--- name: debugging-instruments description: "Debug iOS apps and profile performance using LLDB, Memory Graph Debugger, and Instruments. Use when diagnosing crashes, memory leaks, retain cycles, main thread hangs, slow rendering, build failures, or when profiling CPU, memory, energy, and network usage." --- # Debugging and Instruments ## Contents - [LLDB Debugging](#lldb-debugging) - [Memory Debugging](#memory-debugging) - [Hang Diagnostics](#hang-diagnostics) - [Build Failure Triage](#build-failure-triage) - [Instruments Overview](#instruments-overview) - [Common Mistakes](#common-mistakes) - [Review Checklist](#review-checklist) - [References](#references) ## LLDB Debugging ### Essential Commands ```text (lldb) po myObject # Print object description (calls debugDescription) (lldb) p myInt # Print with type info (uses LLDB formatter) (lldb) v myLocal # Frame variable — fast, no code execution (lldb) bt # Backtrace current thread (lldb) bt all # Backtrace all threads (lldb) frame select 3 # Jump to frame #3 in the backtrace (lldb) thread list # List all threads and their states (lldb) thread select 4 # Switch to thread #4 ``` Use `v` over `po` when you only need a local variable value — it does not execute code and cannot trigger side effects. ### Breakpoint Management ```text (lldb) br set -f ViewModel.swift -l 42 # Break at file:line (lldb) br set -n viewDidLoad # Break on function name (lldb) br set -S setValue:forKey: # Break on ObjC selector (lldb) br modify 1 -c "count > 10" # Add condition to breakpoint 1 (lldb) br modify 1 --auto-continue true # Log and continue (logpoint) (lldb) br command add 1 # Attach commands to breakpoint > po self.title > continue > DONE (lldb) br disable 1 # Disable without deleting (lldb) br delete 1 # Remove breakpoint ``` ### Expression Evaluation ```text (lldb) expr myArray.count # Evaluate Swift expression (lldb) e -l swift -- import UIKit # Import framework in LLDB (lldb) e -l swift -- self.view.backgroundColor = .red # Modify state at runtime (lldb) e -l objc -- (void)[CATransaction flush] # Force UI update after changes ``` After modifying a view property in the debugger, call `CATransaction.flush()` to see the change immediately without resuming execution. ### Watchpoints ```text (lldb) w set v self.score # Break when score changes (lldb) w set v self.score -w read # Break when score is read (lldb) w modify 1 -c "self.score > 100" # Conditional watchpoint (lldb) w list # Show active watchpoints (lldb) w delete 1 # Remove watchpoint ``` Watchpoints are hardware-backed (limited to ~4 on ARM). Use them to find unexpected mutations — the debugger stops at the exact line that changes the value. ### Symbolic Breakpoints Set breakpoints on methods without knowing the file. Useful for framework or system code: ```text (lldb) br set -n "UIViewController.viewDidLoad" (lldb) br set -r ".*networkError.*" # Regex on symbol name (lldb) br set -n malloc_error_break # Catch malloc corruption (lldb) br set -n UIViewAlertForUnsatisfiableConstraints # Auto Layout issues ``` In Xcode, use the Breakpoint Navigator (+) to add symbolic breakpoints for common diagnostics like `-[UIApplication main]` or `swift_willThrow`. ## Memory Debugging ### Memory Graph Debugger Workflow 1. Run the app in Debug configuration. 2. Reproduce the suspected leak (navigate to a screen, then back). 3. Tap the **Memory Graph** button in Xcode's debug bar. 4. Look for purple warning icons — these indicate leaked objects. 5. Select a leaked object to see its reference graph and backtrace. Enable **Malloc Stack Logging** (Scheme > Diagnostics) before running so the Memory Graph shows allocation backtraces. ### Common Retain Cycle Patterns **Closure capturing self strongly:** ```swift // LEAK — closure holds strong reference to self class ProfileViewModel { var onUpdate: (() -> Void)? func startObserving() { onUpdate = { self.refresh() // strong capture of self } } } // FIXED — use [weak self] func startObserving() { onUpdate = { [weak self] in self?.refresh() } } ``` **Strong delegate reference:** ```swift // LEAK — strong delegate creates a cycle protocol DataDelegate: AnyObject { func didUpdate() } class DataManager { var delegate: DataDelegate? // should be weak } // FIXED — weak delegate class DataManager { weak var delegate: DataDelegate? } ``` **Timer retaining target:** ```swift // LEAK — Timer.scheduledTimer retains its target timer = Timer.scheduledTimer( timeInterval: 1.0, target: self, selector: #selector(tick), userInfo: nil, repeats: true ) // FIXED — use closure-based API with [weak self] timer = Timer.scheduledTimer(withTimeInterval: 1.0, repeats: true) { [weak self] _ in self?.tick() } ``` ### Instruments: Allocations and Leaks - **Allocations template**: Track memory growth over time. Use the "Mark Generation" feature to isolate allocations created between user actions (e.g., open/close a screen). - **Leaks template**: Automatically detects reference cycles at runtime. Run alongside Allocations for a complete picture. - Filter by your app's module name to exclude system allocations. ### Malloc Stack Logging Enable in Scheme > Run > Diagnostics > Malloc Stack Logging (All Allocations). This records the call stack for every allocation, letting the Memory Graph Debugger and `leaks` CLI show where objects were created. ```bash # CLI leak detection leaks --atExit -- ./MyApp.app/MyApp # Symbolicate with dSYMs for readable stacks ``` ## Hang Diagnostics ### Identifying Main Thread Hangs A hang occurs when the main thread is blocked for > 250ms (noticeable) or > 1s (severe). Common detection tools: - **Thread Checker** (Xcode Diagnostics): warns about non-main-thread UI calls - **os_signpost** and `OSSignposter`: mark intervals for Instruments - **MetricKit** hang diagnostics: production hang detection (see `metrickit-diagnostics` skill for `MXHangDiagnostic`) ```swift import os let signposter = OSSignposter(subsystem: "com.example.app", category: "DataLoad") func loadData() async { let state = signposter.beginInterval("loadData") let result = await fetchFromNetwork() signposter.endInterval("loadData", state) process(result) } ``` ### Using the Time Profiler 1. Product > Profile (Cmd+I) to launch Instruments. 2. Select the **Time Profiler** template. 3. Record while reproducing the slow interaction. 4. Focus on the main thread — sort by "Weight" to find hot paths. 5. Check "Hide System Libraries" to see only your code. 6. Double-click a heavy frame to jump to source. ### Common Hang Causes | Cause | Symptom | Fix | |-------|---------|-----| | Synchronous I/O on main thread | Network/file reads block UI | Move to `Task { }` or background actor | | Lock contention | Main thread waiting on a lock held by background work | Use actors or reduce lock scope | | Layout thrashing | Repeated `layoutSubviews` calls | Batch layout changes, avoid forced layout | | JSON parsing large payloads | UI freezes during data load | Parse on a background thread | | Synchronous image decoding | Scroll jank on image-heavy lists | Use `AsyncImage` or decode off main thread | ## Build Failure Triage ### Reading Compiler Diagnostics - Start from the **first** error — subsequent errors are often cascading. - Search for the error code (e.g., `error: cannot convert`) in the build log. - Use Report Navigator (Cmd+9) for the full build log with timestamps. ### SPM Dependency Resolution ```text # Common: version conflict error: Dependencies could not be resolved because root depends on 'Package' 1.0.0..<2.0.0 # Fix: check Package.resolved and update version ranges # Reset package caches if needed: rm -rf ~/Library/Caches/org.swift.swiftpm rm -rf .build swift package resolve ``` ### Module Not Found / Linker Errors | Error | Check | |-------|-------| | `No such module 'Foo'` | Target membership, import paths, framework search paths | | `Undefined symbol` | Linking phase missing framework, wrong architecture | | `duplicate symbol` | Two targets define same symbol; check for ObjC naming collisions | Build settings to inspect first: - `FRAMEWORK_SEARCH_PATHS` - `OTHER_LDFLAGS` - `SWIFT_INCLUDE_PATHS` - `BUILD_LIBRARY_FOR_DISTRIBUTION` (for XCFrameworks) ## Instruments Overview ### Template Selection Guide | Template | Use When | |----------|----------| | **Time Profiler** | CPU is high, UI feels slow, need to find hot code paths | | **Allocations** | Memory grows over time, need to track object lifetimes | | **Leaks** | Suspect retain cycles or abandoned objects | | **Network** | Inspecting HTTP request/response timing and payloads | | **SwiftUI** | Profiling view body evaluations and update frequency | | **Core Animation** | Frame drops, off-screen rendering, blending issues | | **Energy Log** | Battery drain, background energy impact | | **File Activity** | Excessive disk I/O, slow file operations | | **System Trace** | Thread scheduling, syscalls, virtual memory faults | ### xctrace CLI for CI Profiling ```bash # Record a trace from the command line xcrun xctrace record --device "My iPhone" \ --template "Time Profiler" \ --output profile.trace \ --launch MyApp.app # Export trace data as XML for automated analysis xcrun xctrace export --input profile.trace --xpath '/trace-toc/run/data/table' # List available templates xcrun xctrace list templates # List connected devices xcrun xctrace list devices ``` Use `xctrace` in CI pipelines to catch performance regressions automatically. Compare exported metrics between builds. ## Common Mistakes ### DON'T: Use print() for debugging instead of os.Logger `print()` output is not filterable, has no log levels, and is not automatically stripped from release builds. It pollutes the console and makes it impossible to isolate relevant output. ```swift // WRONG — unstructured, not filterable, stays in release builds print("user tapped button, state: \(viewModel.state)") print("network response: \(data)") // CORRECT — structured logging with Logger import os let logger = Logger(subsystem: "com.example.app", category: "UI") logger.debug("Button tapped, state: \(viewModel.state, privacy: .public)") logger.info("Network response received, bytes: \(data.count)") ``` `Logger` messages appear in Console.app with filtering by subsystem and category, and `.debug` messages are automatically excluded from release builds. ### DON'T: Forget to enable Malloc Stack Logging before memory debugging Without Malloc Stack Logging, the Memory Graph Debugger shows leaked objects but cannot display allocation backtraces, making it difficult to find the code that created them. ```swift // WRONG — open Memory Graph without enabling Malloc Stack Logging // Result: leaked objects visible but no allocation backtrace // CORRECT — enable BEFORE running: // Scheme > Run > Diagnostics > check "Malloc Stack Logging: All Allocations" // Then run, reproduce the leak, and open Memory Graph ``` ### DON'T: Debug optimized code expecting full variable visibility In Release (optimized) builds, the compiler may inline functions, eliminate variables, and reorder code. LLDB cannot display optimized-away values. ```swift // WRONG — profiling with Debug build, debugging with Release build // Debug builds: extra runtime checks distort perf measurements // Release builds: variables show as "" in debugger // CORRECT approach: // Debugging: use Debug configuration (full symbols, no optimization) // Profiling: use Release configuration (realistic performance) ``` ### DON'T: Stop on every loop iteration without conditional breakpoints Breaking on every iteration wastes time and makes it hard to find the specific case you care about. ```swift // WRONG — breakpoint on line inside loop, stops 10,000 times for item in items { process(item) // breakpoint here stops on EVERY item } // CORRECT — use a conditional breakpoint: // (lldb) br set -f MyFile.swift -l 42 -c "item.id == targetID" // Or in Xcode: right-click breakpoint > Edit > add Condition ``` ### DON'T: Ignore Thread Sanitizer warnings Thread Sanitizer (TSan) warnings indicate data races that may only crash intermittently. They are real bugs, not false positives. ```swift // WRONG — ignoring TSan warning about concurrent access var cache: [String: Data] = [:] // accessed from multiple threads // CORRECT — protect shared mutable state actor CacheActor { var cache: [String: Data] = [:] func get(_ key: String) -> Data? { cache[key] } func set(_ key: String, _ value: Data) { cache[key] = value } } ``` Enable TSan: Scheme > Run > Diagnostics > Thread Sanitizer. Note: TSan cannot run simultaneously with Address Sanitizer. ## Review Checklist - [ ] Using `os.Logger` instead of `print()` for diagnostic output - [ ] Malloc Stack Logging enabled before memory debugging sessions - [ ] Memory Graph Debugger checked after dismiss/dealloc flows - [ ] Delegates declared as `weak var` to prevent retain cycles - [ ] Closures stored as properties use `[weak self]` capture lists - [ ] Timers use closure-based API with `[weak self]` - [ ] Thread Sanitizer enabled in test schemes - [ ] No synchronous I/O or heavy computation on the main thread - [ ] Time Profiler run on Release build for performance baselines - [ ] Build failures triaged from the first error in the build log - [ ] `OSSignposter` used for custom performance intervals - [ ] Conditional breakpoints used for loop/collection debugging ## References - [Logging (unified logging system)](https://sosumi.ai/documentation/os/logging) - [Logger](https://sosumi.ai/documentation/os/logger) - [OSSignposter](https://sosumi.ai/documentation/os/ossignposter) - [Generating log messages from your code](https://sosumi.ai/documentation/os/generating-log-messages-from-your-code) - [Recording performance data (signposts)](https://sosumi.ai/documentation/os/recording-performance-data) - [Diagnosing memory, thread, and crash issues early](https://sosumi.ai/documentation/xcode/diagnosing-memory-thread-and-crash-issues-early) - [Data races](https://sosumi.ai/documentation/xcode/data-races) - [Reducing your app's memory use](https://sosumi.ai/documentation/xcode/reducing-your-app-s-memory-use) - [Profiling apps using Instruments](https://sosumi.ai/tutorials/instruments) - [Analyzing the performance of your shipping app](https://sosumi.ai/documentation/xcode/analyzing-the-performance-of-your-shipping-app) - LLDB command reference: `references/lldb-patterns.md` - Instruments template guide: `references/instruments-guide.md`