpush_result > 0, "RPUSH operation should succeed");
 redis_rpush(list_key, "item2");
 redis_rpush(list_key, "item3");
 print(`✓ redis_rpush(): Successfully pushed items to list ${list_key}`);
 // Get list length
 let llen_result = redis_llen(list_key);
 assert_true(llen_result == 3, "List should have 3 items");
 print(`✓ redis_llen(): List has ${llen_result} items`);
 // Get list range
 let lrange_result = redis_lrange(list_key, 0, -1);
 assert_true(lrange_result.len() == 3, "LRANGE should return 3 items");
 assert_true(lrange_result[0] == "item1", "First item should be 'item1'");
 assert_true(lrange_result[2] == "item3", "Last item should be 'item3'");
 print(`✓ redis_lrange(): Successfully retrieved all items from list ${list_key}`);
 // Clean up
 print("Cleaning up...");
 redis_del(hash_key);
 redis_del(list_key);
 print("✓ Cleanup: All test keys removed");
 print("All Redis operations tests completed successfully!");
--- a/src/rhai_tests/redisclient/run_all_tests.rhai
+++ b/src/rhai_tests/redisclient/run_all_tests.rhai
@ -0,0 +1,121 @@
 // run_all_tests.rhai
 // Runs all Redis client module tests
 print("=== Running Redis Client Module Tests ===");
 // Custom assert function
 fn assert_true(condition, message) {
    if !condition {
        print(`ASSERTION FAILED: ${message}`);
        throw message;
    }
 }
 // Helper function to check if Redis is available
 fn is_redis_available() {
    try {
        // Try to execute a simple PING command
        let ping_result = redis_ping();
        return ping_result == "PONG";
    } catch(err) {
        print(`Redis connection error: ${err}`);
        return false;
    }
 }
 // Run each test directly
 let passed = 0;
 let failed = 0;
 let skipped = 0;
 // Check if Redis is available
 let redis_available = is_redis_available();
 if !redis_available {
    print("Redis server is not available. Skipping all Redis tests.");
    skipped = 2; // Skip both tests
 } else {
    // Test 1: Redis Connection
    print("\n--- Running Redis Connection Tests ---");
    try {
        // Test redis_ping function
        print("Testing redis_ping()...");
        let ping_result = redis_ping();
        assert_true(ping_result == "PONG", "PING should return PONG");
        print(`✓ redis_ping(): Returned ${ping_result}`);
        // Test redis_set and redis_get functions
        print("Testing redis_set() and redis_get()...");
        let test_key = "rhai_test_key";
        let test_value = "Hello from Rhai test";
        // Set a value
        let set_result = redis_set(test_key, test_value);
        assert_true(set_result, "SET operation should succeed");
        print(`✓ redis_set(): Successfully set key ${test_key}`);
        // Get the value back
        let get_result = redis_get(test_key);
        assert_true(get_result == test_value, "GET should return the value we set");
        print(`✓ redis_get(): Successfully retrieved value for key ${test_key}`);
        // Clean up
        redis_del(test_key);
        print("--- Redis Connection Tests completed successfully ---");
        passed += 1;
    } catch(err) {
        print(`!!! Error in Redis Connection Tests: ${err}`);
        failed += 1;
    }
    // Test 2: Redis Operations
    print("\n--- Running Redis Operations Tests ---");
    try {
        // Test prefix for all keys to avoid conflicts
        let prefix = "rhai_test_";
        // Test redis_hset and redis_hget functions
        print("Testing redis_hset() and redis_hget()...");
        let hash_key = prefix + "hash";
        let field = "field1";
        let value = "value1";
        // Set hash field
        let hset_result = redis_hset(hash_key, field, value);
        assert_true(hset_result, "HSET operation should succeed");
        print(`✓ redis_hset(): Successfully set field in hash ${hash_key}`);
        // Get hash field
        let hget_result = redis_hget(hash_key, field);
        assert_true(hget_result == value, "HGET should return the value we set");
        print(`✓ redis_hget(): Successfully retrieved value from hash ${hash_key}`);
        // Clean up
        redis_del(hash_key);
        print("--- Redis Operations Tests completed successfully ---");
        passed += 1;
    } catch(err) {
        print(`!!! Error in Redis Operations Tests: ${err}`);
        failed += 1;
    }
 }
 print("\n=== Test Summary ===");
 print(`Passed: ${passed}`);
 print(`Failed: ${failed}`);
 print(`Skipped: ${skipped}`);
 print(`Total: ${passed + failed + skipped}`);
 if failed == 0 {
    if skipped > 0 {
        print("\n⚠️ All tests skipped or passed!");
    } else {
        print("\n✅ All tests passed!");
    }
 } else {
    print("\n❌ Some tests failed!");
 }
 // Return the number of failed tests (0 means success)
 failed;