#include "Python.h" #include "hashtable.h" #include "frameobject.h" #include "pythread.h" #include "osdefs.h" #include "clinic/_tracemalloc.c.h" /*[clinic input] module _tracemalloc [clinic start generated code]*/ /*[clinic end generated code: output=da39a3ee5e6b4b0d input=708a98302fc46e5f]*/ /* Trace memory blocks allocated by PyMem_RawMalloc() */ #define TRACE_RAW_MALLOC /* Forward declaration */ static void tracemalloc_stop(void); static void* raw_malloc(size_t size); static void raw_free(void *ptr); #ifdef Py_DEBUG # define TRACE_DEBUG #endif /* Protected by the GIL */ static struct { PyMemAllocatorEx mem; PyMemAllocatorEx raw; PyMemAllocatorEx obj; } allocators; static struct { /* Module initialized? Variable protected by the GIL */ enum { TRACEMALLOC_NOT_INITIALIZED, TRACEMALLOC_INITIALIZED, TRACEMALLOC_FINALIZED } initialized; /* Is tracemalloc tracing memory allocations? Variable protected by the GIL */ int tracing; /* limit of the number of frames in a traceback, 1 by default. Variable protected by the GIL. */ int max_nframe; /* use domain in trace key? Variable protected by the GIL. */ int use_domain; } tracemalloc_config = {TRACEMALLOC_NOT_INITIALIZED, 0, 1, 0}; #if defined(TRACE_RAW_MALLOC) /* This lock is needed because tracemalloc_free() is called without the GIL held from PyMem_RawFree(). It cannot acquire the lock because it would introduce a deadlock in PyThreadState_DeleteCurrent(). */ static PyThread_type_lock tables_lock; # define TABLES_LOCK() PyThread_acquire_lock(tables_lock, 1) # define TABLES_UNLOCK() PyThread_release_lock(tables_lock) #else /* variables are protected by the GIL */ # define TABLES_LOCK() # define TABLES_UNLOCK() #endif #define DEFAULT_DOMAIN 0 /* Pack the frame_t structure to reduce the memory footprint. */ typedef struct #ifdef __GNUC__ __attribute__((packed)) #endif { uintptr_t ptr; unsigned int domain; } pointer_t; /* Pack the frame_t structure to reduce the memory footprint on 64-bit architectures: 12 bytes instead of 16. */ typedef struct #ifdef __GNUC__ __attribute__((packed)) #elif defined(_MSC_VER) #pragma pack(push, 4) #endif { /* filename cannot be NULL: "" is used if the Python frame filename is NULL */ PyObject *filename; unsigned int lineno; } frame_t; #ifdef _MSC_VER #pragma pack(pop) #endif typedef struct { Py_uhash_t hash; int nframe; frame_t frames[1]; } traceback_t; #define TRACEBACK_SIZE(NFRAME) \ (sizeof(traceback_t) + sizeof(frame_t) * (NFRAME - 1)) #define MAX_NFRAME \ ((INT_MAX - (int)sizeof(traceback_t)) / (int)sizeof(frame_t) + 1) static PyObject *unknown_filename = NULL; static traceback_t tracemalloc_empty_traceback; /* Trace of a memory block */ typedef struct { /* Size of the memory block in bytes */ size_t size; /* Traceback where the memory block was allocated */ traceback_t *traceback; } trace_t; /* Size in bytes of currently traced memory. Protected by TABLES_LOCK(). */ static size_t tracemalloc_traced_memory = 0; /* Peak size in bytes of traced memory. Protected by TABLES_LOCK(). */ static size_t tracemalloc_peak_traced_memory = 0; /* Hash table used as a set to intern filenames: PyObject* => PyObject*. Protected by the GIL */ static _Py_hashtable_t *tracemalloc_filenames = NULL; /* Buffer to store a new traceback in traceback_new(). Protected by the GIL. */ static traceback_t *tracemalloc_traceback = NULL; /* Hash table used as a set to intern tracebacks: traceback_t* => traceback_t* Protected by the GIL */ static _Py_hashtable_t *tracemalloc_tracebacks = NULL; /* pointer (void*) => trace (trace_t). Protected by TABLES_LOCK(). */ static _Py_hashtable_t *tracemalloc_traces = NULL; #ifdef TRACE_DEBUG static void tracemalloc_error(const char *format, ...) { va_list ap; fprintf(stderr, "tracemalloc: "); va_start(ap, format); vfprintf(stderr, format, ap); va_end(ap); fprintf(stderr, "\n"); fflush(stderr); } #endif #if defined(TRACE_RAW_MALLOC) #define REENTRANT_THREADLOCAL /* If your OS does not provide native thread local storage, you can implement it manually using a lock. Functions of thread.c cannot be used because they use PyMem_RawMalloc() which leads to a reentrant call. */ #if !(defined(_POSIX_THREADS) || defined(NT_THREADS)) # error "need native thread local storage (TLS)" #endif static int tracemalloc_reentrant_key = -1; /* Any non-NULL pointer can be used */ #define REENTRANT Py_True static int get_reentrant(void) { void *ptr; assert(tracemalloc_reentrant_key != -1); ptr = PyThread_get_key_value(tracemalloc_reentrant_key); if (ptr != NULL) { assert(ptr == REENTRANT); return 1; } else return 0; } static void set_reentrant(int reentrant) { assert(reentrant == 0 || reentrant == 1); assert(tracemalloc_reentrant_key != -1); if (reentrant) { assert(!get_reentrant()); PyThread_set_key_value(tracemalloc_reentrant_key, REENTRANT); } else { assert(get_reentrant()); PyThread_set_key_value(tracemalloc_reentrant_key, NULL); } } #else /* TRACE_RAW_MALLOC not defined: variable protected by the GIL */ static int tracemalloc_reentrant = 0; static int get_reentrant(void) { return tracemalloc_reentrant; } static void set_reentrant(int reentrant) { assert(reentrant != tracemalloc_reentrant); tracemalloc_reentrant = reentrant; } #endif static Py_uhash_t hashtable_hash_pyobject(_Py_hashtable_t *ht, const void *pkey) { PyObject *obj; _Py_HASHTABLE_READ_KEY(ht, pkey, obj); return PyObject_Hash(obj); } static int hashtable_compare_unicode(_Py_hashtable_t *ht, const void *pkey, const _Py_hashtable_entry_t *entry) { PyObject *key1, *key2; _Py_HASHTABLE_READ_KEY(ht, pkey, key1); _Py_HASHTABLE_ENTRY_READ_KEY(ht, entry, key2); if (key1 != NULL && key2 != NULL) return (PyUnicode_Compare(key1, key2) == 0); else return key1 == key2; } static Py_uhash_t hashtable_hash_pointer_t(_Py_hashtable_t *ht, const void *pkey) { pointer_t ptr; Py_uhash_t hash; _Py_HASHTABLE_READ_KEY(ht, pkey, ptr); hash = (Py_uhash_t)_Py_HashPointer((void*)ptr.ptr); hash ^= ptr.domain; return hash; } static int hashtable_compare_pointer_t(_Py_hashtable_t *ht, const void *pkey, const _Py_hashtable_entry_t *entry) { pointer_t ptr1, ptr2; _Py_HASHTABLE_READ_KEY(ht, pkey, ptr1); _Py_HASHTABLE_ENTRY_READ_KEY(ht, entry, ptr2); /* compare pointer before domain, because pointer is more likely to be different */ return (ptr1.ptr == ptr2.ptr && ptr1.domain == ptr2.domain); } static _Py_hashtable_t * hashtable_new(size_t key_size, size_t data_size, _Py_hashtable_hash_func hash_func, _Py_hashtable_compare_func compare_func) { _Py_hashtable_allocator_t hashtable_alloc = {malloc, free}; return _Py_hashtable_new_full(key_size, data_size, 0, hash_func, compare_func, &hashtable_alloc); } static void* raw_malloc(size_t size) { return allocators.raw.malloc(allocators.raw.ctx, size); } static void raw_free(void *ptr) { allocators.raw.free(allocators.raw.ctx, ptr); } static Py_uhash_t hashtable_hash_traceback(_Py_hashtable_t *ht, const void *pkey) { traceback_t *traceback; _Py_HASHTABLE_READ_KEY(ht, pkey, traceback); return traceback->hash; } static int hashtable_compare_traceback(_Py_hashtable_t *ht, const void *pkey, const _Py_hashtable_entry_t *entry) { traceback_t *traceback1, *traceback2; const frame_t *frame1, *frame2; int i; _Py_HASHTABLE_READ_KEY(ht, pkey, traceback1); _Py_HASHTABLE_ENTRY_READ_KEY(ht, entry, traceback2); if (traceback1->nframe != traceback2->nframe) return 0; for (i=0; i < traceback1->nframe; i++) { frame1 = &traceback1->frames[i]; frame2 = &traceback2->frames[i]; if (frame1->lineno != frame2->lineno) return 0; if (frame1->filename != frame2->filename) { assert(PyUnicode_Compare(frame1->filename, frame2->filename) != 0); return 0; } } return 1; } static void tracemalloc_get_frame(PyFrameObject *pyframe, frame_t *frame) { PyCodeObject *code; PyObject *filename; _Py_hashtable_entry_t *entry; int lineno; frame->filename = unknown_filename; lineno = PyFrame_GetLineNumber(pyframe); if (lineno < 0) lineno = 0; frame->lineno = (unsigned int)lineno; code = pyframe->f_code; if (code == NULL) { #ifdef TRACE_DEBUG tracemalloc_error("failed to get the code object of the frame"); #endif return; } if (code->co_filename == NULL) { #ifdef TRACE_DEBUG tracemalloc_error("failed to get the filename of the code object"); #endif return; } filename = code->co_filename; assert(filename != NULL); if (filename == NULL) return; if (!PyUnicode_Check(filename)) { #ifdef TRACE_DEBUG tracemalloc_error("filename is not a unicode string"); #endif return; } if (!PyUnicode_IS_READY(filename)) { /* Don't make a Unicode string ready to avoid reentrant calls to tracemalloc_malloc() or tracemalloc_realloc() */ #ifdef TRACE_DEBUG tracemalloc_error("filename is not a ready unicode string"); #endif return; } /* intern the filename */ entry = _Py_HASHTABLE_GET_ENTRY(tracemalloc_filenames, filename); if (entry != NULL) { _Py_HASHTABLE_ENTRY_READ_KEY(tracemalloc_filenames, entry, filename); } else { /* tracemalloc_filenames is responsible to keep a reference to the filename */ Py_INCREF(filename); if (_Py_HASHTABLE_SET_NODATA(tracemalloc_filenames, filename) < 0) { Py_DECREF(filename); #ifdef TRACE_DEBUG tracemalloc_error("failed to intern the filename"); #endif return; } } /* the tracemalloc_filenames table keeps a reference to the filename */ frame->filename = filename; } static Py_uhash_t traceback_hash(traceback_t *traceback) { /* code based on tuplehash() of Objects/tupleobject.c */ Py_uhash_t x, y; /* Unsigned for defined overflow behavior. */ int len = traceback->nframe; Py_uhash_t mult = _PyHASH_MULTIPLIER; frame_t *frame; x = 0x345678UL; frame = traceback->frames; while (--len >= 0) { y = (Py_uhash_t)PyObject_Hash(frame->filename); y ^= (Py_uhash_t)frame->lineno; frame++; x = (x ^ y) * mult; /* the cast might truncate len; that doesn't change hash stability */ mult += (Py_uhash_t)(82520UL + len + len); } x += 97531UL; return x; } static void traceback_get_frames(traceback_t *traceback) { PyThreadState *tstate; PyFrameObject *pyframe; tstate = PyGILState_GetThisThreadState(); if (tstate == NULL) { #ifdef TRACE_DEBUG tracemalloc_error("failed to get the current thread state"); #endif return; } for (pyframe = tstate->frame; pyframe != NULL; pyframe = pyframe->f_back) { tracemalloc_get_frame(pyframe, &traceback->frames[traceback->nframe]); assert(traceback->frames[traceback->nframe].filename != NULL); traceback->nframe++; if (traceback->nframe == tracemalloc_config.max_nframe) break; } } static traceback_t * traceback_new(void) { traceback_t *traceback; _Py_hashtable_entry_t *entry; assert(PyGILState_Check()); /* get frames */ traceback = tracemalloc_traceback; traceback->nframe = 0; traceback_get_frames(traceback); if (traceback->nframe == 0) return &tracemalloc_empty_traceback; traceback->hash = traceback_hash(traceback); /* intern the traceback */ entry = _Py_HASHTABLE_GET_ENTRY(tracemalloc_tracebacks, traceback); if (entry != NULL) { _Py_HASHTABLE_ENTRY_READ_KEY(tracemalloc_tracebacks, entry, traceback); } else { traceback_t *copy; size_t traceback_size; traceback_size = TRACEBACK_SIZE(traceback->nframe); copy = raw_malloc(traceback_size); if (copy == NULL) { #ifdef TRACE_DEBUG tracemalloc_error("failed to intern the traceback: malloc failed"); #endif return NULL; } memcpy(copy, traceback, traceback_size); if (_Py_HASHTABLE_SET_NODATA(tracemalloc_tracebacks, copy) < 0) { raw_free(copy); #ifdef TRACE_DEBUG tracemalloc_error("failed to intern the traceback: putdata failed"); #endif return NULL; } traceback = copy; } return traceback; } static int tracemalloc_use_domain_cb(_Py_hashtable_t *old_traces, _Py_hashtable_entry_t *entry, void *user_data) { uintptr_t ptr; pointer_t key; _Py_hashtable_t *new_traces = (_Py_hashtable_t *)user_data; const void *pdata = _Py_HASHTABLE_ENTRY_PDATA(old_traces, entry); _Py_HASHTABLE_ENTRY_READ_KEY(old_traces, entry, ptr); key.ptr = ptr; key.domain = DEFAULT_DOMAIN; return _Py_hashtable_set(new_traces, sizeof(key), &key, old_traces->data_size, pdata); } /* Convert tracemalloc_traces from compact key (uintptr_t) to pointer_t key. * Return 0 on success, -1 on error. */ static int tracemalloc_use_domain(void) { _Py_hashtable_t *new_traces = NULL; assert(!tracemalloc_config.use_domain); new_traces = hashtable_new(sizeof(pointer_t), sizeof(trace_t), hashtable_hash_pointer_t, hashtable_compare_pointer_t); if (new_traces == NULL) { return -1; } if (_Py_hashtable_foreach(tracemalloc_traces, tracemalloc_use_domain_cb, new_traces) < 0) { _Py_hashtable_destroy(new_traces); return -1; } _Py_hashtable_destroy(tracemalloc_traces); tracemalloc_traces = new_traces; tracemalloc_config.use_domain = 1; return 0; } static void tracemalloc_remove_trace(unsigned int domain, uintptr_t ptr) { trace_t trace; int removed; assert(tracemalloc_config.tracing); if (tracemalloc_config.use_domain) { pointer_t key = {ptr, domain}; removed = _Py_HASHTABLE_POP(tracemalloc_traces, key, trace); } else { removed = _Py_HASHTABLE_POP(tracemalloc_traces, ptr, trace); } if (!removed) { return; } assert(tracemalloc_traced_memory >= trace.size); tracemalloc_traced_memory -= trace.size; } #define REMOVE_TRACE(ptr) \ tracemalloc_remove_trace(DEFAULT_DOMAIN, (uintptr_t)(ptr)) static int tracemalloc_add_trace(unsigned int domain, uintptr_t ptr, size_t size) { pointer_t key = {ptr, domain}; traceback_t *traceback; trace_t trace; _Py_hashtable_entry_t* entry; int res; assert(tracemalloc_config.tracing); traceback = traceback_new(); if (traceback == NULL) { return -1; } if (!tracemalloc_config.use_domain && domain != DEFAULT_DOMAIN) { /* first trace using a non-zero domain whereas traces use compact (uintptr_t) keys: switch to pointer_t keys. */ if (tracemalloc_use_domain() < 0) { return -1; } } if (tracemalloc_config.use_domain) { entry = _Py_HASHTABLE_GET_ENTRY(tracemalloc_traces, key); } else { entry = _Py_HASHTABLE_GET_ENTRY(tracemalloc_traces, ptr); } if (entry != NULL) { /* the memory block is already tracked */ _Py_HASHTABLE_ENTRY_READ_DATA(tracemalloc_traces, entry, trace); assert(tracemalloc_traced_memory >= trace.size); tracemalloc_traced_memory -= trace.size; trace.size = size; trace.traceback = traceback; _Py_HASHTABLE_ENTRY_WRITE_DATA(tracemalloc_traces, entry, trace); } else { trace.size = size; trace.traceback = traceback; if (tracemalloc_config.use_domain) { res = _Py_HASHTABLE_SET(tracemalloc_traces, key, trace); } else { res = _Py_HASHTABLE_SET(tracemalloc_traces, ptr, trace); } if (res != 0) { return res; } } assert(tracemalloc_traced_memory <= SIZE_MAX - size); tracemalloc_traced_memory += size; if (tracemalloc_traced_memory > tracemalloc_peak_traced_memory) tracemalloc_peak_traced_memory = tracemalloc_traced_memory; return 0; } #define ADD_TRACE(ptr, size) \ tracemalloc_add_trace(DEFAULT_DOMAIN, (uintptr_t)(ptr), size) static void* tracemalloc_alloc(int use_calloc, void *ctx, size_t nelem, size_t elsize) { PyMemAllocatorEx *alloc = (PyMemAllocatorEx *)ctx; void *ptr; assert(elsize == 0 || nelem <= SIZE_MAX / elsize); if (use_calloc) ptr = alloc->calloc(alloc->ctx, nelem, elsize); else ptr = alloc->malloc(alloc->ctx, nelem * elsize); if (ptr == NULL) return NULL; TABLES_LOCK(); if (ADD_TRACE(ptr, nelem * elsize) < 0) { /* Failed to allocate a trace for the new memory block */ TABLES_UNLOCK(); alloc->free(alloc->ctx, ptr); return NULL; } TABLES_UNLOCK(); return ptr; } static void* tracemalloc_realloc(void *ctx, void *ptr, size_t new_size) { PyMemAllocatorEx *alloc = (PyMemAllocatorEx *)ctx; void *ptr2; ptr2 = alloc->realloc(alloc->ctx, ptr, new_size); if (ptr2 == NULL) return NULL; if (ptr != NULL) { /* an existing memory block has been resized */ TABLES_LOCK(); /* tracemalloc_add_trace() updates the trace if there is already a trace at address (domain, ptr2) */ if (ptr2 != ptr) { REMOVE_TRACE(ptr); } if (ADD_TRACE(ptr2, new_size) < 0) { /* Memory allocation failed. The error cannot be reported to the caller, because realloc() may already have shrunk the memory block and so removed bytes. This case is very unlikely: a hash entry has just been released, so the hash table should have at least one free entry. The GIL and the table lock ensures that only one thread is allocating memory. */ assert(0 && "should never happen"); } TABLES_UNLOCK(); } else { /* new allocation */ TABLES_LOCK(); if (ADD_TRACE(ptr2, new_size) < 0) { /* Failed to allocate a trace for the new memory block */ TABLES_UNLOCK(); alloc->free(alloc->ctx, ptr2); return NULL; } TABLES_UNLOCK(); } return ptr2; } static void tracemalloc_free(void *ctx, void *ptr) { PyMemAllocatorEx *alloc = (PyMemAllocatorEx *)ctx; if (ptr == NULL) return; /* GIL cannot be locked in PyMem_RawFree() because it would introduce a deadlock in PyThreadState_DeleteCurrent(). */ alloc->free(alloc->ctx, ptr); TABLES_LOCK(); REMOVE_TRACE(ptr); TABLES_UNLOCK(); } static void* tracemalloc_alloc_gil(int use_calloc, void *ctx, size_t nelem, size_t elsize) { void *ptr; if (get_reentrant()) { PyMemAllocatorEx *alloc = (PyMemAllocatorEx *)ctx; if (use_calloc) return alloc->calloc(alloc->ctx, nelem, elsize); else return alloc->malloc(alloc->ctx, nelem * elsize); } /* Ignore reentrant call. PyObjet_Malloc() calls PyMem_Malloc() for allocations larger than 512 bytes, don't trace the same memory allocation twice. */ set_reentrant(1); ptr = tracemalloc_alloc(use_calloc, ctx, nelem, elsize); set_reentrant(0); return ptr; } static void* tracemalloc_malloc_gil(void *ctx, size_t size) { return tracemalloc_alloc_gil(0, ctx, 1, size); } static void* tracemalloc_calloc_gil(void *ctx, size_t nelem, size_t elsize) { return tracemalloc_alloc_gil(1, ctx, nelem, elsize); } static void* tracemalloc_realloc_gil(void *ctx, void *ptr, size_t new_size) { void *ptr2; if (get_reentrant()) { /* Reentrant call to PyMem_Realloc() and PyMem_RawRealloc(). Example: PyMem_RawRealloc() is called internally by pymalloc (_PyObject_Malloc() and _PyObject_Realloc()) to allocate a new arena (new_arena()). */ PyMemAllocatorEx *alloc = (PyMemAllocatorEx *)ctx; ptr2 = alloc->realloc(alloc->ctx, ptr, new_size); if (ptr2 != NULL && ptr != NULL) { TABLES_LOCK(); REMOVE_TRACE(ptr); TABLES_UNLOCK(); } return ptr2; } /* Ignore reentrant call. PyObjet_Realloc() calls PyMem_Realloc() for allocations larger than 512 bytes. Don't trace the same memory allocation twice. */ set_reentrant(1); ptr2 = tracemalloc_realloc(ctx, ptr, new_size); set_reentrant(0); return ptr2; } #ifdef TRACE_RAW_MALLOC static void* tracemalloc_raw_alloc(int use_calloc, void *ctx, size_t nelem, size_t elsize) { PyGILState_STATE gil_state; void *ptr; if (get_reentrant()) { PyMemAllocatorEx *alloc = (PyMemAllocatorEx *)ctx; if (use_calloc) return alloc->calloc(alloc->ctx, nelem, elsize); else return alloc->malloc(alloc->ctx, nelem * elsize); } /* Ignore reentrant call. PyGILState_Ensure() may call PyMem_RawMalloc() indirectly which would call PyGILState_Ensure() if reentrant are not disabled. */ set_reentrant(1); gil_state = PyGILState_Ensure(); ptr = tracemalloc_alloc(use_calloc, ctx, nelem, elsize); PyGILState_Release(gil_state); set_reentrant(0); return ptr; } static void* tracemalloc_raw_malloc(void *ctx, size_t size) { return tracemalloc_raw_alloc(0, ctx, 1, size); } static void* tracemalloc_raw_calloc(void *ctx, size_t nelem, size_t elsize) { return tracemalloc_raw_alloc(1, ctx, nelem, elsize); } static void* tracemalloc_raw_realloc(void *ctx, void *ptr, size_t new_size) { PyGILState_STATE gil_state; void *ptr2; if (get_reentrant()) { /* Reentrant call to PyMem_RawRealloc(). */ PyMemAllocatorEx *alloc = (PyMemAllocatorEx *)ctx; ptr2 = alloc->realloc(alloc->ctx, ptr, new_size); if (ptr2 != NULL && ptr != NULL) { TABLES_LOCK(); REMOVE_TRACE(ptr); TABLES_UNLOCK(); } return ptr2; } /* Ignore reentrant call. PyGILState_Ensure() may call PyMem_RawMalloc() indirectly which would call PyGILState_Ensure() if reentrant calls are not disabled. */ set_reentrant(1); gil_state = PyGILState_Ensure(); ptr2 = tracemalloc_realloc(ctx, ptr, new_size); PyGILState_Release(gil_state); set_reentrant(0); return ptr2; } #endif /* TRACE_RAW_MALLOC */ static int tracemalloc_clear_filename(_Py_hashtable_t *ht, _Py_hashtable_entry_t *entry, void *user_data) { PyObject *filename; _Py_HASHTABLE_ENTRY_READ_KEY(ht, entry, filename); Py_DECREF(filename); return 0; } static int traceback_free_traceback(_Py_hashtable_t *ht, _Py_hashtable_entry_t *entry, void *user_data) { traceback_t *traceback; _Py_HASHTABLE_ENTRY_READ_KEY(ht, entry, traceback); raw_free(traceback); return 0; } /* reentrant flag must be set to call this function and GIL must be held */ static void tracemalloc_clear_traces(void) { /* The GIL protects variables againt concurrent access */ assert(PyGILState_Check()); TABLES_LOCK(); _Py_hashtable_clear(tracemalloc_traces); tracemalloc_traced_memory = 0; tracemalloc_peak_traced_memory = 0; TABLES_UNLOCK(); _Py_hashtable_foreach(tracemalloc_tracebacks, traceback_free_traceback, NULL); _Py_hashtable_clear(tracemalloc_tracebacks); _Py_hashtable_foreach(tracemalloc_filenames, tracemalloc_clear_filename, NULL); _Py_hashtable_clear(tracemalloc_filenames); } static int tracemalloc_init(void) { if (tracemalloc_config.initialized == TRACEMALLOC_FINALIZED) { PyErr_SetString(PyExc_RuntimeError, "the tracemalloc module has been unloaded"); return -1; } if (tracemalloc_config.initialized == TRACEMALLOC_INITIALIZED) return 0; PyMem_GetAllocator(PYMEM_DOMAIN_RAW, &allocators.raw); #ifdef REENTRANT_THREADLOCAL tracemalloc_reentrant_key = PyThread_create_key(); if (tracemalloc_reentrant_key == -1) { #ifdef MS_WINDOWS PyErr_SetFromWindowsErr(0); #else PyErr_SetFromErrno(PyExc_OSError); #endif return -1; } #endif #if defined(TRACE_RAW_MALLOC) if (tables_lock == NULL) { tables_lock = PyThread_allocate_lock(); if (tables_lock == NULL) { PyErr_SetString(PyExc_RuntimeError, "cannot allocate lock"); return -1; } } #endif tracemalloc_filenames = hashtable_new(sizeof(PyObject *), 0, hashtable_hash_pyobject, hashtable_compare_unicode); tracemalloc_tracebacks = hashtable_new(sizeof(traceback_t *), 0, hashtable_hash_traceback, hashtable_compare_traceback); if (tracemalloc_config.use_domain) { tracemalloc_traces = hashtable_new(sizeof(pointer_t), sizeof(trace_t), hashtable_hash_pointer_t, hashtable_compare_pointer_t); } else { tracemalloc_traces = hashtable_new(sizeof(uintptr_t), sizeof(trace_t), _Py_hashtable_hash_ptr, _Py_hashtable_compare_direct); } if (tracemalloc_filenames == NULL || tracemalloc_tracebacks == NULL || tracemalloc_traces == NULL) { PyErr_NoMemory(); return -1; } unknown_filename = PyUnicode_FromString(""); if (unknown_filename == NULL) return -1; PyUnicode_InternInPlace(&unknown_filename); tracemalloc_empty_traceback.nframe = 1; /* borrowed reference */ tracemalloc_empty_traceback.frames[0].filename = unknown_filename; tracemalloc_empty_traceback.frames[0].lineno = 0; tracemalloc_empty_traceback.hash = traceback_hash(&tracemalloc_empty_traceback); tracemalloc_config.initialized = TRACEMALLOC_INITIALIZED; return 0; } static void tracemalloc_deinit(void) { if (tracemalloc_config.initialized != TRACEMALLOC_INITIALIZED) return; tracemalloc_config.initialized = TRACEMALLOC_FINALIZED; tracemalloc_stop(); /* destroy hash tables */ _Py_hashtable_destroy(tracemalloc_tracebacks); _Py_hashtable_destroy(tracemalloc_filenames); _Py_hashtable_destroy(tracemalloc_traces); #if defined(TRACE_RAW_MALLOC) if (tables_lock != NULL) { PyThread_free_lock(tables_lock); tables_lock = NULL; } #endif #ifdef REENTRANT_THREADLOCAL PyThread_delete_key(tracemalloc_reentrant_key); tracemalloc_reentrant_key = -1; #endif Py_XDECREF(unknown_filename); } static int tracemalloc_start(int max_nframe) { PyMemAllocatorEx alloc; size_t size; if (tracemalloc_init() < 0) return -1; if (tracemalloc_config.tracing) { /* hook already installed: do nothing */ return 0; } assert(1 <= max_nframe && max_nframe <= MAX_NFRAME); tracemalloc_config.max_nframe = max_nframe; /* allocate a buffer to store a new traceback */ size = TRACEBACK_SIZE(max_nframe); assert(tracemalloc_traceback == NULL); tracemalloc_traceback = raw_malloc(size); if (tracemalloc_traceback == NULL) { PyErr_NoMemory(); return -1; } #ifdef TRACE_RAW_MALLOC alloc.malloc = tracemalloc_raw_malloc; alloc.calloc = tracemalloc_raw_calloc; alloc.realloc = tracemalloc_raw_realloc; alloc.free = tracemalloc_free; alloc.ctx = &allocators.raw; PyMem_GetAllocator(PYMEM_DOMAIN_RAW, &allocators.raw); PyMem_SetAllocator(PYMEM_DOMAIN_RAW, &alloc); #endif alloc.malloc = tracemalloc_malloc_gil; alloc.calloc = tracemalloc_calloc_gil; alloc.realloc = tracemalloc_realloc_gil; alloc.free = tracemalloc_free; alloc.ctx = &allocators.mem; PyMem_GetAllocator(PYMEM_DOMAIN_MEM, &allocators.mem); PyMem_SetAllocator(PYMEM_DOMAIN_MEM, &alloc); alloc.ctx = &allocators.obj; PyMem_GetAllocator(PYMEM_DOMAIN_OBJ, &allocators.obj); PyMem_SetAllocator(PYMEM_DOMAIN_OBJ, &alloc); /* everything is ready: start tracing Python memory allocations */ tracemalloc_config.tracing = 1; return 0; } static void tracemalloc_stop(void) { if (!tracemalloc_config.tracing) return; /* stop tracing Python memory allocations */ tracemalloc_config.tracing = 0; /* unregister the hook on memory allocators */ #ifdef TRACE_RAW_MALLOC PyMem_SetAllocator(PYMEM_DOMAIN_RAW, &allocators.raw); #endif PyMem_SetAllocator(PYMEM_DOMAIN_MEM, &allocators.mem); PyMem_SetAllocator(PYMEM_DOMAIN_OBJ, &allocators.obj); tracemalloc_clear_traces(); /* release memory */ raw_free(tracemalloc_traceback); tracemalloc_traceback = NULL; } /*[clinic input] _tracemalloc.is_tracing Return True if the tracemalloc module is tracing Python memory allocations. [clinic start generated code]*/ static PyObject * _tracemalloc_is_tracing_impl(PyObject *module) /*[clinic end generated code: output=2d763b42601cd3ef input=af104b0a00192f63]*/ { return PyBool_FromLong(tracemalloc_config.tracing); } /*[clinic input] _tracemalloc.clear_traces Clear traces of memory blocks allocated by Python. [clinic start generated code]*/ static PyObject * _tracemalloc_clear_traces_impl(PyObject *module) /*[clinic end generated code: output=a86080ee41b84197 input=0dab5b6c785183a5]*/ { if (!tracemalloc_config.tracing) Py_RETURN_NONE; set_reentrant(1); tracemalloc_clear_traces(); set_reentrant(0); Py_RETURN_NONE; } static PyObject* frame_to_pyobject(frame_t *frame) { PyObject *frame_obj, *lineno_obj; frame_obj = PyTuple_New(2); if (frame_obj == NULL) return NULL; Py_INCREF(frame->filename); PyTuple_SET_ITEM(frame_obj, 0, frame->filename); lineno_obj = PyLong_FromUnsignedLong(frame->lineno); if (lineno_obj == NULL) { Py_DECREF(frame_obj); return NULL; } PyTuple_SET_ITEM(frame_obj, 1, lineno_obj); return frame_obj; } static PyObject* traceback_to_pyobject(traceback_t *traceback, _Py_hashtable_t *intern_table) { int i; PyObject *frames, *frame; if (intern_table != NULL) { if (_Py_HASHTABLE_GET(intern_table, traceback, frames)) { Py_INCREF(frames); return frames; } } frames = PyTuple_New(traceback->nframe); if (frames == NULL) return NULL; for (i=0; i < traceback->nframe; i++) { frame = frame_to_pyobject(&traceback->frames[i]); if (frame == NULL) { Py_DECREF(frames); return NULL; } PyTuple_SET_ITEM(frames, i, frame); } if (intern_table != NULL) { if (_Py_HASHTABLE_SET(intern_table, traceback, frames) < 0) { Py_DECREF(frames); PyErr_NoMemory(); return NULL; } /* intern_table keeps a new reference to frames */ Py_INCREF(frames); } return frames; } static PyObject* trace_to_pyobject(unsigned int domain, trace_t *trace, _Py_hashtable_t *intern_tracebacks) { PyObject *trace_obj = NULL; PyObject *obj; trace_obj = PyTuple_New(3); if (trace_obj == NULL) return NULL; obj = PyLong_FromSize_t(domain); if (obj == NULL) { Py_DECREF(trace_obj); return NULL; } PyTuple_SET_ITEM(trace_obj, 0, obj); obj = PyLong_FromSize_t(trace->size); if (obj == NULL) { Py_DECREF(trace_obj); return NULL; } PyTuple_SET_ITEM(trace_obj, 1, obj); obj = traceback_to_pyobject(trace->traceback, intern_tracebacks); if (obj == NULL) { Py_DECREF(trace_obj); return NULL; } PyTuple_SET_ITEM(trace_obj, 2, obj); return trace_obj; } typedef struct { _Py_hashtable_t *traces; _Py_hashtable_t *tracebacks; PyObject *list; } get_traces_t; static int tracemalloc_get_traces_fill(_Py_hashtable_t *traces, _Py_hashtable_entry_t *entry, void *user_data) { get_traces_t *get_traces = user_data; unsigned int domain; trace_t trace; PyObject *tracemalloc_obj; int res; if (tracemalloc_config.use_domain) { pointer_t key; _Py_HASHTABLE_ENTRY_READ_KEY(traces, entry, key); domain = key.domain; } else { domain = DEFAULT_DOMAIN; } _Py_HASHTABLE_ENTRY_READ_DATA(traces, entry, trace); tracemalloc_obj = trace_to_pyobject(domain, &trace, get_traces->tracebacks); if (tracemalloc_obj == NULL) return 1; res = PyList_Append(get_traces->list, tracemalloc_obj); Py_DECREF(tracemalloc_obj); if (res < 0) return 1; return 0; } static int tracemalloc_pyobject_decref_cb(_Py_hashtable_t *tracebacks, _Py_hashtable_entry_t *entry, void *user_data) { PyObject *obj; _Py_HASHTABLE_ENTRY_READ_DATA(tracebacks, entry, obj); Py_DECREF(obj); return 0; } /*[clinic input] _tracemalloc._get_traces Get traces of all memory blocks allocated by Python. Return a list of (size: int, traceback: tuple) tuples. traceback is a tuple of (filename: str, lineno: int) tuples. Return an empty list if the tracemalloc module is disabled. [clinic start generated code]*/ static PyObject * _tracemalloc__get_traces_impl(PyObject *module) /*[clinic end generated code: output=e9929876ced4b5cc input=6c7d2230b24255aa]*/ { get_traces_t get_traces; int err; get_traces.traces = NULL; get_traces.tracebacks = NULL; get_traces.list = PyList_New(0); if (get_traces.list == NULL) goto error; if (!tracemalloc_config.tracing) return get_traces.list; /* the traceback hash table is used temporarily to intern traceback tuple of (filename, lineno) tuples */ get_traces.tracebacks = hashtable_new(sizeof(traceback_t *), sizeof(PyObject *), _Py_hashtable_hash_ptr, _Py_hashtable_compare_direct); if (get_traces.tracebacks == NULL) { PyErr_NoMemory(); goto error; } TABLES_LOCK(); get_traces.traces = _Py_hashtable_copy(tracemalloc_traces); TABLES_UNLOCK(); if (get_traces.traces == NULL) { PyErr_NoMemory(); goto error; } set_reentrant(1); err = _Py_hashtable_foreach(get_traces.traces, tracemalloc_get_traces_fill, &get_traces); set_reentrant(0); if (err) goto error; goto finally; error: Py_CLEAR(get_traces.list); finally: if (get_traces.tracebacks != NULL) { _Py_hashtable_foreach(get_traces.tracebacks, tracemalloc_pyobject_decref_cb, NULL); _Py_hashtable_destroy(get_traces.tracebacks); } if (get_traces.traces != NULL) { _Py_hashtable_destroy(get_traces.traces); } return get_traces.list; } static traceback_t* tracemalloc_get_traceback(unsigned int domain, uintptr_t ptr) { trace_t trace; int found; if (!tracemalloc_config.tracing) return NULL; TABLES_LOCK(); if (tracemalloc_config.use_domain) { pointer_t key = {ptr, domain}; found = _Py_HASHTABLE_GET(tracemalloc_traces, key, trace); } else { found = _Py_HASHTABLE_GET(tracemalloc_traces, ptr, trace); } TABLES_UNLOCK(); if (!found) return NULL; return trace.traceback; } /*[clinic input] _tracemalloc._get_object_traceback obj: object / Get the traceback where the Python object obj was allocated. Return a tuple of (filename: str, lineno: int) tuples. Return None if the tracemalloc module is disabled or did not trace the allocation of the object. [clinic start generated code]*/ static PyObject * _tracemalloc__get_object_traceback(PyObject *module, PyObject *obj) /*[clinic end generated code: output=41ee0553a658b0aa input=29495f1b21c53212]*/ { PyTypeObject *type; void *ptr; traceback_t *traceback; type = Py_TYPE(obj); if (PyType_IS_GC(type)) ptr = (void *)((char *)obj - sizeof(PyGC_Head)); else ptr = (void *)obj; traceback = tracemalloc_get_traceback(DEFAULT_DOMAIN, (uintptr_t)ptr); if (traceback == NULL) Py_RETURN_NONE; return traceback_to_pyobject(traceback, NULL); } #define PUTS(fd, str) _Py_write_noraise(fd, str, (int)strlen(str)) static void _PyMem_DumpFrame(int fd, frame_t * frame) { PUTS(fd, " File \""); _Py_DumpASCII(fd, frame->filename); PUTS(fd, "\", line "); _Py_DumpDecimal(fd, frame->lineno); PUTS(fd, "\n"); } /* Dump the traceback where a memory block was allocated into file descriptor fd. The function may block on TABLES_LOCK() but it is unlikely. */ void _PyMem_DumpTraceback(int fd, const void *ptr) { traceback_t *traceback; int i; traceback = tracemalloc_get_traceback(DEFAULT_DOMAIN, (uintptr_t)ptr); if (traceback == NULL) return; PUTS(fd, "Memory block allocated at (most recent call first):\n"); for (i=0; i < traceback->nframe; i++) { _PyMem_DumpFrame(fd, &traceback->frames[i]); } PUTS(fd, "\n"); } #undef PUTS /*[clinic input] _tracemalloc.start nframe: Py_ssize_t = 1 / Start tracing Python memory allocations. Also set the maximum number of frames stored in the traceback of a trace to nframe. [clinic start generated code]*/ static PyObject * _tracemalloc_start_impl(PyObject *module, Py_ssize_t nframe) /*[clinic end generated code: output=0f558d2079511553 input=997841629cc441cb]*/ { int nframe_int; if (nframe < 1 || nframe > MAX_NFRAME) { PyErr_Format(PyExc_ValueError, "the number of frames must be in range [1; %i]", (int)MAX_NFRAME); return NULL; } nframe_int = Py_SAFE_DOWNCAST(nframe, Py_ssize_t, int); if (tracemalloc_start(nframe_int) < 0) return NULL; Py_RETURN_NONE; } /*[clinic input] _tracemalloc.stop Stop tracing Python memory allocations. Also clear traces of memory blocks allocated by Python. [clinic start generated code]*/ static PyObject * _tracemalloc_stop_impl(PyObject *module) /*[clinic end generated code: output=c3c42ae03e3955cd input=7478f075e51dae18]*/ { tracemalloc_stop(); Py_RETURN_NONE; } /*[clinic input] _tracemalloc.get_traceback_limit Get the maximum number of frames stored in the traceback of a trace. By default, a trace of an allocated memory block only stores the most recent frame: the limit is 1. [clinic start generated code]*/ static PyObject * _tracemalloc_get_traceback_limit_impl(PyObject *module) /*[clinic end generated code: output=d556d9306ba95567 input=da3cd977fc68ae3b]*/ { return PyLong_FromLong(tracemalloc_config.max_nframe); } /*[clinic input] _tracemalloc.get_tracemalloc_memory Get the memory usage in bytes of the tracemalloc module. This memory is used internally to trace memory allocations. [clinic start generated code]*/ static PyObject * _tracemalloc_get_tracemalloc_memory_impl(PyObject *module) /*[clinic end generated code: output=e3f14e280a55f5aa input=5d919c0f4d5132ad]*/ { size_t size; size = _Py_hashtable_size(tracemalloc_tracebacks); size += _Py_hashtable_size(tracemalloc_filenames); TABLES_LOCK(); size += _Py_hashtable_size(tracemalloc_traces); TABLES_UNLOCK(); return PyLong_FromSize_t(size); } /*[clinic input] _tracemalloc.get_traced_memory Get the current size and peak size of memory blocks traced by tracemalloc. Returns a tuple: (current: int, peak: int). [clinic start generated code]*/ static PyObject * _tracemalloc_get_traced_memory_impl(PyObject *module) /*[clinic end generated code: output=5b167189adb9e782 input=61ddb5478400ff66]*/ { Py_ssize_t size, peak_size; if (!tracemalloc_config.tracing) return Py_BuildValue("ii", 0, 0); TABLES_LOCK(); size = tracemalloc_traced_memory; peak_size = tracemalloc_peak_traced_memory; TABLES_UNLOCK(); return Py_BuildValue("nn", size, peak_size); } static PyMethodDef module_methods[] = { _TRACEMALLOC_IS_TRACING_METHODDEF _TRACEMALLOC_CLEAR_TRACES_METHODDEF _TRACEMALLOC__GET_TRACES_METHODDEF _TRACEMALLOC__GET_OBJECT_TRACEBACK_METHODDEF _TRACEMALLOC_START_METHODDEF _TRACEMALLOC_STOP_METHODDEF _TRACEMALLOC_GET_TRACEBACK_LIMIT_METHODDEF _TRACEMALLOC_GET_TRACEMALLOC_MEMORY_METHODDEF _TRACEMALLOC_GET_TRACED_MEMORY_METHODDEF /* sentinel */ {NULL, NULL} }; PyDoc_STRVAR(module_doc, "Debug module to trace memory blocks allocated by Python."); static struct PyModuleDef module_def = { PyModuleDef_HEAD_INIT, "_tracemalloc", module_doc, 0, /* non-negative size to be able to unload the module */ module_methods, NULL, }; PyMODINIT_FUNC PyInit__tracemalloc(void) { PyObject *m; m = PyModule_Create(&module_def); if (m == NULL) return NULL; if (tracemalloc_init() < 0) return NULL; return m; } static int parse_sys_xoptions(PyObject *value) { PyObject *valuelong; long nframe; if (value == Py_True) return 1; assert(PyUnicode_Check(value)); if (PyUnicode_GetLength(value) == 0) return -1; valuelong = PyLong_FromUnicodeObject(value, 10); if (valuelong == NULL) return -1; nframe = PyLong_AsLong(valuelong); Py_DECREF(valuelong); if (nframe == -1 && PyErr_Occurred()) return -1; if (nframe < 1 || nframe > MAX_NFRAME) return -1; return Py_SAFE_DOWNCAST(nframe, long, int); } int _PyTraceMalloc_Init(void) { char *p; int nframe; assert(PyGILState_Check()); if ((p = Py_GETENV("PYTHONTRACEMALLOC")) && *p != '\0') { char *endptr = p; long value; errno = 0; value = strtol(p, &endptr, 10); if (*endptr != '\0' || value < 1 || value > MAX_NFRAME || errno == ERANGE) { Py_FatalError("PYTHONTRACEMALLOC: invalid number of frames"); return -1; } nframe = (int)value; } else { PyObject *xoptions, *key, *value; xoptions = PySys_GetXOptions(); if (xoptions == NULL) return -1; key = PyUnicode_FromString("tracemalloc"); if (key == NULL) return -1; value = PyDict_GetItemWithError(xoptions, key); /* borrowed */ Py_DECREF(key); if (value == NULL) { if (PyErr_Occurred()) return -1; /* -X tracemalloc is not used */ return 0; } nframe = parse_sys_xoptions(value); if (nframe < 0) { Py_FatalError("-X tracemalloc=NFRAME: invalid number of frames"); } } return tracemalloc_start(nframe); } void _PyTraceMalloc_Fini(void) { assert(PyGILState_Check()); tracemalloc_deinit(); } int PyTraceMalloc_Track(unsigned int domain, uintptr_t ptr, size_t size) { int res; PyGILState_STATE gil_state; if (!tracemalloc_config.tracing) { /* tracemalloc is not tracing: do nothing */ return -2; } gil_state = PyGILState_Ensure(); TABLES_LOCK(); res = tracemalloc_add_trace(domain, ptr, size); TABLES_UNLOCK(); PyGILState_Release(gil_state); return res; } int PyTraceMalloc_Untrack(unsigned int domain, uintptr_t ptr) { if (!tracemalloc_config.tracing) { /* tracemalloc is not tracing: do nothing */ return -2; } TABLES_LOCK(); tracemalloc_remove_trace(domain, ptr); TABLES_UNLOCK(); return 0; } PyObject* _PyTraceMalloc_GetTraceback(unsigned int domain, uintptr_t ptr) { traceback_t *traceback; traceback = tracemalloc_get_traceback(domain, ptr); if (traceback == NULL) Py_RETURN_NONE; return traceback_to_pyobject(traceback, NULL); }