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2013514f7b58fb4dc56dcca99f6823f58f4b3131
hakmem/core/hakmem_ace.c

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Tiny: fix header/stride mismatch and harden refill paths - Root cause: header-based class indexing (HEADER_CLASSIDX=1) wrote a 1-byte header during allocation, but linear carve/refill and initial slab capacity still used bare class block sizes. This mismatch could overrun slab usable space and corrupt freelists, causing reproducible SEGV at ~100k iters. Changes - Superslab: compute capacity with effective stride (block_size + header for classes 0..6; class7 remains headerless) in superslab_init_slab(). Add a debug-only bound check in superslab_alloc_from_slab() to fail fast if carve would exceed usable bytes. - Refill (non-P0 and P0): use header-aware stride for all linear carving and TLS window bump operations. Ensure alignment/validation in tiny_refill_opt.h also uses stride, not raw class size. - Drain: keep existing defense-in-depth for remote sentinel and sanitize nodes before splicing into freelist (already present). Notes - This unifies the memory layout across alloc/linear-carve/refill with a single stride definition and keeps class7 (1024B) headerless as designed. - Debug builds add fail-fast checks; release builds remain lean. Next - Re-run Tiny benches (256/1024B) in debug to confirm stability, then in release. If any remaining crash persists, bisect with HAKMEM_TINY_P0_BATCH_REFILL=0 to isolate P0 batch carve, and continue reducing branch-miss as planned.
2025-11-09 18:55:50 +09:00
#include <stdio.h>
release: silence runtime logs and stabilize benches - Fix HAKMEM_LOG gating to use (numeric) so release builds compile out logs. - Switch remaining prints to HAKMEM_LOG or guard with : - core/box/hak_core_init.inc.h (EVO sample warning, shutdown banner) - core/hakmem_config.c (config/feature prints) - core/hakmem.c (BigCache eviction prints) - core/hakmem_tiny_superslab.c (OOM, head init/expand, C7 init diagnostics) - core/hakmem_elo.c (init/evolution) - core/hakmem_batch.c (init/flush/stats) - core/hakmem_ace.c (33KB route diagnostics) - core/hakmem_ace_controller.c (ACE logs macro → no-op in release) - core/hakmem_site_rules.c (init banner) - core/box/hak_free_api.inc.h (unknown method error → release-gated) - Rebuilt benches and verified quiet output for release: - bench_fixed_size_hakmem/system - bench_random_mixed_hakmem/system - bench_mid_large_mt_hakmem/system - bench_comprehensive_hakmem/system Note: Kept debug logs available in debug builds and when explicitly toggled via env.
2025-11-11 01:47:06 +09:00
#include "hakmem_internal.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
#include "hakmem_config.h"
Debug Counters Implementation - Clean History Major Features: - Debug counter infrastructure for Refill Stage tracking - Free Pipeline counters (ss_local, ss_remote, tls_sll) - Diagnostic counters for early return analysis - Unified larson.sh benchmark runner with profiles - Phase 6-3 regression analysis documentation Bug Fixes: - Fix SuperSlab disabled by default (HAKMEM_TINY_USE_SUPERSLAB) - Fix profile variable naming consistency - Add .gitignore patterns for large files Performance: - Phase 6-3: 4.79 M ops/s (has OOM risk) - With SuperSlab: 3.13 M ops/s (+19% improvement) This is a clean repository without large log files. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-05 12:31:14 +09:00
#include "hakmem_ace.h"
#include "hakmem_pool.h"
#include "hakmem_l25_pool.h"
#include "hakmem_ace_stats.h"
#include "hakmem_policy.h"
#include "hakmem_debug.h"
// Map size to MidPool/LargePool and allocate.
// Phase 6.21: Bridge classes (40KB, 52KB) now hardcoded, DYN1/DYN2 disabled
static inline size_t round_to_mid_class(size_t s, double wmax, const FrozenPolicy* pol) {
// Build candidate set: 2/4/8/16/32/40/52 KiB (Bridge classes now fixed)
size_t cand[7] = {
POOL_CLASS_2KB, POOL_CLASS_4KB, POOL_CLASS_8KB, POOL_CLASS_16KB, POOL_CLASS_32KB,
POOL_CLASS_40KB, POOL_CLASS_52KB // Phase 6.21: Bridge classes
};
// Legacy: DYN1/DYN2 support (currently disabled in Phase 6.21)
// Note: If DYN classes are re-enabled, they should override Bridge classes
if (pol) {
if (pol->mid_dyn1_bytes >= POOL_MIN_SIZE && pol->mid_dyn1_bytes <= POOL_MAX_SIZE) cand[5] = (size_t)pol->mid_dyn1_bytes;
if (pol->mid_dyn2_bytes >= POOL_MIN_SIZE && pol->mid_dyn2_bytes <= POOL_MAX_SIZE) cand[6] = (size_t)pol->mid_dyn2_bytes;
}
// Choose the smallest c >= s that also satisfies c ≤ wmax*s
size_t best = 0; // 0 = not found
for (int i = 0; i < 7; i++) {
size_t c = cand[i];
if (c == 0) continue;
if (c < s) continue;
if ((double)c > wmax * (double)s) continue;
if (best == 0 || c < best) best = c;
}
return best;
}
static inline size_t round_to_large_class(size_t s, double wmax) {
const size_t classes[L25_NUM_CLASSES] = {
L25_CLASS_64KB, L25_CLASS_128KB, L25_CLASS_256KB, L25_CLASS_512KB, L25_CLASS_1MB
};
for (int i = 0; i < L25_NUM_CLASSES; i++) {
size_t c = classes[i];
if (s <= c) {
if ((double)c <= wmax * (double)s) return c;
return 0; // not allowed → fallback
}
}
return 0; // above 1MB
}
void* hkm_ace_alloc(size_t size, uintptr_t site_id, const FrozenPolicy* pol) {
double wmax_mid = (pol ? pol->w_max_mid : 1.33);
double wmax_large = (pol ? pol->w_max_large : 1.25);
// MidPool: 252KiB (Phase 6.21: with Bridge classes for W_MAX rounding)
Tiny: fix header/stride mismatch and harden refill paths - Root cause: header-based class indexing (HEADER_CLASSIDX=1) wrote a 1-byte header during allocation, but linear carve/refill and initial slab capacity still used bare class block sizes. This mismatch could overrun slab usable space and corrupt freelists, causing reproducible SEGV at ~100k iters. Changes - Superslab: compute capacity with effective stride (block_size + header for classes 0..6; class7 remains headerless) in superslab_init_slab(). Add a debug-only bound check in superslab_alloc_from_slab() to fail fast if carve would exceed usable bytes. - Refill (non-P0 and P0): use header-aware stride for all linear carving and TLS window bump operations. Ensure alignment/validation in tiny_refill_opt.h also uses stride, not raw class size. - Drain: keep existing defense-in-depth for remote sentinel and sanitize nodes before splicing into freelist (already present). Notes - This unifies the memory layout across alloc/linear-carve/refill with a single stride definition and keeps class7 (1024B) headerless as designed. - Debug builds add fail-fast checks; release builds remain lean. Next - Re-run Tiny benches (256/1024B) in debug to confirm stability, then in release. If any remaining crash persists, bisect with HAKMEM_TINY_P0_BATCH_REFILL=0 to isolate P0 batch carve, and continue reducing branch-miss as planned.
2025-11-09 18:55:50 +09:00
if (size >= 33000 && size <= 34000) {
release: silence runtime logs and stabilize benches - Fix HAKMEM_LOG gating to use (numeric) so release builds compile out logs. - Switch remaining prints to HAKMEM_LOG or guard with : - core/box/hak_core_init.inc.h (EVO sample warning, shutdown banner) - core/hakmem_config.c (config/feature prints) - core/hakmem.c (BigCache eviction prints) - core/hakmem_tiny_superslab.c (OOM, head init/expand, C7 init diagnostics) - core/hakmem_elo.c (init/evolution) - core/hakmem_batch.c (init/flush/stats) - core/hakmem_ace.c (33KB route diagnostics) - core/hakmem_ace_controller.c (ACE logs macro → no-op in release) - core/hakmem_site_rules.c (init banner) - core/box/hak_free_api.inc.h (unknown method error → release-gated) - Rebuilt benches and verified quiet output for release: - bench_fixed_size_hakmem/system - bench_random_mixed_hakmem/system - bench_mid_large_mt_hakmem/system - bench_comprehensive_hakmem/system Note: Kept debug logs available in debug builds and when explicitly toggled via env.
2025-11-11 01:47:06 +09:00
#if !HAKMEM_BUILD_RELEASE
Tiny: fix header/stride mismatch and harden refill paths - Root cause: header-based class indexing (HEADER_CLASSIDX=1) wrote a 1-byte header during allocation, but linear carve/refill and initial slab capacity still used bare class block sizes. This mismatch could overrun slab usable space and corrupt freelists, causing reproducible SEGV at ~100k iters. Changes - Superslab: compute capacity with effective stride (block_size + header for classes 0..6; class7 remains headerless) in superslab_init_slab(). Add a debug-only bound check in superslab_alloc_from_slab() to fail fast if carve would exceed usable bytes. - Refill (non-P0 and P0): use header-aware stride for all linear carving and TLS window bump operations. Ensure alignment/validation in tiny_refill_opt.h also uses stride, not raw class size. - Drain: keep existing defense-in-depth for remote sentinel and sanitize nodes before splicing into freelist (already present). Notes - This unifies the memory layout across alloc/linear-carve/refill with a single stride definition and keeps class7 (1024B) headerless as designed. - Debug builds add fail-fast checks; release builds remain lean. Next - Re-run Tiny benches (256/1024B) in debug to confirm stability, then in release. If any remaining crash persists, bisect with HAKMEM_TINY_P0_BATCH_REFILL=0 to isolate P0 batch carve, and continue reducing branch-miss as planned.
2025-11-09 18:55:50 +09:00
fprintf(stderr, "[ACE] Processing 33KB: size=%zu, POOL_MAX_SIZE=%d\n", size, POOL_MAX_SIZE);
release: silence runtime logs and stabilize benches - Fix HAKMEM_LOG gating to use (numeric) so release builds compile out logs. - Switch remaining prints to HAKMEM_LOG or guard with : - core/box/hak_core_init.inc.h (EVO sample warning, shutdown banner) - core/hakmem_config.c (config/feature prints) - core/hakmem.c (BigCache eviction prints) - core/hakmem_tiny_superslab.c (OOM, head init/expand, C7 init diagnostics) - core/hakmem_elo.c (init/evolution) - core/hakmem_batch.c (init/flush/stats) - core/hakmem_ace.c (33KB route diagnostics) - core/hakmem_ace_controller.c (ACE logs macro → no-op in release) - core/hakmem_site_rules.c (init banner) - core/box/hak_free_api.inc.h (unknown method error → release-gated) - Rebuilt benches and verified quiet output for release: - bench_fixed_size_hakmem/system - bench_random_mixed_hakmem/system - bench_mid_large_mt_hakmem/system - bench_comprehensive_hakmem/system Note: Kept debug logs available in debug builds and when explicitly toggled via env.
2025-11-11 01:47:06 +09:00
#endif
Tiny: fix header/stride mismatch and harden refill paths - Root cause: header-based class indexing (HEADER_CLASSIDX=1) wrote a 1-byte header during allocation, but linear carve/refill and initial slab capacity still used bare class block sizes. This mismatch could overrun slab usable space and corrupt freelists, causing reproducible SEGV at ~100k iters. Changes - Superslab: compute capacity with effective stride (block_size + header for classes 0..6; class7 remains headerless) in superslab_init_slab(). Add a debug-only bound check in superslab_alloc_from_slab() to fail fast if carve would exceed usable bytes. - Refill (non-P0 and P0): use header-aware stride for all linear carving and TLS window bump operations. Ensure alignment/validation in tiny_refill_opt.h also uses stride, not raw class size. - Drain: keep existing defense-in-depth for remote sentinel and sanitize nodes before splicing into freelist (already present). Notes - This unifies the memory layout across alloc/linear-carve/refill with a single stride definition and keeps class7 (1024B) headerless as designed. - Debug builds add fail-fast checks; release builds remain lean. Next - Re-run Tiny benches (256/1024B) in debug to confirm stability, then in release. If any remaining crash persists, bisect with HAKMEM_TINY_P0_BATCH_REFILL=0 to isolate P0 batch carve, and continue reducing branch-miss as planned.
2025-11-09 18:55:50 +09:00
}
Debug Counters Implementation - Clean History Major Features: - Debug counter infrastructure for Refill Stage tracking - Free Pipeline counters (ss_local, ss_remote, tls_sll) - Diagnostic counters for early return analysis - Unified larson.sh benchmark runner with profiles - Phase 6-3 regression analysis documentation Bug Fixes: - Fix SuperSlab disabled by default (HAKMEM_TINY_USE_SUPERSLAB) - Fix profile variable naming consistency - Add .gitignore patterns for large files Performance: - Phase 6-3: 4.79 M ops/s (has OOM risk) - With SuperSlab: 3.13 M ops/s (+19% improvement) This is a clean repository without large log files. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-05 12:31:14 +09:00
if (size <= POOL_MAX_SIZE) {
size_t r = round_to_mid_class(size, wmax_mid, pol);
Tiny: fix header/stride mismatch and harden refill paths - Root cause: header-based class indexing (HEADER_CLASSIDX=1) wrote a 1-byte header during allocation, but linear carve/refill and initial slab capacity still used bare class block sizes. This mismatch could overrun slab usable space and corrupt freelists, causing reproducible SEGV at ~100k iters. Changes - Superslab: compute capacity with effective stride (block_size + header for classes 0..6; class7 remains headerless) in superslab_init_slab(). Add a debug-only bound check in superslab_alloc_from_slab() to fail fast if carve would exceed usable bytes. - Refill (non-P0 and P0): use header-aware stride for all linear carving and TLS window bump operations. Ensure alignment/validation in tiny_refill_opt.h also uses stride, not raw class size. - Drain: keep existing defense-in-depth for remote sentinel and sanitize nodes before splicing into freelist (already present). Notes - This unifies the memory layout across alloc/linear-carve/refill with a single stride definition and keeps class7 (1024B) headerless as designed. - Debug builds add fail-fast checks; release builds remain lean. Next - Re-run Tiny benches (256/1024B) in debug to confirm stability, then in release. If any remaining crash persists, bisect with HAKMEM_TINY_P0_BATCH_REFILL=0 to isolate P0 batch carve, and continue reducing branch-miss as planned.
2025-11-09 18:55:50 +09:00
if (size >= 33000 && size <= 34000) {
release: silence runtime logs and stabilize benches - Fix HAKMEM_LOG gating to use (numeric) so release builds compile out logs. - Switch remaining prints to HAKMEM_LOG or guard with : - core/box/hak_core_init.inc.h (EVO sample warning, shutdown banner) - core/hakmem_config.c (config/feature prints) - core/hakmem.c (BigCache eviction prints) - core/hakmem_tiny_superslab.c (OOM, head init/expand, C7 init diagnostics) - core/hakmem_elo.c (init/evolution) - core/hakmem_batch.c (init/flush/stats) - core/hakmem_ace.c (33KB route diagnostics) - core/hakmem_ace_controller.c (ACE logs macro → no-op in release) - core/hakmem_site_rules.c (init banner) - core/box/hak_free_api.inc.h (unknown method error → release-gated) - Rebuilt benches and verified quiet output for release: - bench_fixed_size_hakmem/system - bench_random_mixed_hakmem/system - bench_mid_large_mt_hakmem/system - bench_comprehensive_hakmem/system Note: Kept debug logs available in debug builds and when explicitly toggled via env.
2025-11-11 01:47:06 +09:00
#if !HAKMEM_BUILD_RELEASE
Tiny: fix header/stride mismatch and harden refill paths - Root cause: header-based class indexing (HEADER_CLASSIDX=1) wrote a 1-byte header during allocation, but linear carve/refill and initial slab capacity still used bare class block sizes. This mismatch could overrun slab usable space and corrupt freelists, causing reproducible SEGV at ~100k iters. Changes - Superslab: compute capacity with effective stride (block_size + header for classes 0..6; class7 remains headerless) in superslab_init_slab(). Add a debug-only bound check in superslab_alloc_from_slab() to fail fast if carve would exceed usable bytes. - Refill (non-P0 and P0): use header-aware stride for all linear carving and TLS window bump operations. Ensure alignment/validation in tiny_refill_opt.h also uses stride, not raw class size. - Drain: keep existing defense-in-depth for remote sentinel and sanitize nodes before splicing into freelist (already present). Notes - This unifies the memory layout across alloc/linear-carve/refill with a single stride definition and keeps class7 (1024B) headerless as designed. - Debug builds add fail-fast checks; release builds remain lean. Next - Re-run Tiny benches (256/1024B) in debug to confirm stability, then in release. If any remaining crash persists, bisect with HAKMEM_TINY_P0_BATCH_REFILL=0 to isolate P0 batch carve, and continue reducing branch-miss as planned.
2025-11-09 18:55:50 +09:00
fprintf(stderr, "[ACE] round_to_mid_class returned: %zu (0 means no valid class)\n", r);
release: silence runtime logs and stabilize benches - Fix HAKMEM_LOG gating to use (numeric) so release builds compile out logs. - Switch remaining prints to HAKMEM_LOG or guard with : - core/box/hak_core_init.inc.h (EVO sample warning, shutdown banner) - core/hakmem_config.c (config/feature prints) - core/hakmem.c (BigCache eviction prints) - core/hakmem_tiny_superslab.c (OOM, head init/expand, C7 init diagnostics) - core/hakmem_elo.c (init/evolution) - core/hakmem_batch.c (init/flush/stats) - core/hakmem_ace.c (33KB route diagnostics) - core/hakmem_ace_controller.c (ACE logs macro → no-op in release) - core/hakmem_site_rules.c (init banner) - core/box/hak_free_api.inc.h (unknown method error → release-gated) - Rebuilt benches and verified quiet output for release: - bench_fixed_size_hakmem/system - bench_random_mixed_hakmem/system - bench_mid_large_mt_hakmem/system - bench_comprehensive_hakmem/system Note: Kept debug logs available in debug builds and when explicitly toggled via env.
2025-11-11 01:47:06 +09:00
#endif
Tiny: fix header/stride mismatch and harden refill paths - Root cause: header-based class indexing (HEADER_CLASSIDX=1) wrote a 1-byte header during allocation, but linear carve/refill and initial slab capacity still used bare class block sizes. This mismatch could overrun slab usable space and corrupt freelists, causing reproducible SEGV at ~100k iters. Changes - Superslab: compute capacity with effective stride (block_size + header for classes 0..6; class7 remains headerless) in superslab_init_slab(). Add a debug-only bound check in superslab_alloc_from_slab() to fail fast if carve would exceed usable bytes. - Refill (non-P0 and P0): use header-aware stride for all linear carving and TLS window bump operations. Ensure alignment/validation in tiny_refill_opt.h also uses stride, not raw class size. - Drain: keep existing defense-in-depth for remote sentinel and sanitize nodes before splicing into freelist (already present). Notes - This unifies the memory layout across alloc/linear-carve/refill with a single stride definition and keeps class7 (1024B) headerless as designed. - Debug builds add fail-fast checks; release builds remain lean. Next - Re-run Tiny benches (256/1024B) in debug to confirm stability, then in release. If any remaining crash persists, bisect with HAKMEM_TINY_P0_BATCH_REFILL=0 to isolate P0 batch carve, and continue reducing branch-miss as planned.
2025-11-09 18:55:50 +09:00
}
Debug Counters Implementation - Clean History Major Features: - Debug counter infrastructure for Refill Stage tracking - Free Pipeline counters (ss_local, ss_remote, tls_sll) - Diagnostic counters for early return analysis - Unified larson.sh benchmark runner with profiles - Phase 6-3 regression analysis documentation Bug Fixes: - Fix SuperSlab disabled by default (HAKMEM_TINY_USE_SUPERSLAB) - Fix profile variable naming consistency - Add .gitignore patterns for large files Performance: - Phase 6-3: 4.79 M ops/s (has OOM risk) - With SuperSlab: 3.13 M ops/s (+19% improvement) This is a clean repository without large log files. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-05 12:31:14 +09:00
if (r != 0) {
Tiny: fix header/stride mismatch and harden refill paths - Root cause: header-based class indexing (HEADER_CLASSIDX=1) wrote a 1-byte header during allocation, but linear carve/refill and initial slab capacity still used bare class block sizes. This mismatch could overrun slab usable space and corrupt freelists, causing reproducible SEGV at ~100k iters. Changes - Superslab: compute capacity with effective stride (block_size + header for classes 0..6; class7 remains headerless) in superslab_init_slab(). Add a debug-only bound check in superslab_alloc_from_slab() to fail fast if carve would exceed usable bytes. - Refill (non-P0 and P0): use header-aware stride for all linear carving and TLS window bump operations. Ensure alignment/validation in tiny_refill_opt.h also uses stride, not raw class size. - Drain: keep existing defense-in-depth for remote sentinel and sanitize nodes before splicing into freelist (already present). Notes - This unifies the memory layout across alloc/linear-carve/refill with a single stride definition and keeps class7 (1024B) headerless as designed. - Debug builds add fail-fast checks; release builds remain lean. Next - Re-run Tiny benches (256/1024B) in debug to confirm stability, then in release. If any remaining crash persists, bisect with HAKMEM_TINY_P0_BATCH_REFILL=0 to isolate P0 batch carve, and continue reducing branch-miss as planned.
2025-11-09 18:55:50 +09:00
// Debug: Log 33KB allocation routing (only in debug builds)
#ifdef HAKMEM_DEBUG_VERBOSE
if (size >= 33000 && size <= 34000) {
HAKMEM_LOG("[ACE] 33KB alloc: size=%zu → rounded=%zu (class 5: 40KB)\n", size, r);
}
#endif
if (size >= 33000 && size <= 34000) {
release: silence runtime logs and stabilize benches - Fix HAKMEM_LOG gating to use (numeric) so release builds compile out logs. - Switch remaining prints to HAKMEM_LOG or guard with : - core/box/hak_core_init.inc.h (EVO sample warning, shutdown banner) - core/hakmem_config.c (config/feature prints) - core/hakmem.c (BigCache eviction prints) - core/hakmem_tiny_superslab.c (OOM, head init/expand, C7 init diagnostics) - core/hakmem_elo.c (init/evolution) - core/hakmem_batch.c (init/flush/stats) - core/hakmem_ace.c (33KB route diagnostics) - core/hakmem_ace_controller.c (ACE logs macro → no-op in release) - core/hakmem_site_rules.c (init banner) - core/box/hak_free_api.inc.h (unknown method error → release-gated) - Rebuilt benches and verified quiet output for release: - bench_fixed_size_hakmem/system - bench_random_mixed_hakmem/system - bench_mid_large_mt_hakmem/system - bench_comprehensive_hakmem/system Note: Kept debug logs available in debug builds and when explicitly toggled via env.
2025-11-11 01:47:06 +09:00
#if !HAKMEM_BUILD_RELEASE
Tiny: fix header/stride mismatch and harden refill paths - Root cause: header-based class indexing (HEADER_CLASSIDX=1) wrote a 1-byte header during allocation, but linear carve/refill and initial slab capacity still used bare class block sizes. This mismatch could overrun slab usable space and corrupt freelists, causing reproducible SEGV at ~100k iters. Changes - Superslab: compute capacity with effective stride (block_size + header for classes 0..6; class7 remains headerless) in superslab_init_slab(). Add a debug-only bound check in superslab_alloc_from_slab() to fail fast if carve would exceed usable bytes. - Refill (non-P0 and P0): use header-aware stride for all linear carving and TLS window bump operations. Ensure alignment/validation in tiny_refill_opt.h also uses stride, not raw class size. - Drain: keep existing defense-in-depth for remote sentinel and sanitize nodes before splicing into freelist (already present). Notes - This unifies the memory layout across alloc/linear-carve/refill with a single stride definition and keeps class7 (1024B) headerless as designed. - Debug builds add fail-fast checks; release builds remain lean. Next - Re-run Tiny benches (256/1024B) in debug to confirm stability, then in release. If any remaining crash persists, bisect with HAKMEM_TINY_P0_BATCH_REFILL=0 to isolate P0 batch carve, and continue reducing branch-miss as planned.
2025-11-09 18:55:50 +09:00
fprintf(stderr, "[ACE] Calling hak_pool_try_alloc with size=%zu\n", r);
release: silence runtime logs and stabilize benches - Fix HAKMEM_LOG gating to use (numeric) so release builds compile out logs. - Switch remaining prints to HAKMEM_LOG or guard with : - core/box/hak_core_init.inc.h (EVO sample warning, shutdown banner) - core/hakmem_config.c (config/feature prints) - core/hakmem.c (BigCache eviction prints) - core/hakmem_tiny_superslab.c (OOM, head init/expand, C7 init diagnostics) - core/hakmem_elo.c (init/evolution) - core/hakmem_batch.c (init/flush/stats) - core/hakmem_ace.c (33KB route diagnostics) - core/hakmem_ace_controller.c (ACE logs macro → no-op in release) - core/hakmem_site_rules.c (init banner) - core/box/hak_free_api.inc.h (unknown method error → release-gated) - Rebuilt benches and verified quiet output for release: - bench_fixed_size_hakmem/system - bench_random_mixed_hakmem/system - bench_mid_large_mt_hakmem/system - bench_comprehensive_hakmem/system Note: Kept debug logs available in debug builds and when explicitly toggled via env.
2025-11-11 01:47:06 +09:00
#endif
Tiny: fix header/stride mismatch and harden refill paths - Root cause: header-based class indexing (HEADER_CLASSIDX=1) wrote a 1-byte header during allocation, but linear carve/refill and initial slab capacity still used bare class block sizes. This mismatch could overrun slab usable space and corrupt freelists, causing reproducible SEGV at ~100k iters. Changes - Superslab: compute capacity with effective stride (block_size + header for classes 0..6; class7 remains headerless) in superslab_init_slab(). Add a debug-only bound check in superslab_alloc_from_slab() to fail fast if carve would exceed usable bytes. - Refill (non-P0 and P0): use header-aware stride for all linear carving and TLS window bump operations. Ensure alignment/validation in tiny_refill_opt.h also uses stride, not raw class size. - Drain: keep existing defense-in-depth for remote sentinel and sanitize nodes before splicing into freelist (already present). Notes - This unifies the memory layout across alloc/linear-carve/refill with a single stride definition and keeps class7 (1024B) headerless as designed. - Debug builds add fail-fast checks; release builds remain lean. Next - Re-run Tiny benches (256/1024B) in debug to confirm stability, then in release. If any remaining crash persists, bisect with HAKMEM_TINY_P0_BATCH_REFILL=0 to isolate P0 batch carve, and continue reducing branch-miss as planned.
2025-11-09 18:55:50 +09:00
}
Debug Counters Implementation - Clean History Major Features: - Debug counter infrastructure for Refill Stage tracking - Free Pipeline counters (ss_local, ss_remote, tls_sll) - Diagnostic counters for early return analysis - Unified larson.sh benchmark runner with profiles - Phase 6-3 regression analysis documentation Bug Fixes: - Fix SuperSlab disabled by default (HAKMEM_TINY_USE_SUPERSLAB) - Fix profile variable naming consistency - Add .gitignore patterns for large files Performance: - Phase 6-3: 4.79 M ops/s (has OOM risk) - With SuperSlab: 3.13 M ops/s (+19% improvement) This is a clean repository without large log files. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-05 12:31:14 +09:00
HKM_TIME_START(t_mid_get);
void* p = hak_pool_try_alloc(r, site_id);
HKM_TIME_END(HKM_CAT_POOL_GET, t_mid_get);
hkm_ace_stat_mid_attempt(p != NULL);
if (p) return p;
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
if (g_hakem_config.ace_trace) {
fprintf(stderr, "[ACE-FAIL] Exhaustion: size=%zu class=%zu (MidPool)\n", size, r);
}
} else {
if (g_hakem_config.ace_trace) {
fprintf(stderr, "[ACE-FAIL] Threshold: size=%zu wmax=%.2f (MidPool)\n", size, wmax_mid);
}
Debug Counters Implementation - Clean History Major Features: - Debug counter infrastructure for Refill Stage tracking - Free Pipeline counters (ss_local, ss_remote, tls_sll) - Diagnostic counters for early return analysis - Unified larson.sh benchmark runner with profiles - Phase 6-3 regression analysis documentation Bug Fixes: - Fix SuperSlab disabled by default (HAKMEM_TINY_USE_SUPERSLAB) - Fix profile variable naming consistency - Add .gitignore patterns for large files Performance: - Phase 6-3: 4.79 M ops/s (has OOM risk) - With SuperSlab: 3.13 M ops/s (+19% improvement) This is a clean repository without large log files. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-05 12:31:14 +09:00
}
// If rounding not allowed or miss, fallthrough to large class rounding below
}
// LargePool: 64KiB1MiB (with W_MAX rounding)
if (size <= L25_MAX_SIZE) {
size_t r = round_to_large_class(size, wmax_large);
if (r != 0) {
HKM_TIME_START(t_l25_get);
void* p = hak_l25_pool_try_alloc(r, site_id);
HKM_TIME_END(HKM_CAT_L25_GET, t_l25_get);
hkm_ace_stat_large_attempt(p != NULL);
if (p) return p;
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
if (g_hakem_config.ace_trace) {
fprintf(stderr, "[ACE-FAIL] Exhaustion: size=%zu class=%zu (LargePool)\n", size, r);
}
} else {
if (g_hakem_config.ace_trace) {
fprintf(stderr, "[ACE-FAIL] Threshold: size=%zu wmax=%.2f (LargePool)\n", size, wmax_large);
}
Debug Counters Implementation - Clean History Major Features: - Debug counter infrastructure for Refill Stage tracking - Free Pipeline counters (ss_local, ss_remote, tls_sll) - Diagnostic counters for early return analysis - Unified larson.sh benchmark runner with profiles - Phase 6-3 regression analysis documentation Bug Fixes: - Fix SuperSlab disabled by default (HAKMEM_TINY_USE_SUPERSLAB) - Fix profile variable naming consistency - Add .gitignore patterns for large files Performance: - Phase 6-3: 4.79 M ops/s (has OOM risk) - With SuperSlab: 3.13 M ops/s (+19% improvement) This is a clean repository without large log files. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-05 12:31:14 +09:00
}
} else if (size > POOL_MAX_SIZE && size < L25_MIN_SIZE) {
// Gap 3264KiB: try rounding up to 64KiB if permitted
Tiny: fix header/stride mismatch and harden refill paths - Root cause: header-based class indexing (HEADER_CLASSIDX=1) wrote a 1-byte header during allocation, but linear carve/refill and initial slab capacity still used bare class block sizes. This mismatch could overrun slab usable space and corrupt freelists, causing reproducible SEGV at ~100k iters. Changes - Superslab: compute capacity with effective stride (block_size + header for classes 0..6; class7 remains headerless) in superslab_init_slab(). Add a debug-only bound check in superslab_alloc_from_slab() to fail fast if carve would exceed usable bytes. - Refill (non-P0 and P0): use header-aware stride for all linear carving and TLS window bump operations. Ensure alignment/validation in tiny_refill_opt.h also uses stride, not raw class size. - Drain: keep existing defense-in-depth for remote sentinel and sanitize nodes before splicing into freelist (already present). Notes - This unifies the memory layout across alloc/linear-carve/refill with a single stride definition and keeps class7 (1024B) headerless as designed. - Debug builds add fail-fast checks; release builds remain lean. Next - Re-run Tiny benches (256/1024B) in debug to confirm stability, then in release. If any remaining crash persists, bisect with HAKMEM_TINY_P0_BATCH_REFILL=0 to isolate P0 batch carve, and continue reducing branch-miss as planned.
2025-11-09 18:55:50 +09:00
// size_t r = round_to_large_class(L25_MIN_SIZE, wmax_large); // check 64KiB vs size (unused)
Debug Counters Implementation - Clean History Major Features: - Debug counter infrastructure for Refill Stage tracking - Free Pipeline counters (ss_local, ss_remote, tls_sll) - Diagnostic counters for early return analysis - Unified larson.sh benchmark runner with profiles - Phase 6-3 regression analysis documentation Bug Fixes: - Fix SuperSlab disabled by default (HAKMEM_TINY_USE_SUPERSLAB) - Fix profile variable naming consistency - Add .gitignore patterns for large files Performance: - Phase 6-3: 4.79 M ops/s (has OOM risk) - With SuperSlab: 3.13 M ops/s (+19% improvement) This is a clean repository without large log files. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-05 12:31:14 +09:00
if ((double)L25_MIN_SIZE <= wmax_large * (double)size) {
HKM_TIME_START(t_l25_get2);
void* p = hak_l25_pool_try_alloc(L25_MIN_SIZE, site_id);
HKM_TIME_END(HKM_CAT_L25_GET, t_l25_get2);
hkm_ace_stat_large_attempt(p != NULL);
if (p) return p;
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
if (g_hakem_config.ace_trace) {
fprintf(stderr, "[ACE-FAIL] Exhaustion: size=%zu class=64KB (Gap)\n", size);
}
} else {
if (g_hakem_config.ace_trace) {
fprintf(stderr, "[ACE-FAIL] Threshold: size=%zu wmax=%.2f (Gap)\n", size, wmax_large);
}
Debug Counters Implementation - Clean History Major Features: - Debug counter infrastructure for Refill Stage tracking - Free Pipeline counters (ss_local, ss_remote, tls_sll) - Diagnostic counters for early return analysis - Unified larson.sh benchmark runner with profiles - Phase 6-3 regression analysis documentation Bug Fixes: - Fix SuperSlab disabled by default (HAKMEM_TINY_USE_SUPERSLAB) - Fix profile variable naming consistency - Add .gitignore patterns for large files Performance: - Phase 6-3: 4.79 M ops/s (has OOM risk) - With SuperSlab: 3.13 M ops/s (+19% improvement) This is a clean repository without large log files. 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-05 12:31:14 +09:00
}
}
hkm_ace_stat_l1_fallback();
return NULL; // Miss: let caller fallback to malloc
}
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