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hakmem/core/tiny_alloc_fast_push.d

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Phase 23 Unified Cache + PageFaultTelemetry generalization: Mid/VM page-fault bottleneck identified Summary: - Phase 23 Unified Cache: +30% improvement (Random Mixed 256B: 18.18M → 23.68M ops/s) - PageFaultTelemetry: Extended to generic buckets (C0-C7, MID, L25, SSM) - Measurement-driven decision: Mid/VM page-faults (80-100K) >> Tiny (6K) → prioritize Mid/VM optimization Phase 23 Changes: 1. Unified Cache implementation (core/front/tiny_unified_cache.{c,h}) - Direct SuperSlab carve (TLS SLL bypass) - Self-contained pop-or-refill pattern - ENV: HAKMEM_TINY_UNIFIED_CACHE=1, HAKMEM_TINY_UNIFIED_C{0-7}=128 2. Fast path pruning (tiny_alloc_fast.inc.h, tiny_free_fast_v2.inc.h) - Unified ON → direct cache access (skip all intermediate layers) - Alloc: unified_cache_pop_or_refill() → immediate fail to slow - Free: unified_cache_push() → fallback to SLL only if full PageFaultTelemetry Changes: 3. Generic bucket architecture (core/box/pagefault_telemetry_box.{c,h}) - PF_BUCKET_{C0-C7, MID, L25, SSM} for domain-specific measurement - Integration: hak_pool_try_alloc(), l25_alloc_new_run(), shared_pool_allocate_superslab_unlocked() 4. Measurement results (Random Mixed 500K / 256B): - Tiny C2-C7: 2-33 pages, high reuse (64-3.8 touches/page) - SSM: 512 pages (initialization footprint) - MID/L25: 0 (unused in this workload) - Mid/Large VM benchmarks: 80-100K page-faults (13-16x higher than Tiny) Ring Cache Enhancements: 5. Hot Ring Cache (core/front/tiny_ring_cache.{c,h}) - ENV: HAKMEM_TINY_HOT_RING_ENABLE=1, HAKMEM_TINY_HOT_RING_C{0-7}=size - Conditional compilation cleanup Documentation: 6. Analysis reports - RANDOM_MIXED_BOTTLENECK_ANALYSIS.md: Page-fault breakdown - RANDOM_MIXED_SUMMARY.md: Phase 23 summary - RING_CACHE_ACTIVATION_GUIDE.md: Ring cache usage - CURRENT_TASK.md: Updated with Phase 23 results and Phase 24 plan Next Steps (Phase 24): - Target: Mid/VM PageArena/HotSpanBox (page-fault reduction 80-100K → 30-40K) - Tiny SSM optimization deferred (low ROI, ~6K page-faults already optimal) - Expected improvement: +30-50% for Mid/Large workloads Generated with Claude Code Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 02:47:58 +09:00
core/tiny_alloc_fast_push.o: core/tiny_alloc_fast_push.c \
core/hakmem_tiny_config.h core/box/tls_sll_box.h \
feat: Add ACE allocation failure tracing and debug hooks This commit introduces a comprehensive tracing mechanism for allocation failures within the Adaptive Cache Engine (ACE) component. This feature allows for precise identification of the root cause for Out-Of-Memory (OOM) issues related to ACE allocations. Key changes include: - **ACE Tracing Implementation**: - Added environment variable to enable/disable detailed logging of allocation failures. - Instrumented , , and to distinguish between "Threshold" (size class mismatch), "Exhaustion" (pool depletion), and "MapFail" (OS memory allocation failure). - **Build System Fixes**: - Corrected to ensure is properly linked into , resolving an error. - **LD_PRELOAD Wrapper Adjustments**: - Investigated and understood the wrapper's behavior under , particularly its interaction with and checks. - Enabled debugging flags for environment to prevent unintended fallbacks to 's for non-tiny allocations, allowing comprehensive testing of the allocator. - **Debugging & Verification**: - Introduced temporary verbose logging to pinpoint execution flow issues within interception and routing. These temporary logs have been removed. - Created to facilitate testing of the tracing features. This feature will significantly aid in diagnosing and resolving allocation-related OOM issues in by providing clear insights into the failure pathways.
2025-12-01 16:37:59 +09:00
core/box/../hakmem_internal.h core/box/../hakmem.h \
core/box/../hakmem_build_flags.h core/box/../hakmem_config.h \
core/box/../hakmem_features.h core/box/../hakmem_sys.h \
core/box/../hakmem_whale.h core/box/../box/ptr_type_box.h \
Phase 23 Unified Cache + PageFaultTelemetry generalization: Mid/VM page-fault bottleneck identified Summary: - Phase 23 Unified Cache: +30% improvement (Random Mixed 256B: 18.18M → 23.68M ops/s) - PageFaultTelemetry: Extended to generic buckets (C0-C7, MID, L25, SSM) - Measurement-driven decision: Mid/VM page-faults (80-100K) >> Tiny (6K) → prioritize Mid/VM optimization Phase 23 Changes: 1. Unified Cache implementation (core/front/tiny_unified_cache.{c,h}) - Direct SuperSlab carve (TLS SLL bypass) - Self-contained pop-or-refill pattern - ENV: HAKMEM_TINY_UNIFIED_CACHE=1, HAKMEM_TINY_UNIFIED_C{0-7}=128 2. Fast path pruning (tiny_alloc_fast.inc.h, tiny_free_fast_v2.inc.h) - Unified ON → direct cache access (skip all intermediate layers) - Alloc: unified_cache_pop_or_refill() → immediate fail to slow - Free: unified_cache_push() → fallback to SLL only if full PageFaultTelemetry Changes: 3. Generic bucket architecture (core/box/pagefault_telemetry_box.{c,h}) - PF_BUCKET_{C0-C7, MID, L25, SSM} for domain-specific measurement - Integration: hak_pool_try_alloc(), l25_alloc_new_run(), shared_pool_allocate_superslab_unlocked() 4. Measurement results (Random Mixed 500K / 256B): - Tiny C2-C7: 2-33 pages, high reuse (64-3.8 touches/page) - SSM: 512 pages (initialization footprint) - MID/L25: 0 (unused in this workload) - Mid/Large VM benchmarks: 80-100K page-faults (13-16x higher than Tiny) Ring Cache Enhancements: 5. Hot Ring Cache (core/front/tiny_ring_cache.{c,h}) - ENV: HAKMEM_TINY_HOT_RING_ENABLE=1, HAKMEM_TINY_HOT_RING_C{0-7}=size - Conditional compilation cleanup Documentation: 6. Analysis reports - RANDOM_MIXED_BOTTLENECK_ANALYSIS.md: Page-fault breakdown - RANDOM_MIXED_SUMMARY.md: Phase 23 summary - RING_CACHE_ACTIVATION_GUIDE.md: Ring cache usage - CURRENT_TASK.md: Updated with Phase 23 results and Phase 24 plan Next Steps (Phase 24): - Target: Mid/VM PageArena/HotSpanBox (page-fault reduction 80-100K → 30-40K) - Tiny SSM optimization deferred (low ROI, ~6K page-faults already optimal) - Expected improvement: +30-50% for Mid/Large workloads Generated with Claude Code Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 02:47:58 +09:00
core/box/../hakmem_tiny_config.h core/box/../hakmem_build_flags.h \
Cleanup: Consolidate debug ENV vars to HAKMEM_DEBUG_LEVEL Integrated 4 new debug environment variables added during bug fixes into the existing unified HAKMEM_DEBUG_LEVEL system (expanded to 0-5 levels). Changes: 1. Expanded HAKMEM_DEBUG_LEVEL from 0-3 to 0-5 levels: - 0 = OFF (production) - 1 = ERROR (critical errors) - 2 = WARN (warnings) - 3 = INFO (allocation paths, header validation, stats) - 4 = DEBUG (guard instrumentation, failfast) - 5 = TRACE (verbose tracing) 2. Integrated 4 environment variables: - HAKMEM_ALLOC_PATH_TRACE → HAKMEM_DEBUG_LEVEL >= 3 (INFO) - HAKMEM_TINY_SLL_VALIDATE_HDR → HAKMEM_DEBUG_LEVEL >= 3 (INFO) - HAKMEM_TINY_REFILL_FAILFAST → HAKMEM_DEBUG_LEVEL >= 4 (DEBUG) - HAKMEM_TINY_GUARD → HAKMEM_DEBUG_LEVEL >= 4 (DEBUG) 3. Kept 2 special-purpose variables (fine-grained control): - HAKMEM_TINY_GUARD_CLASS (target class for guard) - HAKMEM_TINY_GUARD_MAX (max guard events) 4. Backward compatibility: - Legacy ENV vars still work via hak_debug_check_level() - New code uses unified system - No behavior changes for existing users Updated files: - core/hakmem_debug_master.h (level 0-5 expansion) - core/hakmem_tiny_superslab_internal.h (alloc path trace) - core/box/tls_sll_box.h (header validation) - core/tiny_failfast.c (failfast level) - core/tiny_refill_opt.h (failfast guard) - core/hakmem_tiny_ace_guard_box.inc (guard enable) - core/hakmem_tiny.c (include hakmem_debug_master.h) Impact: - Simpler debug control: HAKMEM_DEBUG_LEVEL=3 instead of 4 separate ENVs - Easier to discover/use - Consistent debug levels across codebase - Reduces ENV variable proliferation (43+ vars surveyed) Future work: - Consolidate remaining 39+ debug variables (documented in survey) - Gradual migration over 2-3 releases 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-29 06:57:03 +09:00
core/box/../hakmem_debug_master.h core/box/../tiny_remote.h \
feat: Add ACE allocation failure tracing and debug hooks This commit introduces a comprehensive tracing mechanism for allocation failures within the Adaptive Cache Engine (ACE) component. This feature allows for precise identification of the root cause for Out-Of-Memory (OOM) issues related to ACE allocations. Key changes include: - **ACE Tracing Implementation**: - Added environment variable to enable/disable detailed logging of allocation failures. - Instrumented , , and to distinguish between "Threshold" (size class mismatch), "Exhaustion" (pool depletion), and "MapFail" (OS memory allocation failure). - **Build System Fixes**: - Corrected to ensure is properly linked into , resolving an error. - **LD_PRELOAD Wrapper Adjustments**: - Investigated and understood the wrapper's behavior under , particularly its interaction with and checks. - Enabled debugging flags for environment to prevent unintended fallbacks to 's for non-tiny allocations, allowing comprehensive testing of the allocator. - **Debugging & Verification**: - Introduced temporary verbose logging to pinpoint execution flow issues within interception and routing. These temporary logs have been removed. - Created to facilitate testing of the tracing features. This feature will significantly aid in diagnosing and resolving allocation-related OOM issues in by providing clear insights into the failure pathways.
2025-12-01 16:37:59 +09:00
core/box/../tiny_region_id.h core/box/../tiny_box_geometry.h \
Phase 23 Unified Cache + PageFaultTelemetry generalization: Mid/VM page-fault bottleneck identified Summary: - Phase 23 Unified Cache: +30% improvement (Random Mixed 256B: 18.18M → 23.68M ops/s) - PageFaultTelemetry: Extended to generic buckets (C0-C7, MID, L25, SSM) - Measurement-driven decision: Mid/VM page-faults (80-100K) >> Tiny (6K) → prioritize Mid/VM optimization Phase 23 Changes: 1. Unified Cache implementation (core/front/tiny_unified_cache.{c,h}) - Direct SuperSlab carve (TLS SLL bypass) - Self-contained pop-or-refill pattern - ENV: HAKMEM_TINY_UNIFIED_CACHE=1, HAKMEM_TINY_UNIFIED_C{0-7}=128 2. Fast path pruning (tiny_alloc_fast.inc.h, tiny_free_fast_v2.inc.h) - Unified ON → direct cache access (skip all intermediate layers) - Alloc: unified_cache_pop_or_refill() → immediate fail to slow - Free: unified_cache_push() → fallback to SLL only if full PageFaultTelemetry Changes: 3. Generic bucket architecture (core/box/pagefault_telemetry_box.{c,h}) - PF_BUCKET_{C0-C7, MID, L25, SSM} for domain-specific measurement - Integration: hak_pool_try_alloc(), l25_alloc_new_run(), shared_pool_allocate_superslab_unlocked() 4. Measurement results (Random Mixed 500K / 256B): - Tiny C2-C7: 2-33 pages, high reuse (64-3.8 touches/page) - SSM: 512 pages (initialization footprint) - MID/L25: 0 (unused in this workload) - Mid/Large VM benchmarks: 80-100K page-faults (13-16x higher than Tiny) Ring Cache Enhancements: 5. Hot Ring Cache (core/front/tiny_ring_cache.{c,h}) - ENV: HAKMEM_TINY_HOT_RING_ENABLE=1, HAKMEM_TINY_HOT_RING_C{0-7}=size - Conditional compilation cleanup Documentation: 6. Analysis reports - RANDOM_MIXED_BOTTLENECK_ANALYSIS.md: Page-fault breakdown - RANDOM_MIXED_SUMMARY.md: Phase 23 summary - RING_CACHE_ACTIVATION_GUIDE.md: Ring cache usage - CURRENT_TASK.md: Updated with Phase 23 results and Phase 24 plan Next Steps (Phase 24): - Target: Mid/VM PageArena/HotSpanBox (page-fault reduction 80-100K → 30-40K) - Tiny SSM optimization deferred (low ROI, ~6K page-faults already optimal) - Expected improvement: +30-50% for Mid/Large workloads Generated with Claude Code Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 02:47:58 +09:00
core/box/../hakmem_tiny_superslab_constants.h \
core/box/../hakmem_tiny_config.h core/box/../ptr_track.h \
Code Cleanup: Remove false positives, redundant validations, and reduce verbose logging Following the C7 stride upgrade fix (commit 23c0d9541), this commit performs comprehensive cleanup to improve code quality and reduce debug noise. ## Changes ### 1. Disable False Positive Checks (tiny_nextptr.h) - **Disabled**: NXT_MISALIGN validation block with `#if 0` - **Reason**: Produces false positives due to slab base offsets (2048, 65536) not being stride-aligned, causing all blocks to appear "misaligned" - **TODO**: Reimplement to check stride DISTANCE between consecutive blocks instead of absolute alignment to stride boundaries ### 2. Remove Redundant Geometry Validations **hakmem_tiny_refill_p0.inc.h (P0 batch refill)** - Removed 25-line CARVE_GEOMETRY_FIX validation block - Replaced with NOTE explaining redundancy - **Reason**: Stride table is now correct in tiny_block_stride_for_class(), defense-in-depth validation adds overhead without benefit **ss_legacy_backend_box.c (legacy backend)** - Removed 18-line LEGACY_FIX_GEOMETRY validation block - Replaced with NOTE explaining redundancy - **Reason**: Shared_pool validates geometry at acquisition time ### 3. Reduce Verbose Logging **hakmem_shared_pool.c (sp_fix_geometry_if_needed)** - Made SP_FIX_GEOMETRY logging conditional on `!HAKMEM_BUILD_RELEASE` - **Reason**: Geometry fixes are expected during stride upgrades, no need to log in release builds ### 4. Verification - Build: ✅ Successful (LTO warnings expected) - Test: ✅ 10K iterations (1.87M ops/s, no crashes) - NXT_MISALIGN false positives: ✅ Eliminated ## Files Modified - core/tiny_nextptr.h - Disabled false positive NXT_MISALIGN check - core/hakmem_tiny_refill_p0.inc.h - Removed redundant CARVE validation - core/box/ss_legacy_backend_box.c - Removed redundant LEGACY validation - core/hakmem_shared_pool.c - Made SP_FIX_GEOMETRY logging debug-only ## Impact - **Code clarity**: Removed 43 lines of redundant validation code - **Debug noise**: Reduced false positive diagnostics - **Performance**: Eliminated overhead from redundant geometry checks - **Maintainability**: Single source of truth for geometry validation 🧹 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-21 23:00:24 +09:00
core/box/../hakmem_super_registry.h core/box/../hakmem_tiny_superslab.h \
core/box/../superslab/superslab_types.h \
core/hakmem_tiny_superslab_constants.h \
core/box/../superslab/superslab_inline.h \
Remove dead code: UltraHot, RingCache, FrontC23, Class5 Hotpath (cherry-picked from 225b6fcc7, conflicts resolved)
2025-11-26 12:33:49 +09:00
core/box/../superslab/superslab_types.h \
core/box/../superslab/../tiny_box_geometry.h \
core/box/../tiny_debug_ring.h core/box/../tiny_remote.h \
Refactor: Clean up SuperSlab shared pool code - Removed unused/disabled L0 cache implementation from core/hakmem_shared_pool.c. - Deleted stale backup file core/hakmem_tiny_superslab.c.bak. - Removed untracked and obsolete shared_pool source files.
2025-11-30 15:27:53 +09:00
core/box/../box/ss_addr_map_box.h \
Boxify superslab registry, add bench profile, and document C7 hotpath experiments
2025-12-07 03:12:27 +09:00
core/box/../box/../hakmem_build_flags.h core/box/../box/super_reg_box.h \
Phase 3 D2: Wrapper Env Cache - [DECISION: NO-GO] Target: Reduce wrapper_env_cfg() overhead in malloc/free hot path - Strategy: Cache wrapper env configuration pointer in TLS - Approach: Fast pointer cache (TLS caches const wrapper_env_cfg_t*) Implementation: - core/box/wrapper_env_cache_env_box.h: ENV gate (HAKMEM_WRAP_ENV_CACHE) - core/box/wrapper_env_cache_box.h: TLS cache layer (wrapper_env_cfg_fast) - core/box/hak_wrappers.inc.h: Integration into malloc/free hot paths - ENV gate: HAKMEM_WRAP_ENV_CACHE=0/1 (default OFF) A/B Test Results (Mixed, 10-run, 20M iters): - Baseline (D2=0): 46.52M ops/s (avg), 46.47M ops/s (median) - Optimized (D2=1): 45.85M ops/s (avg), 45.98M ops/s (median) - Improvement: avg -1.44%, median -1.05% (DECISION: NO-GO) Analysis: - Regression cause: TLS cache adds overhead (branch + TLS access) - wrapper_env_cfg() is already minimal (pointer return after simple check) - Adding TLS caching layer makes it worse, not better - Branch prediction penalty outweighs any potential savings Cumulative Phase 2-3: - B3: +2.89%, B4: +1.47%, C3: +2.20% - D1: +1.06% (opt-in), D2: -1.44% (NO-GO) - Total: ~7.2% (excluding D2) Decision: FREEZE as research box (default OFF, regression confirmed) 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude Haiku 4.5 <noreply@anthropic.com>
2025-12-13 22:03:27 +09:00
core/box/../box/ss_pt_lookup_box.h core/box/../box/ss_pt_types_box.h \
core/box/../box/ss_pt_env_box.h core/box/../box/ss_pt_env_box.h \
Boxify superslab registry, add bench profile, and document C7 hotpath experiments
2025-12-07 03:12:27 +09:00
core/box/../hakmem_tiny.h core/box/../hakmem_trace.h \
core/box/../hakmem_tiny_mini_mag.h \
Save current state before investigating TLS_SLL_HDR_RESET
2025-12-03 10:34:39 +09:00
core/box/../box/hak_lane_classify.inc.h core/box/../tiny_debug_api.h \
Phase 29: Pool Hotbox v2 Stats Prune - NO-OP (infrastructure ready) Target: g_pool_hotbox_v2_stats atomics (12 total) in Pool v2 Result: 0.00% impact (code path inactive by default, ENV-gated) Verdict: NO-OP - Maintain compile-out for future-proofing Audit Results: - Classification: 12/12 TELEMETRY (100% observational) - Counters: alloc_calls, alloc_fast, alloc_refill, alloc_refill_fail, alloc_fallback_v1, free_calls, free_fast, free_fallback_v1, page_of_fail_* (4 failure counters) - Verification: All stats/logging only, zero flow control usage - Phase 28 lesson applied: Traced all usages, confirmed no CORRECTNESS Key Finding: Pool v2 OFF by default - Requires HAKMEM_POOL_V2_ENABLED=1 to activate - Benchmark never executes Pool v2 code paths - Compile-out has zero performance impact (code never runs) Implementation (future-ready): - Added HAKMEM_POOL_HOTBOX_V2_STATS_COMPILED (default: 0) - Wrapped 13 atomic write sites in core/hakmem_pool.c - Pattern: #if HAKMEM_POOL_HOTBOX_V2_STATS_COMPILED ... #endif - Expected impact if Pool v2 enabled: +0.3~0.8% (HOT+WARM atomics) A/B Test Results: - Baseline (COMPILED=0): 52.98 M ops/s (±0.43M, 0.81% stdev) - Research (COMPILED=1): 53.31 M ops/s (±0.80M, 1.50% stdev) - Delta: -0.62% (noise, not real effect - code path not active) Critical Lesson Learned (NEW): Phase 29 revealed ENV-gated features can appear on hot paths but never execute. Updated audit checklist: 1. Classify atomics (CORRECTNESS vs TELEMETRY) 2. Verify no flow control usage 3. NEW: Verify code path is ACTIVE in benchmark (check ENV gates) 4. Implement compile-out 5. A/B test Verification methods added to documentation: - rg "getenv.*FEATURE" to check ENV gates - perf record/report to verify execution - Debug printf for quick validation Cumulative Progress (Phase 24-29): - Phase 24 (class stats): +0.93% GO - Phase 25 (free stats): +1.07% GO - Phase 26 (diagnostics): -0.33% NEUTRAL - Phase 27 (unified cache): +0.74% GO - Phase 28 (bg spill): NO-OP (all CORRECTNESS) - Phase 29 (pool v2): NO-OP (inactive code path) - Total: 17 atomics removed, +2.74% improvement Documentation: - PHASE29_POOL_HOTBOX_V2_AUDIT.md: Complete audit with TELEMETRY classification - PHASE29_POOL_HOTBOX_V2_STATS_RESULTS.md: Results + new lesson learned - ATOMIC_PRUNE_CUMULATIVE_SUMMARY.md: Updated with Phase 29 + new checklist - PHASE29_COMPLETE.md: Completion summary with recommendations Decision: Keep compile-out despite NO-OP - Code cleanliness (binary size reduction) - Future-proofing (ready when Pool v2 enabled) - Consistency with Phase 24-28 pattern Generated with Claude Code https://claude.com/claude-code Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
2025-12-16 06:33:41 +09:00
core/box/../box/tiny_header_hotfull_env_box.h \
Save current state before investigating TLS_SLL_HDR_RESET
2025-12-03 10:34:39 +09:00
core/box/../hakmem_tiny_integrity.h core/box/../ptr_track.h \
P0 Optimization: Shared Pool fast path with O(1) metadata lookup Performance Results: - Throughput: 2.66M ops/s → 3.8M ops/s (+43% improvement) - sp_meta_find_or_create: O(N) linear scan → O(1) direct pointer - Stage 2 metadata scan: 100% → 10-20% (80-90% reduction via hints) Core Optimizations: 1. O(1) Metadata Lookup (superslab_types.h) - Added `shared_meta` pointer field to SuperSlab struct - Eliminates O(N) linear search through ss_metadata[] array - First access: O(N) scan + cache | Subsequent: O(1) direct return 2. sp_meta_find_or_create Fast Path (hakmem_shared_pool.c) - Check cached ss->shared_meta first before linear scan - Cache pointer after successful linear scan for future lookups - Reduces 7.8% CPU hotspot to near-zero for hot paths 3. Stage 2 Class Hints Fast Path (hakmem_shared_pool_acquire.c) - Try class_hints[class_idx] FIRST before full metadata scan - Uses O(1) ss->shared_meta lookup for hint validation - __builtin_expect() for branch prediction optimization - 80-90% of acquire calls now skip full metadata scan 4. Proper Initialization (ss_allocation_box.c) - Initialize shared_meta = NULL in superslab_allocate() - Ensures correct NULL-check semantics for new SuperSlabs Additional Improvements: - Updated ptr_trace and debug ring for release build efficiency - Enhanced ENV variable documentation and analysis - Added learner_env_box.h for configuration management - Various Box optimizations for reduced overhead Thread Safety: - All atomic operations use correct memory ordering - shared_meta cached under mutex protection - Lock-free Stage 2 uses proper CAS with acquire/release semantics Testing: - Benchmark: 1M iterations, 3.8M ops/s stable - Build: Clean compile RELEASE=0 and RELEASE=1 - No crashes, memory leaks, or correctness issues Next Optimization Candidates: - P1: Per-SuperSlab free slot bitmap for O(1) slot claiming - P2: Reduce Stage 2 critical section size - P3: Page pre-faulting (MAP_POPULATE) 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-12-04 16:21:54 +09:00
core/box/../ptr_trace.h core/box/../hakmem_trace_master.h \
core/box/../hakmem_stats_master.h core/box/../box/tiny_next_ptr_box.h \
Save current state before investigating TLS_SLL_HDR_RESET
2025-12-03 10:34:39 +09:00
core/hakmem_tiny_config.h core/tiny_nextptr.h core/hakmem_build_flags.h \
core/tiny_region_id.h core/superslab/superslab_inline.h \
Fix include order in hakmem.c - move hak_kpi_util.inc.h before hak_core_init.inc.h Problem: hak_core_init.inc.h references KPI measurement variables (g_latency_histogram, g_latency_samples, g_baseline_soft_pf, etc.) but hakmem.c was including hak_kpi_util.inc.h AFTER hak_core_init.inc.h, causing undefined reference errors. Solution: Reorder includes so hak_kpi_util.inc.h (definition) comes before hak_core_init.inc.h (usage). Build result: ✅ Success (libhakmem.so 547KB, 0 errors) Minor changes: - Added extern __thread declarations for TLS SLL debug variables - Added signal handler logging for debug_dump_last_push - Improved hakmem_tiny.c structure for Phase 2 preparation 🤖 Generated with Claude Code + Task Agent Co-Authored-By: Gemini <gemini@example.com> Co-Authored-By: Claude <noreply@anthropic.com>
2025-12-03 13:28:44 +09:00
core/box/tiny_layout_box.h core/box/tiny_header_box.h \
Phase 6: promote Front FastLane (default ON)
2025-12-14 16:28:23 +09:00
core/box/tiny_layout_box.h core/box/tiny_header_write_once_env_box.h \
core/box/../tiny_debug_ring.h core/box/ss_addr_map_box.h \
core/box/../superslab/superslab_inline.h core/box/tiny_ptr_bridge_box.h \
Remove legacy redundant code after Gatekeeper Box consolidation Summary of Deletions: - Remove core/box/unified_batch_box.c (26 lines) * Legacy batch allocation logic superseded by Alloc Gatekeeper Box * unified_cache now handles allocation aggregation - Remove core/box/unified_batch_box.h (29 lines) * Header declarations for deprecated unified_batch_box module - Remove core/tiny_free_fast.inc.h (329 lines) * Legacy fast-path free implementation * Functionality consolidated into: - tiny_free_gate_box.h (Fail-Fast layer + diagnostics) - malloc_tiny_fast.h (Free path integration) - unified_cache (return to freelist) * Code path now routes through Gatekeeper Box for consistency Build System Updates: - Update Makefile * Remove unified_batch_box.o from OBJS_BASE * Remove unified_batch_box_shared.o from SHARED_OBJS * Remove unified_batch_box.o from BENCH_HAKMEM_OBJS_BASE - Update core/hakmem_tiny_phase6_wrappers_box.inc * Remove unified_batch_box references * Simplify allocation wrapper to use new Gatekeeper architecture Impact: - Removes ~385 lines of redundant/superseded code - Consolidates allocation logic through unified Gatekeeper entry points - All functionality preserved via new Box-based architecture - Simplifies codebase and reduces maintenance burden Testing: - Build verification: make clean && make RELEASE=0/1 - Smoke tests: All pass (simple_alloc, loop 10M, pool_tls) - No functional regressions Rationale: After implementing Alloc/Free Gatekeeper Boxes with Fail-Fast layers and Unified Cache type safety, the legacy separate implementations became redundant. This commit completes the architectural consolidation and simplifies the allocator codebase. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-12-04 12:55:53 +09:00
core/box/../hakmem_tiny_superslab_internal.h \
core/box/../box/ss_hot_cold_box.h \
core/box/../box/../superslab/superslab_types.h \
core/box/../box/ss_allocation_box.h core/hakmem_tiny_superslab.h \
core/box/../hakmem_debug_master.h core/box/../hakmem_shared_pool.h \
core/box/../hakmem_internal.h core/box/../tiny_region_id.h \
core/box/../hakmem_tiny_integrity.h \
core/box/../box/slab_freelist_atomic.h core/box/tiny_header_box.h \
Add TinyHeap class mask and extend routing
2025-12-07 22:49:28 +09:00
core/box/tiny_heap_env_box.h core/box/c7_hotpath_env_box.h \
Save current state before investigating TLS_SLL_HDR_RESET
2025-12-03 10:34:39 +09:00
core/box/front_gate_box.h core/hakmem_tiny.h
Phase 23 Unified Cache + PageFaultTelemetry generalization: Mid/VM page-fault bottleneck identified Summary: - Phase 23 Unified Cache: +30% improvement (Random Mixed 256B: 18.18M → 23.68M ops/s) - PageFaultTelemetry: Extended to generic buckets (C0-C7, MID, L25, SSM) - Measurement-driven decision: Mid/VM page-faults (80-100K) >> Tiny (6K) → prioritize Mid/VM optimization Phase 23 Changes: 1. Unified Cache implementation (core/front/tiny_unified_cache.{c,h}) - Direct SuperSlab carve (TLS SLL bypass) - Self-contained pop-or-refill pattern - ENV: HAKMEM_TINY_UNIFIED_CACHE=1, HAKMEM_TINY_UNIFIED_C{0-7}=128 2. Fast path pruning (tiny_alloc_fast.inc.h, tiny_free_fast_v2.inc.h) - Unified ON → direct cache access (skip all intermediate layers) - Alloc: unified_cache_pop_or_refill() → immediate fail to slow - Free: unified_cache_push() → fallback to SLL only if full PageFaultTelemetry Changes: 3. Generic bucket architecture (core/box/pagefault_telemetry_box.{c,h}) - PF_BUCKET_{C0-C7, MID, L25, SSM} for domain-specific measurement - Integration: hak_pool_try_alloc(), l25_alloc_new_run(), shared_pool_allocate_superslab_unlocked() 4. Measurement results (Random Mixed 500K / 256B): - Tiny C2-C7: 2-33 pages, high reuse (64-3.8 touches/page) - SSM: 512 pages (initialization footprint) - MID/L25: 0 (unused in this workload) - Mid/Large VM benchmarks: 80-100K page-faults (13-16x higher than Tiny) Ring Cache Enhancements: 5. Hot Ring Cache (core/front/tiny_ring_cache.{c,h}) - ENV: HAKMEM_TINY_HOT_RING_ENABLE=1, HAKMEM_TINY_HOT_RING_C{0-7}=size - Conditional compilation cleanup Documentation: 6. Analysis reports - RANDOM_MIXED_BOTTLENECK_ANALYSIS.md: Page-fault breakdown - RANDOM_MIXED_SUMMARY.md: Phase 23 summary - RING_CACHE_ACTIVATION_GUIDE.md: Ring cache usage - CURRENT_TASK.md: Updated with Phase 23 results and Phase 24 plan Next Steps (Phase 24): - Target: Mid/VM PageArena/HotSpanBox (page-fault reduction 80-100K → 30-40K) - Tiny SSM optimization deferred (low ROI, ~6K page-faults already optimal) - Expected improvement: +30-50% for Mid/Large workloads Generated with Claude Code Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 02:47:58 +09:00
core/hakmem_tiny_config.h:
core/box/tls_sll_box.h:
feat: Add ACE allocation failure tracing and debug hooks This commit introduces a comprehensive tracing mechanism for allocation failures within the Adaptive Cache Engine (ACE) component. This feature allows for precise identification of the root cause for Out-Of-Memory (OOM) issues related to ACE allocations. Key changes include: - **ACE Tracing Implementation**: - Added environment variable to enable/disable detailed logging of allocation failures. - Instrumented , , and to distinguish between "Threshold" (size class mismatch), "Exhaustion" (pool depletion), and "MapFail" (OS memory allocation failure). - **Build System Fixes**: - Corrected to ensure is properly linked into , resolving an error. - **LD_PRELOAD Wrapper Adjustments**: - Investigated and understood the wrapper's behavior under , particularly its interaction with and checks. - Enabled debugging flags for environment to prevent unintended fallbacks to 's for non-tiny allocations, allowing comprehensive testing of the allocator. - **Debugging & Verification**: - Introduced temporary verbose logging to pinpoint execution flow issues within interception and routing. These temporary logs have been removed. - Created to facilitate testing of the tracing features. This feature will significantly aid in diagnosing and resolving allocation-related OOM issues in by providing clear insights into the failure pathways.
2025-12-01 16:37:59 +09:00
core/box/../hakmem_internal.h:
core/box/../hakmem.h:
core/box/../hakmem_build_flags.h:
core/box/../hakmem_config.h:
core/box/../hakmem_features.h:
core/box/../hakmem_sys.h:
core/box/../hakmem_whale.h:
core/box/../box/ptr_type_box.h:
Phase 23 Unified Cache + PageFaultTelemetry generalization: Mid/VM page-fault bottleneck identified Summary: - Phase 23 Unified Cache: +30% improvement (Random Mixed 256B: 18.18M → 23.68M ops/s) - PageFaultTelemetry: Extended to generic buckets (C0-C7, MID, L25, SSM) - Measurement-driven decision: Mid/VM page-faults (80-100K) >> Tiny (6K) → prioritize Mid/VM optimization Phase 23 Changes: 1. Unified Cache implementation (core/front/tiny_unified_cache.{c,h}) - Direct SuperSlab carve (TLS SLL bypass) - Self-contained pop-or-refill pattern - ENV: HAKMEM_TINY_UNIFIED_CACHE=1, HAKMEM_TINY_UNIFIED_C{0-7}=128 2. Fast path pruning (tiny_alloc_fast.inc.h, tiny_free_fast_v2.inc.h) - Unified ON → direct cache access (skip all intermediate layers) - Alloc: unified_cache_pop_or_refill() → immediate fail to slow - Free: unified_cache_push() → fallback to SLL only if full PageFaultTelemetry Changes: 3. Generic bucket architecture (core/box/pagefault_telemetry_box.{c,h}) - PF_BUCKET_{C0-C7, MID, L25, SSM} for domain-specific measurement - Integration: hak_pool_try_alloc(), l25_alloc_new_run(), shared_pool_allocate_superslab_unlocked() 4. Measurement results (Random Mixed 500K / 256B): - Tiny C2-C7: 2-33 pages, high reuse (64-3.8 touches/page) - SSM: 512 pages (initialization footprint) - MID/L25: 0 (unused in this workload) - Mid/Large VM benchmarks: 80-100K page-faults (13-16x higher than Tiny) Ring Cache Enhancements: 5. Hot Ring Cache (core/front/tiny_ring_cache.{c,h}) - ENV: HAKMEM_TINY_HOT_RING_ENABLE=1, HAKMEM_TINY_HOT_RING_C{0-7}=size - Conditional compilation cleanup Documentation: 6. Analysis reports - RANDOM_MIXED_BOTTLENECK_ANALYSIS.md: Page-fault breakdown - RANDOM_MIXED_SUMMARY.md: Phase 23 summary - RING_CACHE_ACTIVATION_GUIDE.md: Ring cache usage - CURRENT_TASK.md: Updated with Phase 23 results and Phase 24 plan Next Steps (Phase 24): - Target: Mid/VM PageArena/HotSpanBox (page-fault reduction 80-100K → 30-40K) - Tiny SSM optimization deferred (low ROI, ~6K page-faults already optimal) - Expected improvement: +30-50% for Mid/Large workloads Generated with Claude Code Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 02:47:58 +09:00
core/box/../hakmem_tiny_config.h:
core/box/../hakmem_build_flags.h:
Cleanup: Consolidate debug ENV vars to HAKMEM_DEBUG_LEVEL Integrated 4 new debug environment variables added during bug fixes into the existing unified HAKMEM_DEBUG_LEVEL system (expanded to 0-5 levels). Changes: 1. Expanded HAKMEM_DEBUG_LEVEL from 0-3 to 0-5 levels: - 0 = OFF (production) - 1 = ERROR (critical errors) - 2 = WARN (warnings) - 3 = INFO (allocation paths, header validation, stats) - 4 = DEBUG (guard instrumentation, failfast) - 5 = TRACE (verbose tracing) 2. Integrated 4 environment variables: - HAKMEM_ALLOC_PATH_TRACE → HAKMEM_DEBUG_LEVEL >= 3 (INFO) - HAKMEM_TINY_SLL_VALIDATE_HDR → HAKMEM_DEBUG_LEVEL >= 3 (INFO) - HAKMEM_TINY_REFILL_FAILFAST → HAKMEM_DEBUG_LEVEL >= 4 (DEBUG) - HAKMEM_TINY_GUARD → HAKMEM_DEBUG_LEVEL >= 4 (DEBUG) 3. Kept 2 special-purpose variables (fine-grained control): - HAKMEM_TINY_GUARD_CLASS (target class for guard) - HAKMEM_TINY_GUARD_MAX (max guard events) 4. Backward compatibility: - Legacy ENV vars still work via hak_debug_check_level() - New code uses unified system - No behavior changes for existing users Updated files: - core/hakmem_debug_master.h (level 0-5 expansion) - core/hakmem_tiny_superslab_internal.h (alloc path trace) - core/box/tls_sll_box.h (header validation) - core/tiny_failfast.c (failfast level) - core/tiny_refill_opt.h (failfast guard) - core/hakmem_tiny_ace_guard_box.inc (guard enable) - core/hakmem_tiny.c (include hakmem_debug_master.h) Impact: - Simpler debug control: HAKMEM_DEBUG_LEVEL=3 instead of 4 separate ENVs - Easier to discover/use - Consistent debug levels across codebase - Reduces ENV variable proliferation (43+ vars surveyed) Future work: - Consolidate remaining 39+ debug variables (documented in survey) - Gradual migration over 2-3 releases 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-29 06:57:03 +09:00
core/box/../hakmem_debug_master.h:
Phase 23 Unified Cache + PageFaultTelemetry generalization: Mid/VM page-fault bottleneck identified Summary: - Phase 23 Unified Cache: +30% improvement (Random Mixed 256B: 18.18M → 23.68M ops/s) - PageFaultTelemetry: Extended to generic buckets (C0-C7, MID, L25, SSM) - Measurement-driven decision: Mid/VM page-faults (80-100K) >> Tiny (6K) → prioritize Mid/VM optimization Phase 23 Changes: 1. Unified Cache implementation (core/front/tiny_unified_cache.{c,h}) - Direct SuperSlab carve (TLS SLL bypass) - Self-contained pop-or-refill pattern - ENV: HAKMEM_TINY_UNIFIED_CACHE=1, HAKMEM_TINY_UNIFIED_C{0-7}=128 2. Fast path pruning (tiny_alloc_fast.inc.h, tiny_free_fast_v2.inc.h) - Unified ON → direct cache access (skip all intermediate layers) - Alloc: unified_cache_pop_or_refill() → immediate fail to slow - Free: unified_cache_push() → fallback to SLL only if full PageFaultTelemetry Changes: 3. Generic bucket architecture (core/box/pagefault_telemetry_box.{c,h}) - PF_BUCKET_{C0-C7, MID, L25, SSM} for domain-specific measurement - Integration: hak_pool_try_alloc(), l25_alloc_new_run(), shared_pool_allocate_superslab_unlocked() 4. Measurement results (Random Mixed 500K / 256B): - Tiny C2-C7: 2-33 pages, high reuse (64-3.8 touches/page) - SSM: 512 pages (initialization footprint) - MID/L25: 0 (unused in this workload) - Mid/Large VM benchmarks: 80-100K page-faults (13-16x higher than Tiny) Ring Cache Enhancements: 5. Hot Ring Cache (core/front/tiny_ring_cache.{c,h}) - ENV: HAKMEM_TINY_HOT_RING_ENABLE=1, HAKMEM_TINY_HOT_RING_C{0-7}=size - Conditional compilation cleanup Documentation: 6. Analysis reports - RANDOM_MIXED_BOTTLENECK_ANALYSIS.md: Page-fault breakdown - RANDOM_MIXED_SUMMARY.md: Phase 23 summary - RING_CACHE_ACTIVATION_GUIDE.md: Ring cache usage - CURRENT_TASK.md: Updated with Phase 23 results and Phase 24 plan Next Steps (Phase 24): - Target: Mid/VM PageArena/HotSpanBox (page-fault reduction 80-100K → 30-40K) - Tiny SSM optimization deferred (low ROI, ~6K page-faults already optimal) - Expected improvement: +30-50% for Mid/Large workloads Generated with Claude Code Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 02:47:58 +09:00
core/box/../tiny_remote.h:
core/box/../tiny_region_id.h:
core/box/../tiny_box_geometry.h:
core/box/../hakmem_tiny_superslab_constants.h:
core/box/../hakmem_tiny_config.h:
core/box/../ptr_track.h:
Code Cleanup: Remove false positives, redundant validations, and reduce verbose logging Following the C7 stride upgrade fix (commit 23c0d9541), this commit performs comprehensive cleanup to improve code quality and reduce debug noise. ## Changes ### 1. Disable False Positive Checks (tiny_nextptr.h) - **Disabled**: NXT_MISALIGN validation block with `#if 0` - **Reason**: Produces false positives due to slab base offsets (2048, 65536) not being stride-aligned, causing all blocks to appear "misaligned" - **TODO**: Reimplement to check stride DISTANCE between consecutive blocks instead of absolute alignment to stride boundaries ### 2. Remove Redundant Geometry Validations **hakmem_tiny_refill_p0.inc.h (P0 batch refill)** - Removed 25-line CARVE_GEOMETRY_FIX validation block - Replaced with NOTE explaining redundancy - **Reason**: Stride table is now correct in tiny_block_stride_for_class(), defense-in-depth validation adds overhead without benefit **ss_legacy_backend_box.c (legacy backend)** - Removed 18-line LEGACY_FIX_GEOMETRY validation block - Replaced with NOTE explaining redundancy - **Reason**: Shared_pool validates geometry at acquisition time ### 3. Reduce Verbose Logging **hakmem_shared_pool.c (sp_fix_geometry_if_needed)** - Made SP_FIX_GEOMETRY logging conditional on `!HAKMEM_BUILD_RELEASE` - **Reason**: Geometry fixes are expected during stride upgrades, no need to log in release builds ### 4. Verification - Build: ✅ Successful (LTO warnings expected) - Test: ✅ 10K iterations (1.87M ops/s, no crashes) - NXT_MISALIGN false positives: ✅ Eliminated ## Files Modified - core/tiny_nextptr.h - Disabled false positive NXT_MISALIGN check - core/hakmem_tiny_refill_p0.inc.h - Removed redundant CARVE validation - core/box/ss_legacy_backend_box.c - Removed redundant LEGACY validation - core/hakmem_shared_pool.c - Made SP_FIX_GEOMETRY logging debug-only ## Impact - **Code clarity**: Removed 43 lines of redundant validation code - **Debug noise**: Reduced false positive diagnostics - **Performance**: Eliminated overhead from redundant geometry checks - **Maintainability**: Single source of truth for geometry validation 🧹 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-21 23:00:24 +09:00
core/box/../hakmem_super_registry.h:
core/box/../hakmem_tiny_superslab.h:
core/box/../superslab/superslab_types.h:
core/hakmem_tiny_superslab_constants.h:
core/box/../superslab/superslab_inline.h:
core/box/../superslab/superslab_types.h:
Remove dead code: UltraHot, RingCache, FrontC23, Class5 Hotpath (cherry-picked from 225b6fcc7, conflicts resolved)
2025-11-26 12:33:49 +09:00
core/box/../superslab/../tiny_box_geometry.h:
Code Cleanup: Remove false positives, redundant validations, and reduce verbose logging Following the C7 stride upgrade fix (commit 23c0d9541), this commit performs comprehensive cleanup to improve code quality and reduce debug noise. ## Changes ### 1. Disable False Positive Checks (tiny_nextptr.h) - **Disabled**: NXT_MISALIGN validation block with `#if 0` - **Reason**: Produces false positives due to slab base offsets (2048, 65536) not being stride-aligned, causing all blocks to appear "misaligned" - **TODO**: Reimplement to check stride DISTANCE between consecutive blocks instead of absolute alignment to stride boundaries ### 2. Remove Redundant Geometry Validations **hakmem_tiny_refill_p0.inc.h (P0 batch refill)** - Removed 25-line CARVE_GEOMETRY_FIX validation block - Replaced with NOTE explaining redundancy - **Reason**: Stride table is now correct in tiny_block_stride_for_class(), defense-in-depth validation adds overhead without benefit **ss_legacy_backend_box.c (legacy backend)** - Removed 18-line LEGACY_FIX_GEOMETRY validation block - Replaced with NOTE explaining redundancy - **Reason**: Shared_pool validates geometry at acquisition time ### 3. Reduce Verbose Logging **hakmem_shared_pool.c (sp_fix_geometry_if_needed)** - Made SP_FIX_GEOMETRY logging conditional on `!HAKMEM_BUILD_RELEASE` - **Reason**: Geometry fixes are expected during stride upgrades, no need to log in release builds ### 4. Verification - Build: ✅ Successful (LTO warnings expected) - Test: ✅ 10K iterations (1.87M ops/s, no crashes) - NXT_MISALIGN false positives: ✅ Eliminated ## Files Modified - core/tiny_nextptr.h - Disabled false positive NXT_MISALIGN check - core/hakmem_tiny_refill_p0.inc.h - Removed redundant CARVE validation - core/box/ss_legacy_backend_box.c - Removed redundant LEGACY validation - core/hakmem_shared_pool.c - Made SP_FIX_GEOMETRY logging debug-only ## Impact - **Code clarity**: Removed 43 lines of redundant validation code - **Debug noise**: Reduced false positive diagnostics - **Performance**: Eliminated overhead from redundant geometry checks - **Maintainability**: Single source of truth for geometry validation 🧹 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-21 23:00:24 +09:00
core/box/../tiny_debug_ring.h:
core/box/../tiny_remote.h:
Refactor: Clean up SuperSlab shared pool code - Removed unused/disabled L0 cache implementation from core/hakmem_shared_pool.c. - Deleted stale backup file core/hakmem_tiny_superslab.c.bak. - Removed untracked and obsolete shared_pool source files.
2025-11-30 15:27:53 +09:00
core/box/../box/ss_addr_map_box.h:
core/box/../box/../hakmem_build_flags.h:
Boxify superslab registry, add bench profile, and document C7 hotpath experiments
2025-12-07 03:12:27 +09:00
core/box/../box/super_reg_box.h:
Phase 3 D2: Wrapper Env Cache - [DECISION: NO-GO] Target: Reduce wrapper_env_cfg() overhead in malloc/free hot path - Strategy: Cache wrapper env configuration pointer in TLS - Approach: Fast pointer cache (TLS caches const wrapper_env_cfg_t*) Implementation: - core/box/wrapper_env_cache_env_box.h: ENV gate (HAKMEM_WRAP_ENV_CACHE) - core/box/wrapper_env_cache_box.h: TLS cache layer (wrapper_env_cfg_fast) - core/box/hak_wrappers.inc.h: Integration into malloc/free hot paths - ENV gate: HAKMEM_WRAP_ENV_CACHE=0/1 (default OFF) A/B Test Results (Mixed, 10-run, 20M iters): - Baseline (D2=0): 46.52M ops/s (avg), 46.47M ops/s (median) - Optimized (D2=1): 45.85M ops/s (avg), 45.98M ops/s (median) - Improvement: avg -1.44%, median -1.05% (DECISION: NO-GO) Analysis: - Regression cause: TLS cache adds overhead (branch + TLS access) - wrapper_env_cfg() is already minimal (pointer return after simple check) - Adding TLS caching layer makes it worse, not better - Branch prediction penalty outweighs any potential savings Cumulative Phase 2-3: - B3: +2.89%, B4: +1.47%, C3: +2.20% - D1: +1.06% (opt-in), D2: -1.44% (NO-GO) - Total: ~7.2% (excluding D2) Decision: FREEZE as research box (default OFF, regression confirmed) 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude Haiku 4.5 <noreply@anthropic.com>
2025-12-13 22:03:27 +09:00
core/box/../box/ss_pt_lookup_box.h:
core/box/../box/ss_pt_types_box.h:
core/box/../box/ss_pt_env_box.h:
core/box/../box/ss_pt_env_box.h:
Phase 23 Unified Cache + PageFaultTelemetry generalization: Mid/VM page-fault bottleneck identified Summary: - Phase 23 Unified Cache: +30% improvement (Random Mixed 256B: 18.18M → 23.68M ops/s) - PageFaultTelemetry: Extended to generic buckets (C0-C7, MID, L25, SSM) - Measurement-driven decision: Mid/VM page-faults (80-100K) >> Tiny (6K) → prioritize Mid/VM optimization Phase 23 Changes: 1. Unified Cache implementation (core/front/tiny_unified_cache.{c,h}) - Direct SuperSlab carve (TLS SLL bypass) - Self-contained pop-or-refill pattern - ENV: HAKMEM_TINY_UNIFIED_CACHE=1, HAKMEM_TINY_UNIFIED_C{0-7}=128 2. Fast path pruning (tiny_alloc_fast.inc.h, tiny_free_fast_v2.inc.h) - Unified ON → direct cache access (skip all intermediate layers) - Alloc: unified_cache_pop_or_refill() → immediate fail to slow - Free: unified_cache_push() → fallback to SLL only if full PageFaultTelemetry Changes: 3. Generic bucket architecture (core/box/pagefault_telemetry_box.{c,h}) - PF_BUCKET_{C0-C7, MID, L25, SSM} for domain-specific measurement - Integration: hak_pool_try_alloc(), l25_alloc_new_run(), shared_pool_allocate_superslab_unlocked() 4. Measurement results (Random Mixed 500K / 256B): - Tiny C2-C7: 2-33 pages, high reuse (64-3.8 touches/page) - SSM: 512 pages (initialization footprint) - MID/L25: 0 (unused in this workload) - Mid/Large VM benchmarks: 80-100K page-faults (13-16x higher than Tiny) Ring Cache Enhancements: 5. Hot Ring Cache (core/front/tiny_ring_cache.{c,h}) - ENV: HAKMEM_TINY_HOT_RING_ENABLE=1, HAKMEM_TINY_HOT_RING_C{0-7}=size - Conditional compilation cleanup Documentation: 6. Analysis reports - RANDOM_MIXED_BOTTLENECK_ANALYSIS.md: Page-fault breakdown - RANDOM_MIXED_SUMMARY.md: Phase 23 summary - RING_CACHE_ACTIVATION_GUIDE.md: Ring cache usage - CURRENT_TASK.md: Updated with Phase 23 results and Phase 24 plan Next Steps (Phase 24): - Target: Mid/VM PageArena/HotSpanBox (page-fault reduction 80-100K → 30-40K) - Tiny SSM optimization deferred (low ROI, ~6K page-faults already optimal) - Expected improvement: +30-50% for Mid/Large workloads Generated with Claude Code Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 02:47:58 +09:00
core/box/../hakmem_tiny.h:
core/box/../hakmem_trace.h:
core/box/../hakmem_tiny_mini_mag.h:
Save current state before investigating TLS_SLL_HDR_RESET
2025-12-03 10:34:39 +09:00
core/box/../box/hak_lane_classify.inc.h:
Cleanup: Add tiny_debug_api.h to eliminate guard/failfast implicit warnings Created central header for debug instrumentation API to fix implicit function declaration warnings across the codebase. Changes: 1. Created core/tiny_debug_api.h - Declares guard system API (3 functions) - Declares failfast debugging API (3 functions) - Uses forward declarations for SuperSlab/TinySlabMeta 2. Updated 3 files to include tiny_debug_api.h: - core/tiny_region_id.h (removed inline externs) - core/hakmem_tiny_tls_ops.h - core/tiny_superslab_alloc.inc.h Warnings eliminated (6 of 11 total): ✅ tiny_guard_is_enabled() ✅ tiny_guard_on_alloc() ✅ tiny_guard_on_invalid() ✅ tiny_failfast_log() ✅ tiny_failfast_abort_ptr() ✅ tiny_refill_failfast_level() Remaining warnings (deferred to P1): - ss_active_add (2 occurrences) - expand_superslab_head - hkm_ace_set_tls_capacity - smallmid_backend_free Impact: - Cleaner build output - Better type safety for debug functions - No behavior changes 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-29 06:47:13 +09:00
core/box/../tiny_debug_api.h:
Phase 29: Pool Hotbox v2 Stats Prune - NO-OP (infrastructure ready) Target: g_pool_hotbox_v2_stats atomics (12 total) in Pool v2 Result: 0.00% impact (code path inactive by default, ENV-gated) Verdict: NO-OP - Maintain compile-out for future-proofing Audit Results: - Classification: 12/12 TELEMETRY (100% observational) - Counters: alloc_calls, alloc_fast, alloc_refill, alloc_refill_fail, alloc_fallback_v1, free_calls, free_fast, free_fallback_v1, page_of_fail_* (4 failure counters) - Verification: All stats/logging only, zero flow control usage - Phase 28 lesson applied: Traced all usages, confirmed no CORRECTNESS Key Finding: Pool v2 OFF by default - Requires HAKMEM_POOL_V2_ENABLED=1 to activate - Benchmark never executes Pool v2 code paths - Compile-out has zero performance impact (code never runs) Implementation (future-ready): - Added HAKMEM_POOL_HOTBOX_V2_STATS_COMPILED (default: 0) - Wrapped 13 atomic write sites in core/hakmem_pool.c - Pattern: #if HAKMEM_POOL_HOTBOX_V2_STATS_COMPILED ... #endif - Expected impact if Pool v2 enabled: +0.3~0.8% (HOT+WARM atomics) A/B Test Results: - Baseline (COMPILED=0): 52.98 M ops/s (±0.43M, 0.81% stdev) - Research (COMPILED=1): 53.31 M ops/s (±0.80M, 1.50% stdev) - Delta: -0.62% (noise, not real effect - code path not active) Critical Lesson Learned (NEW): Phase 29 revealed ENV-gated features can appear on hot paths but never execute. Updated audit checklist: 1. Classify atomics (CORRECTNESS vs TELEMETRY) 2. Verify no flow control usage 3. NEW: Verify code path is ACTIVE in benchmark (check ENV gates) 4. Implement compile-out 5. A/B test Verification methods added to documentation: - rg "getenv.*FEATURE" to check ENV gates - perf record/report to verify execution - Debug printf for quick validation Cumulative Progress (Phase 24-29): - Phase 24 (class stats): +0.93% GO - Phase 25 (free stats): +1.07% GO - Phase 26 (diagnostics): -0.33% NEUTRAL - Phase 27 (unified cache): +0.74% GO - Phase 28 (bg spill): NO-OP (all CORRECTNESS) - Phase 29 (pool v2): NO-OP (inactive code path) - Total: 17 atomics removed, +2.74% improvement Documentation: - PHASE29_POOL_HOTBOX_V2_AUDIT.md: Complete audit with TELEMETRY classification - PHASE29_POOL_HOTBOX_V2_STATS_RESULTS.md: Results + new lesson learned - ATOMIC_PRUNE_CUMULATIVE_SUMMARY.md: Updated with Phase 29 + new checklist - PHASE29_COMPLETE.md: Completion summary with recommendations Decision: Keep compile-out despite NO-OP - Code cleanliness (binary size reduction) - Future-proofing (ready when Pool v2 enabled) - Consistency with Phase 24-28 pattern Generated with Claude Code https://claude.com/claude-code Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
2025-12-16 06:33:41 +09:00
core/box/../box/tiny_header_hotfull_env_box.h:
ENV Cleanup Step 8: Gate HAKMEM_SUPER_LOOKUP_DEBUG in header Gate HAKMEM_SUPER_LOOKUP_DEBUG environment variable behind #if !HAKMEM_BUILD_RELEASE in hakmem_super_registry.h inline function. Changes: - Wrap s_dbg initialization in conditional compilation - Release builds use constant s_dbg = 0 for complete elimination - Debug logging in hak_super_lookup() now fully compiled out in release Performance: 30.3M ops/s Larson (stable, no regression) 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-28 01:45:45 +09:00
core/box/../hakmem_tiny_integrity.h:
Phase 23 Unified Cache + PageFaultTelemetry generalization: Mid/VM page-fault bottleneck identified Summary: - Phase 23 Unified Cache: +30% improvement (Random Mixed 256B: 18.18M → 23.68M ops/s) - PageFaultTelemetry: Extended to generic buckets (C0-C7, MID, L25, SSM) - Measurement-driven decision: Mid/VM page-faults (80-100K) >> Tiny (6K) → prioritize Mid/VM optimization Phase 23 Changes: 1. Unified Cache implementation (core/front/tiny_unified_cache.{c,h}) - Direct SuperSlab carve (TLS SLL bypass) - Self-contained pop-or-refill pattern - ENV: HAKMEM_TINY_UNIFIED_CACHE=1, HAKMEM_TINY_UNIFIED_C{0-7}=128 2. Fast path pruning (tiny_alloc_fast.inc.h, tiny_free_fast_v2.inc.h) - Unified ON → direct cache access (skip all intermediate layers) - Alloc: unified_cache_pop_or_refill() → immediate fail to slow - Free: unified_cache_push() → fallback to SLL only if full PageFaultTelemetry Changes: 3. Generic bucket architecture (core/box/pagefault_telemetry_box.{c,h}) - PF_BUCKET_{C0-C7, MID, L25, SSM} for domain-specific measurement - Integration: hak_pool_try_alloc(), l25_alloc_new_run(), shared_pool_allocate_superslab_unlocked() 4. Measurement results (Random Mixed 500K / 256B): - Tiny C2-C7: 2-33 pages, high reuse (64-3.8 touches/page) - SSM: 512 pages (initialization footprint) - MID/L25: 0 (unused in this workload) - Mid/Large VM benchmarks: 80-100K page-faults (13-16x higher than Tiny) Ring Cache Enhancements: 5. Hot Ring Cache (core/front/tiny_ring_cache.{c,h}) - ENV: HAKMEM_TINY_HOT_RING_ENABLE=1, HAKMEM_TINY_HOT_RING_C{0-7}=size - Conditional compilation cleanup Documentation: 6. Analysis reports - RANDOM_MIXED_BOTTLENECK_ANALYSIS.md: Page-fault breakdown - RANDOM_MIXED_SUMMARY.md: Phase 23 summary - RING_CACHE_ACTIVATION_GUIDE.md: Ring cache usage - CURRENT_TASK.md: Updated with Phase 23 results and Phase 24 plan Next Steps (Phase 24): - Target: Mid/VM PageArena/HotSpanBox (page-fault reduction 80-100K → 30-40K) - Tiny SSM optimization deferred (low ROI, ~6K page-faults already optimal) - Expected improvement: +30-50% for Mid/Large workloads Generated with Claude Code Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 02:47:58 +09:00
core/box/../ptr_track.h:
core/box/../ptr_trace.h:
P0 Optimization: Shared Pool fast path with O(1) metadata lookup Performance Results: - Throughput: 2.66M ops/s → 3.8M ops/s (+43% improvement) - sp_meta_find_or_create: O(N) linear scan → O(1) direct pointer - Stage 2 metadata scan: 100% → 10-20% (80-90% reduction via hints) Core Optimizations: 1. O(1) Metadata Lookup (superslab_types.h) - Added `shared_meta` pointer field to SuperSlab struct - Eliminates O(N) linear search through ss_metadata[] array - First access: O(N) scan + cache | Subsequent: O(1) direct return 2. sp_meta_find_or_create Fast Path (hakmem_shared_pool.c) - Check cached ss->shared_meta first before linear scan - Cache pointer after successful linear scan for future lookups - Reduces 7.8% CPU hotspot to near-zero for hot paths 3. Stage 2 Class Hints Fast Path (hakmem_shared_pool_acquire.c) - Try class_hints[class_idx] FIRST before full metadata scan - Uses O(1) ss->shared_meta lookup for hint validation - __builtin_expect() for branch prediction optimization - 80-90% of acquire calls now skip full metadata scan 4. Proper Initialization (ss_allocation_box.c) - Initialize shared_meta = NULL in superslab_allocate() - Ensures correct NULL-check semantics for new SuperSlabs Additional Improvements: - Updated ptr_trace and debug ring for release build efficiency - Enhanced ENV variable documentation and analysis - Added learner_env_box.h for configuration management - Various Box optimizations for reduced overhead Thread Safety: - All atomic operations use correct memory ordering - shared_meta cached under mutex protection - Lock-free Stage 2 uses proper CAS with acquire/release semantics Testing: - Benchmark: 1M iterations, 3.8M ops/s stable - Build: Clean compile RELEASE=0 and RELEASE=1 - No crashes, memory leaks, or correctness issues Next Optimization Candidates: - P1: Per-SuperSlab free slot bitmap for O(1) slot claiming - P2: Reduce Stage 2 critical section size - P3: Page pre-faulting (MAP_POPULATE) 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-12-04 16:21:54 +09:00
core/box/../hakmem_trace_master.h:
core/box/../hakmem_stats_master.h:
Phase 23 Unified Cache + PageFaultTelemetry generalization: Mid/VM page-fault bottleneck identified Summary: - Phase 23 Unified Cache: +30% improvement (Random Mixed 256B: 18.18M → 23.68M ops/s) - PageFaultTelemetry: Extended to generic buckets (C0-C7, MID, L25, SSM) - Measurement-driven decision: Mid/VM page-faults (80-100K) >> Tiny (6K) → prioritize Mid/VM optimization Phase 23 Changes: 1. Unified Cache implementation (core/front/tiny_unified_cache.{c,h}) - Direct SuperSlab carve (TLS SLL bypass) - Self-contained pop-or-refill pattern - ENV: HAKMEM_TINY_UNIFIED_CACHE=1, HAKMEM_TINY_UNIFIED_C{0-7}=128 2. Fast path pruning (tiny_alloc_fast.inc.h, tiny_free_fast_v2.inc.h) - Unified ON → direct cache access (skip all intermediate layers) - Alloc: unified_cache_pop_or_refill() → immediate fail to slow - Free: unified_cache_push() → fallback to SLL only if full PageFaultTelemetry Changes: 3. Generic bucket architecture (core/box/pagefault_telemetry_box.{c,h}) - PF_BUCKET_{C0-C7, MID, L25, SSM} for domain-specific measurement - Integration: hak_pool_try_alloc(), l25_alloc_new_run(), shared_pool_allocate_superslab_unlocked() 4. Measurement results (Random Mixed 500K / 256B): - Tiny C2-C7: 2-33 pages, high reuse (64-3.8 touches/page) - SSM: 512 pages (initialization footprint) - MID/L25: 0 (unused in this workload) - Mid/Large VM benchmarks: 80-100K page-faults (13-16x higher than Tiny) Ring Cache Enhancements: 5. Hot Ring Cache (core/front/tiny_ring_cache.{c,h}) - ENV: HAKMEM_TINY_HOT_RING_ENABLE=1, HAKMEM_TINY_HOT_RING_C{0-7}=size - Conditional compilation cleanup Documentation: 6. Analysis reports - RANDOM_MIXED_BOTTLENECK_ANALYSIS.md: Page-fault breakdown - RANDOM_MIXED_SUMMARY.md: Phase 23 summary - RING_CACHE_ACTIVATION_GUIDE.md: Ring cache usage - CURRENT_TASK.md: Updated with Phase 23 results and Phase 24 plan Next Steps (Phase 24): - Target: Mid/VM PageArena/HotSpanBox (page-fault reduction 80-100K → 30-40K) - Tiny SSM optimization deferred (low ROI, ~6K page-faults already optimal) - Expected improvement: +30-50% for Mid/Large workloads Generated with Claude Code Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 02:47:58 +09:00
core/box/../box/tiny_next_ptr_box.h:
core/hakmem_tiny_config.h:
core/tiny_nextptr.h:
core/hakmem_build_flags.h:
Code Cleanup: Remove false positives, redundant validations, and reduce verbose logging Following the C7 stride upgrade fix (commit 23c0d9541), this commit performs comprehensive cleanup to improve code quality and reduce debug noise. ## Changes ### 1. Disable False Positive Checks (tiny_nextptr.h) - **Disabled**: NXT_MISALIGN validation block with `#if 0` - **Reason**: Produces false positives due to slab base offsets (2048, 65536) not being stride-aligned, causing all blocks to appear "misaligned" - **TODO**: Reimplement to check stride DISTANCE between consecutive blocks instead of absolute alignment to stride boundaries ### 2. Remove Redundant Geometry Validations **hakmem_tiny_refill_p0.inc.h (P0 batch refill)** - Removed 25-line CARVE_GEOMETRY_FIX validation block - Replaced with NOTE explaining redundancy - **Reason**: Stride table is now correct in tiny_block_stride_for_class(), defense-in-depth validation adds overhead without benefit **ss_legacy_backend_box.c (legacy backend)** - Removed 18-line LEGACY_FIX_GEOMETRY validation block - Replaced with NOTE explaining redundancy - **Reason**: Shared_pool validates geometry at acquisition time ### 3. Reduce Verbose Logging **hakmem_shared_pool.c (sp_fix_geometry_if_needed)** - Made SP_FIX_GEOMETRY logging conditional on `!HAKMEM_BUILD_RELEASE` - **Reason**: Geometry fixes are expected during stride upgrades, no need to log in release builds ### 4. Verification - Build: ✅ Successful (LTO warnings expected) - Test: ✅ 10K iterations (1.87M ops/s, no crashes) - NXT_MISALIGN false positives: ✅ Eliminated ## Files Modified - core/tiny_nextptr.h - Disabled false positive NXT_MISALIGN check - core/hakmem_tiny_refill_p0.inc.h - Removed redundant CARVE validation - core/box/ss_legacy_backend_box.c - Removed redundant LEGACY validation - core/hakmem_shared_pool.c - Made SP_FIX_GEOMETRY logging debug-only ## Impact - **Code clarity**: Removed 43 lines of redundant validation code - **Debug noise**: Reduced false positive diagnostics - **Performance**: Eliminated overhead from redundant geometry checks - **Maintainability**: Single source of truth for geometry validation 🧹 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-21 23:00:24 +09:00
core/tiny_region_id.h:
core/superslab/superslab_inline.h:
Fix include order in hakmem.c - move hak_kpi_util.inc.h before hak_core_init.inc.h Problem: hak_core_init.inc.h references KPI measurement variables (g_latency_histogram, g_latency_samples, g_baseline_soft_pf, etc.) but hakmem.c was including hak_kpi_util.inc.h AFTER hak_core_init.inc.h, causing undefined reference errors. Solution: Reorder includes so hak_kpi_util.inc.h (definition) comes before hak_core_init.inc.h (usage). Build result: ✅ Success (libhakmem.so 547KB, 0 errors) Minor changes: - Added extern __thread declarations for TLS SLL debug variables - Added signal handler logging for debug_dump_last_push - Improved hakmem_tiny.c structure for Phase 2 preparation 🤖 Generated with Claude Code + Task Agent Co-Authored-By: Gemini <gemini@example.com> Co-Authored-By: Claude <noreply@anthropic.com>
2025-12-03 13:28:44 +09:00
core/box/tiny_layout_box.h:
core/box/tiny_header_box.h:
core/box/tiny_layout_box.h:
Phase 6: promote Front FastLane (default ON)
2025-12-14 16:28:23 +09:00
core/box/tiny_header_write_once_env_box.h:
Phase 23 Unified Cache + PageFaultTelemetry generalization: Mid/VM page-fault bottleneck identified Summary: - Phase 23 Unified Cache: +30% improvement (Random Mixed 256B: 18.18M → 23.68M ops/s) - PageFaultTelemetry: Extended to generic buckets (C0-C7, MID, L25, SSM) - Measurement-driven decision: Mid/VM page-faults (80-100K) >> Tiny (6K) → prioritize Mid/VM optimization Phase 23 Changes: 1. Unified Cache implementation (core/front/tiny_unified_cache.{c,h}) - Direct SuperSlab carve (TLS SLL bypass) - Self-contained pop-or-refill pattern - ENV: HAKMEM_TINY_UNIFIED_CACHE=1, HAKMEM_TINY_UNIFIED_C{0-7}=128 2. Fast path pruning (tiny_alloc_fast.inc.h, tiny_free_fast_v2.inc.h) - Unified ON → direct cache access (skip all intermediate layers) - Alloc: unified_cache_pop_or_refill() → immediate fail to slow - Free: unified_cache_push() → fallback to SLL only if full PageFaultTelemetry Changes: 3. Generic bucket architecture (core/box/pagefault_telemetry_box.{c,h}) - PF_BUCKET_{C0-C7, MID, L25, SSM} for domain-specific measurement - Integration: hak_pool_try_alloc(), l25_alloc_new_run(), shared_pool_allocate_superslab_unlocked() 4. Measurement results (Random Mixed 500K / 256B): - Tiny C2-C7: 2-33 pages, high reuse (64-3.8 touches/page) - SSM: 512 pages (initialization footprint) - MID/L25: 0 (unused in this workload) - Mid/Large VM benchmarks: 80-100K page-faults (13-16x higher than Tiny) Ring Cache Enhancements: 5. Hot Ring Cache (core/front/tiny_ring_cache.{c,h}) - ENV: HAKMEM_TINY_HOT_RING_ENABLE=1, HAKMEM_TINY_HOT_RING_C{0-7}=size - Conditional compilation cleanup Documentation: 6. Analysis reports - RANDOM_MIXED_BOTTLENECK_ANALYSIS.md: Page-fault breakdown - RANDOM_MIXED_SUMMARY.md: Phase 23 summary - RING_CACHE_ACTIVATION_GUIDE.md: Ring cache usage - CURRENT_TASK.md: Updated with Phase 23 results and Phase 24 plan Next Steps (Phase 24): - Target: Mid/VM PageArena/HotSpanBox (page-fault reduction 80-100K → 30-40K) - Tiny SSM optimization deferred (low ROI, ~6K page-faults already optimal) - Expected improvement: +30-50% for Mid/Large workloads Generated with Claude Code Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 02:47:58 +09:00
core/box/../tiny_debug_ring.h:
Remove legacy redundant code after Gatekeeper Box consolidation Summary of Deletions: - Remove core/box/unified_batch_box.c (26 lines) * Legacy batch allocation logic superseded by Alloc Gatekeeper Box * unified_cache now handles allocation aggregation - Remove core/box/unified_batch_box.h (29 lines) * Header declarations for deprecated unified_batch_box module - Remove core/tiny_free_fast.inc.h (329 lines) * Legacy fast-path free implementation * Functionality consolidated into: - tiny_free_gate_box.h (Fail-Fast layer + diagnostics) - malloc_tiny_fast.h (Free path integration) - unified_cache (return to freelist) * Code path now routes through Gatekeeper Box for consistency Build System Updates: - Update Makefile * Remove unified_batch_box.o from OBJS_BASE * Remove unified_batch_box_shared.o from SHARED_OBJS * Remove unified_batch_box.o from BENCH_HAKMEM_OBJS_BASE - Update core/hakmem_tiny_phase6_wrappers_box.inc * Remove unified_batch_box references * Simplify allocation wrapper to use new Gatekeeper architecture Impact: - Removes ~385 lines of redundant/superseded code - Consolidates allocation logic through unified Gatekeeper entry points - All functionality preserved via new Box-based architecture - Simplifies codebase and reduces maintenance burden Testing: - Build verification: make clean && make RELEASE=0/1 - Smoke tests: All pass (simple_alloc, loop 10M, pool_tls) - No functional regressions Rationale: After implementing Alloc/Free Gatekeeper Boxes with Fail-Fast layers and Unified Cache type safety, the legacy separate implementations became redundant. This commit completes the architectural consolidation and simplifies the allocator codebase. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-12-04 12:55:53 +09:00
core/box/ss_addr_map_box.h:
Code Cleanup: Remove false positives, redundant validations, and reduce verbose logging Following the C7 stride upgrade fix (commit 23c0d9541), this commit performs comprehensive cleanup to improve code quality and reduce debug noise. ## Changes ### 1. Disable False Positive Checks (tiny_nextptr.h) - **Disabled**: NXT_MISALIGN validation block with `#if 0` - **Reason**: Produces false positives due to slab base offsets (2048, 65536) not being stride-aligned, causing all blocks to appear "misaligned" - **TODO**: Reimplement to check stride DISTANCE between consecutive blocks instead of absolute alignment to stride boundaries ### 2. Remove Redundant Geometry Validations **hakmem_tiny_refill_p0.inc.h (P0 batch refill)** - Removed 25-line CARVE_GEOMETRY_FIX validation block - Replaced with NOTE explaining redundancy - **Reason**: Stride table is now correct in tiny_block_stride_for_class(), defense-in-depth validation adds overhead without benefit **ss_legacy_backend_box.c (legacy backend)** - Removed 18-line LEGACY_FIX_GEOMETRY validation block - Replaced with NOTE explaining redundancy - **Reason**: Shared_pool validates geometry at acquisition time ### 3. Reduce Verbose Logging **hakmem_shared_pool.c (sp_fix_geometry_if_needed)** - Made SP_FIX_GEOMETRY logging conditional on `!HAKMEM_BUILD_RELEASE` - **Reason**: Geometry fixes are expected during stride upgrades, no need to log in release builds ### 4. Verification - Build: ✅ Successful (LTO warnings expected) - Test: ✅ 10K iterations (1.87M ops/s, no crashes) - NXT_MISALIGN false positives: ✅ Eliminated ## Files Modified - core/tiny_nextptr.h - Disabled false positive NXT_MISALIGN check - core/hakmem_tiny_refill_p0.inc.h - Removed redundant CARVE validation - core/box/ss_legacy_backend_box.c - Removed redundant LEGACY validation - core/hakmem_shared_pool.c - Made SP_FIX_GEOMETRY logging debug-only ## Impact - **Code clarity**: Removed 43 lines of redundant validation code - **Debug noise**: Reduced false positive diagnostics - **Performance**: Eliminated overhead from redundant geometry checks - **Maintainability**: Single source of truth for geometry validation 🧹 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-21 23:00:24 +09:00
core/box/../superslab/superslab_inline.h:
Remove legacy redundant code after Gatekeeper Box consolidation Summary of Deletions: - Remove core/box/unified_batch_box.c (26 lines) * Legacy batch allocation logic superseded by Alloc Gatekeeper Box * unified_cache now handles allocation aggregation - Remove core/box/unified_batch_box.h (29 lines) * Header declarations for deprecated unified_batch_box module - Remove core/tiny_free_fast.inc.h (329 lines) * Legacy fast-path free implementation * Functionality consolidated into: - tiny_free_gate_box.h (Fail-Fast layer + diagnostics) - malloc_tiny_fast.h (Free path integration) - unified_cache (return to freelist) * Code path now routes through Gatekeeper Box for consistency Build System Updates: - Update Makefile * Remove unified_batch_box.o from OBJS_BASE * Remove unified_batch_box_shared.o from SHARED_OBJS * Remove unified_batch_box.o from BENCH_HAKMEM_OBJS_BASE - Update core/hakmem_tiny_phase6_wrappers_box.inc * Remove unified_batch_box references * Simplify allocation wrapper to use new Gatekeeper architecture Impact: - Removes ~385 lines of redundant/superseded code - Consolidates allocation logic through unified Gatekeeper entry points - All functionality preserved via new Box-based architecture - Simplifies codebase and reduces maintenance burden Testing: - Build verification: make clean && make RELEASE=0/1 - Smoke tests: All pass (simple_alloc, loop 10M, pool_tls) - No functional regressions Rationale: After implementing Alloc/Free Gatekeeper Boxes with Fail-Fast layers and Unified Cache type safety, the legacy separate implementations became redundant. This commit completes the architectural consolidation and simplifies the allocator codebase. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-12-04 12:55:53 +09:00
core/box/tiny_ptr_bridge_box.h:
core/box/../hakmem_tiny_superslab_internal.h:
core/box/../box/ss_hot_cold_box.h:
core/box/../box/../superslab/superslab_types.h:
core/box/../box/ss_allocation_box.h:
core/hakmem_tiny_superslab.h:
core/box/../hakmem_debug_master.h:
core/box/../hakmem_shared_pool.h:
core/box/../hakmem_internal.h:
core/box/../tiny_region_id.h:
core/box/../hakmem_tiny_integrity.h:
core/box/../box/slab_freelist_atomic.h:
Refactor: Clean up SuperSlab shared pool code - Removed unused/disabled L0 cache implementation from core/hakmem_shared_pool.c. - Deleted stale backup file core/hakmem_tiny_superslab.c.bak. - Removed untracked and obsolete shared_pool source files.
2025-11-30 15:27:53 +09:00
core/box/tiny_header_box.h:
Add TinyHeap class mask and extend routing
2025-12-07 22:49:28 +09:00
core/box/tiny_heap_env_box.h:
core/box/c7_hotpath_env_box.h:
Phase 23 Unified Cache + PageFaultTelemetry generalization: Mid/VM page-fault bottleneck identified Summary: - Phase 23 Unified Cache: +30% improvement (Random Mixed 256B: 18.18M → 23.68M ops/s) - PageFaultTelemetry: Extended to generic buckets (C0-C7, MID, L25, SSM) - Measurement-driven decision: Mid/VM page-faults (80-100K) >> Tiny (6K) → prioritize Mid/VM optimization Phase 23 Changes: 1. Unified Cache implementation (core/front/tiny_unified_cache.{c,h}) - Direct SuperSlab carve (TLS SLL bypass) - Self-contained pop-or-refill pattern - ENV: HAKMEM_TINY_UNIFIED_CACHE=1, HAKMEM_TINY_UNIFIED_C{0-7}=128 2. Fast path pruning (tiny_alloc_fast.inc.h, tiny_free_fast_v2.inc.h) - Unified ON → direct cache access (skip all intermediate layers) - Alloc: unified_cache_pop_or_refill() → immediate fail to slow - Free: unified_cache_push() → fallback to SLL only if full PageFaultTelemetry Changes: 3. Generic bucket architecture (core/box/pagefault_telemetry_box.{c,h}) - PF_BUCKET_{C0-C7, MID, L25, SSM} for domain-specific measurement - Integration: hak_pool_try_alloc(), l25_alloc_new_run(), shared_pool_allocate_superslab_unlocked() 4. Measurement results (Random Mixed 500K / 256B): - Tiny C2-C7: 2-33 pages, high reuse (64-3.8 touches/page) - SSM: 512 pages (initialization footprint) - MID/L25: 0 (unused in this workload) - Mid/Large VM benchmarks: 80-100K page-faults (13-16x higher than Tiny) Ring Cache Enhancements: 5. Hot Ring Cache (core/front/tiny_ring_cache.{c,h}) - ENV: HAKMEM_TINY_HOT_RING_ENABLE=1, HAKMEM_TINY_HOT_RING_C{0-7}=size - Conditional compilation cleanup Documentation: 6. Analysis reports - RANDOM_MIXED_BOTTLENECK_ANALYSIS.md: Page-fault breakdown - RANDOM_MIXED_SUMMARY.md: Phase 23 summary - RING_CACHE_ACTIVATION_GUIDE.md: Ring cache usage - CURRENT_TASK.md: Updated with Phase 23 results and Phase 24 plan Next Steps (Phase 24): - Target: Mid/VM PageArena/HotSpanBox (page-fault reduction 80-100K → 30-40K) - Tiny SSM optimization deferred (low ROI, ~6K page-faults already optimal) - Expected improvement: +30-50% for Mid/Large workloads Generated with Claude Code Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 02:47:58 +09:00
core/box/front_gate_box.h:
core/hakmem_tiny.h:
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