707056b765
Performance Achievements: - Tiny allocations: +180-280% (21M → 59-70M ops/s random mixed) - Single-thread: +24% (2.71M → 3.36M ops/s Larson) - 4T stability: 0% → 95% (19/20 success rate) - Overall: 91.3% of System malloc average (target was 40-55%) ✓ Phase 7 (Tasks 1-3): Core Optimizations - Task 1: Header validation removal (Region-ID direct lookup) - Task 2: Aggressive inline (TLS cache access optimization) - Task 3: Pre-warm TLS cache (eliminate cold-start penalty) Result: +180-280% improvement, 85-146% of System malloc Critical Bug Fixes: - Fix 64B allocation crash (size-to-class +1 for header) - Fix 4T wrapper recursion bugs (BUG #7, #8, #10, #11) - Remove malloc fallback (30% → 50% stability) Phase 2a: SuperSlab Dynamic Expansion (CRITICAL) - Implement mimalloc-style chunk linking - Unlimited slab expansion (no more OOM at 32 slabs) - Fix chunk initialization bug (bitmap=0x00000001 after expansion) Files: core/hakmem_tiny_superslab.c/h, core/superslab/superslab_types.h Result: 50% → 95% stability (19/20 4T success) Phase 2b: TLS Cache Adaptive Sizing - Dynamic capacity: 16-2048 slots based on usage - High-water mark tracking + exponential growth/shrink - Expected: +3-10% performance, -30-50% memory Files: core/tiny_adaptive_sizing.c/h (new) Phase 2c: BigCache Dynamic Hash Table - Migrate from fixed 256×8 array to dynamic hash table - Auto-resize: 256 → 512 → 1024 → 65,536 buckets - Improved hash function (FNV-1a) + collision chaining Files: core/hakmem_bigcache.c/h Expected: +10-20% cache hit rate Design Flaws Analysis: - Identified 6 components with fixed-capacity bottlenecks - SuperSlab (CRITICAL), TLS Cache (HIGH), BigCache/L2.5 (MEDIUM) - Report: DESIGN_FLAWS_ANALYSIS.md (11 chapters) Documentation: - 13 comprehensive reports (PHASE*.md, DESIGN_FLAWS*.md) - Implementation guides, test results, production readiness - Bug fix reports, root cause analysis Build System: - Makefile: phase7 targets, PREWARM_TLS flag - Auto dependency generation (-MMD -MP) for .inc files Known Issues: - 4T stability: 19/20 (95%) - investigating 1 failure for 100% - L2.5 Pool dynamic sharding: design only (needs 2-3 days integration) 🤖 Generated with Claude Code (https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
122 lines
4.6 KiB
C
122 lines
4.6 KiB
C
// hakmem_tiny_superslab.h - SuperSlab allocator for Tiny Pool (Phase 6.22)
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// Purpose: mimalloc-inspired 2MB aligned slab allocation for fast pointer→slab lookup
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// License: MIT
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// Date: 2025-10-24
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// Phase 6-2.8: Refactored into modular headers (types, inline)
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#ifndef HAKMEM_TINY_SUPERSLAB_H
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#define HAKMEM_TINY_SUPERSLAB_H
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#include <stdint.h>
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#include <stddef.h>
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#include <stdbool.h>
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#include <stdatomic.h>
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#include <stdlib.h>
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#include <time.h> // Phase 8.3: For clock_gettime() in hak_now_ns()
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#include <signal.h>
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#include <stdio.h> // For fprintf() debugging
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#include <pthread.h>
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// Phase 6-2.8: Modular headers (types, inline functions)
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#include "superslab/superslab_types.h"
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#include "superslab/superslab_inline.h"
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// Legacy includes (for backward compatibility)
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#include "tiny_debug_ring.h"
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#include "tiny_remote.h"
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#include "hakmem_tiny_superslab_constants.h" // Phase 6-2.5: Centralized layout constants
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// Debug instrumentation flags (defined in hakmem_tiny.c)
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extern int g_debug_remote_guard;
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extern int g_tiny_safe_free_strict;
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extern _Atomic uint64_t g_ss_active_dec_calls;
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uint32_t tiny_remote_drain_threshold(void);
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// ============================================================================
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// Phase 2a: Dynamic Expansion - Global per-class SuperSlabHeads
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// ============================================================================
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extern SuperSlabHead* g_superslab_heads[TINY_NUM_CLASSES_SS];
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// ============================================================================
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// SuperSlab Management Functions
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// ============================================================================
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// Allocate a new SuperSlab (2MB aligned)
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SuperSlab* superslab_allocate(uint8_t size_class);
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// Free a SuperSlab
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void superslab_free(SuperSlab* ss);
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// Phase 2a: Dynamic Expansion Functions
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// Initialize SuperSlabHead for a class (called once per class)
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SuperSlabHead* init_superslab_head(int class_idx);
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// Expand SuperSlabHead by allocating and linking a new chunk
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// Returns 0 on success, -1 on OOM
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int expand_superslab_head(SuperSlabHead* head);
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// Find which chunk a pointer belongs to
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// Returns the chunk containing ptr, or NULL if not found
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SuperSlab* find_chunk_for_ptr(void* ptr, int class_idx);
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// Initialize a slab within SuperSlab
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void superslab_init_slab(SuperSlab* ss, int slab_idx, size_t block_size, uint32_t owner_tid);
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// Mark a slab as active
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void superslab_activate_slab(SuperSlab* ss, int slab_idx);
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// Mark a slab as inactive
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void superslab_deactivate_slab(SuperSlab* ss, int slab_idx);
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// Find first free slab index (-1 if none)
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int superslab_find_free_slab(SuperSlab* ss);
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// Statistics
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void superslab_print_stats(SuperSlab* ss);
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// Phase 8.3: ACE statistics
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void superslab_ace_print_stats(void);
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// ============================================================================
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// Phase 8.3: ACE (Adaptive Cache Engine) - SuperSlab adaptive sizing
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// ============================================================================
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// ACE tick function (called periodically, ~150ms interval)
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// Observes metrics and decides promotion (1MB→2MB) or demotion (2MB→1MB)
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void hak_tiny_superslab_ace_tick(int class_idx, uint64_t now_ns);
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// Phase 8.4: ACE Observer (called from Learner thread - zero hot-path overhead)
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void hak_tiny_superslab_ace_observe_all(void);
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// ============================================================================
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// Partial SuperSlab adopt/publish (per-class single-slot)
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// ============================================================================
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// Publish a SuperSlab with available freelist for other threads to adopt.
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void ss_partial_publish(int class_idx, SuperSlab* ss);
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// Adopt published SuperSlab for the class (returns NULL if none).
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SuperSlab* ss_partial_adopt(int class_idx);
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// ============================================================================
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// SuperSlab adopt gate (publish/adopt wiring helper)
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// ============================================================================
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// Environment-aware switch that keeps free/alloc sides in sync. Default:
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// - Disabled until cross-thread free is observed.
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// - `HAKMEM_TINY_SS_ADOPT=1` forces ON, `=0` forces OFF.
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int tiny_adopt_gate_should_publish(void);
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int tiny_adopt_gate_should_adopt(void);
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void tiny_adopt_gate_on_remote_seen(int class_idx);
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// ============================================================================
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// External variable declarations
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// ============================================================================
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extern _Atomic int g_ss_remote_seen; // set to 1 on first remote free observed
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extern int g_remote_force_notify;
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#endif // HAKMEM_TINY_SUPERSLAB_H
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