/* * This file contains the support code for CPython's uops optimizer. * It also performs some simple optimizations. * It performs a traditional data-flow analysis[1] over the trace of uops. * Using the information gained, it chooses to emit, or skip certain instructions * if possible. * * [1] For information on data-flow analysis, please see * https://clang.llvm.org/docs/DataFlowAnalysisIntro.html * * */ #include "Python.h" #include "opcode.h" #include "pycore_dict.h" #include "pycore_interp.h" #include "pycore_opcode_metadata.h" #include "pycore_opcode_utils.h" #include "pycore_pystate.h" // _PyInterpreterState_GET() #include "pycore_uop_metadata.h" #include "pycore_dict.h" #include "pycore_long.h" #include "cpython/optimizer.h" #include "pycore_optimizer.h" #include "pycore_object.h" #include "pycore_dict.h" #include "pycore_function.h" #include "pycore_uop_metadata.h" #include "pycore_uop_ids.h" #include "pycore_range.h" #include #include #include #include #ifdef Py_DEBUG extern const char *_PyUOpName(int index); extern void _PyUOpPrint(const _PyUOpInstruction *uop); static const char *const DEBUG_ENV = "PYTHON_OPT_DEBUG"; static inline int get_lltrace(void) { char *uop_debug = Py_GETENV(DEBUG_ENV); int lltrace = 0; if (uop_debug != NULL && *uop_debug >= '0') { lltrace = *uop_debug - '0'; // TODO: Parse an int and all that } return lltrace; } #define DPRINTF(level, ...) \ if (get_lltrace() >= (level)) { printf(__VA_ARGS__); } #else #define DPRINTF(level, ...) #endif static inline bool op_is_end(uint32_t opcode) { return opcode == _EXIT_TRACE || opcode == _JUMP_TO_TOP; } static int get_mutations(PyObject* dict) { assert(PyDict_CheckExact(dict)); PyDictObject *d = (PyDictObject *)dict; return (d->ma_version_tag >> DICT_MAX_WATCHERS) & ((1 << DICT_WATCHED_MUTATION_BITS)-1); } static void increment_mutations(PyObject* dict) { assert(PyDict_CheckExact(dict)); PyDictObject *d = (PyDictObject *)dict; d->ma_version_tag += (1 << DICT_MAX_WATCHERS); } /* The first two dict watcher IDs are reserved for CPython, * so we don't need to check that they haven't been used */ #define BUILTINS_WATCHER_ID 0 #define GLOBALS_WATCHER_ID 1 static int globals_watcher_callback(PyDict_WatchEvent event, PyObject* dict, PyObject* key, PyObject* new_value) { RARE_EVENT_STAT_INC(watched_globals_modification); assert(get_mutations(dict) < _Py_MAX_ALLOWED_GLOBALS_MODIFICATIONS); _Py_Executors_InvalidateDependency(_PyInterpreterState_GET(), dict, 1); increment_mutations(dict); PyDict_Unwatch(GLOBALS_WATCHER_ID, dict); return 0; } static PyObject * convert_global_to_const(_PyUOpInstruction *inst, PyObject *obj) { assert(inst->opcode == _LOAD_GLOBAL_MODULE || inst->opcode == _LOAD_GLOBAL_BUILTINS || inst->opcode == _LOAD_ATTR_MODULE); assert(PyDict_CheckExact(obj)); PyDictObject *dict = (PyDictObject *)obj; assert(dict->ma_keys->dk_kind == DICT_KEYS_UNICODE); PyDictUnicodeEntry *entries = DK_UNICODE_ENTRIES(dict->ma_keys); assert(inst->operand <= UINT16_MAX); if ((int)inst->operand >= dict->ma_keys->dk_nentries) { return NULL; } PyObject *res = entries[inst->operand].me_value; if (res == NULL) { return NULL; } if (_Py_IsImmortal(res)) { inst->opcode = (inst->oparg & 1) ? _LOAD_CONST_INLINE_BORROW_WITH_NULL : _LOAD_CONST_INLINE_BORROW; } else { inst->opcode = (inst->oparg & 1) ? _LOAD_CONST_INLINE_WITH_NULL : _LOAD_CONST_INLINE; } inst->operand = (uint64_t)res; return res; } static int incorrect_keys(_PyUOpInstruction *inst, PyObject *obj) { if (!PyDict_CheckExact(obj)) { return 1; } PyDictObject *dict = (PyDictObject *)obj; if (dict->ma_keys->dk_version != inst->operand) { return 1; } return 0; } /* Returns 1 if successfully optimized * 0 if the trace is not suitable for optimization (yet) * -1 if there was an error. */ static int remove_globals(_PyInterpreterFrame *frame, _PyUOpInstruction *buffer, int buffer_size, _PyBloomFilter *dependencies) { PyInterpreterState *interp = _PyInterpreterState_GET(); PyObject *builtins = frame->f_builtins; if (builtins != interp->builtins) { OPT_STAT_INC(remove_globals_builtins_changed); return 1; } PyObject *globals = frame->f_globals; PyFunctionObject *function = (PyFunctionObject *)frame->f_funcobj; assert(PyFunction_Check(function)); assert(function->func_builtins == builtins); assert(function->func_globals == globals); uint32_t function_version = _PyFunction_GetVersionForCurrentState(function); /* In order to treat globals as constants, we need to * know that the globals dict is the one we expected, and * that it hasn't changed * In order to treat builtins as constants, we need to * know that the builtins dict is the one we expected, and * that it hasn't changed and that the global dictionary's * keys have not changed */ /* These values represent stacks of booleans (one bool per bit). * Pushing a frame shifts left, popping a frame shifts right. */ uint32_t function_checked = 0; uint32_t builtins_watched = 0; uint32_t globals_watched = 0; uint32_t prechecked_function_version = 0; if (interp->dict_state.watchers[GLOBALS_WATCHER_ID] == NULL) { interp->dict_state.watchers[GLOBALS_WATCHER_ID] = globals_watcher_callback; } for (int pc = 0; pc < buffer_size; pc++) { _PyUOpInstruction *inst = &buffer[pc]; int opcode = inst->opcode; switch(opcode) { case _GUARD_BUILTINS_VERSION: if (incorrect_keys(inst, builtins)) { OPT_STAT_INC(remove_globals_incorrect_keys); return 0; } if (interp->rare_events.builtin_dict >= _Py_MAX_ALLOWED_BUILTINS_MODIFICATIONS) { continue; } if ((builtins_watched & 1) == 0) { PyDict_Watch(BUILTINS_WATCHER_ID, builtins); builtins_watched |= 1; } if (function_checked & 1) { buffer[pc].opcode = NOP; } else { buffer[pc].opcode = _CHECK_FUNCTION; buffer[pc].operand = function_version; function_checked |= 1; } break; case _GUARD_GLOBALS_VERSION: if (incorrect_keys(inst, globals)) { OPT_STAT_INC(remove_globals_incorrect_keys); return 0; } uint64_t watched_mutations = get_mutations(globals); if (watched_mutations >= _Py_MAX_ALLOWED_GLOBALS_MODIFICATIONS) { continue; } if ((globals_watched & 1) == 0) { PyDict_Watch(GLOBALS_WATCHER_ID, globals); _Py_BloomFilter_Add(dependencies, globals); globals_watched |= 1; } if (function_checked & 1) { buffer[pc].opcode = NOP; } else { buffer[pc].opcode = _CHECK_FUNCTION; buffer[pc].operand = function_version; function_checked |= 1; } break; case _LOAD_GLOBAL_BUILTINS: if (function_checked & globals_watched & builtins_watched & 1) { convert_global_to_const(inst, builtins); } break; case _LOAD_GLOBAL_MODULE: if (function_checked & globals_watched & 1) { convert_global_to_const(inst, globals); } break; case _PUSH_FRAME: { builtins_watched <<= 1; globals_watched <<= 1; function_checked <<= 1; uint64_t operand = buffer[pc].operand; if (operand == 0 || (operand & 1)) { // It's either a code object or NULL, so bail return 1; } PyFunctionObject *func = (PyFunctionObject *)operand; if (func == NULL) { return 1; } assert(PyFunction_Check(func)); function_version = func->func_version; if (prechecked_function_version == function_version) { function_checked |= 1; } prechecked_function_version = 0; globals = func->func_globals; builtins = func->func_builtins; if (builtins != interp->builtins) { OPT_STAT_INC(remove_globals_builtins_changed); return 1; } break; } case _POP_FRAME: { builtins_watched >>= 1; globals_watched >>= 1; function_checked >>= 1; uint64_t operand = buffer[pc].operand; if (operand == 0 || (operand & 1)) { // It's either a code object or NULL, so bail return 1; } PyFunctionObject *func = (PyFunctionObject *)operand; if (func == NULL) { return 1; } assert(PyFunction_Check(func)); function_version = func->func_version; globals = func->func_globals; builtins = func->func_builtins; break; } case _CHECK_FUNCTION_EXACT_ARGS: prechecked_function_version = (uint32_t)buffer[pc].operand; break; default: if (op_is_end(opcode)) { return 1; } break; } } return 0; } #define STACK_LEVEL() ((int)(stack_pointer - ctx->frame->stack)) #define GETLOCAL(idx) ((ctx->frame->locals[idx])) #define REPLACE_OP(INST, OP, ARG, OPERAND) \ INST->opcode = OP; \ INST->oparg = ARG; \ INST->operand = OPERAND; #define OUT_OF_SPACE_IF_NULL(EXPR) \ do { \ if ((EXPR) == NULL) { \ goto out_of_space; \ } \ } while (0); #define _LOAD_ATTR_NOT_NULL \ do { \ OUT_OF_SPACE_IF_NULL(attr = _Py_uop_sym_new_not_null(ctx)); \ OUT_OF_SPACE_IF_NULL(null = _Py_uop_sym_new_null(ctx)); \ } while (0); /* Shortened forms for convenience, used in optimizer_bytecodes.c */ #define sym_is_not_null _Py_uop_sym_is_not_null #define sym_is_const _Py_uop_sym_is_const #define sym_get_const _Py_uop_sym_get_const #define sym_new_unknown _Py_uop_sym_new_unknown #define sym_new_not_null _Py_uop_sym_new_not_null #define sym_new_type _Py_uop_sym_new_type #define sym_is_null _Py_uop_sym_is_null #define sym_new_const _Py_uop_sym_new_const #define sym_new_null _Py_uop_sym_new_null #define sym_has_type _Py_uop_sym_has_type #define sym_get_type _Py_uop_sym_get_type #define sym_matches_type _Py_uop_sym_matches_type #define sym_set_null _Py_uop_sym_set_null #define sym_set_non_null _Py_uop_sym_set_non_null #define sym_set_type _Py_uop_sym_set_type #define sym_set_const _Py_uop_sym_set_const #define sym_is_bottom _Py_uop_sym_is_bottom #define sym_truthiness _Py_uop_sym_truthiness #define frame_new _Py_uop_frame_new #define frame_pop _Py_uop_frame_pop static int optimize_to_bool( _PyUOpInstruction *this_instr, _Py_UOpsContext *ctx, _Py_UopsSymbol *value, _Py_UopsSymbol **result_ptr) { if (sym_matches_type(value, &PyBool_Type)) { REPLACE_OP(this_instr, _NOP, 0, 0); *result_ptr = value; return 1; } int truthiness = sym_truthiness(value); if (truthiness >= 0) { PyObject *load = truthiness ? Py_True : Py_False; REPLACE_OP(this_instr, _POP_TOP_LOAD_CONST_INLINE_BORROW, 0, (uintptr_t)load); *result_ptr = sym_new_const(ctx, load); return 1; } return 0; } static void eliminate_pop_guard(_PyUOpInstruction *this_instr, bool exit) { REPLACE_OP(this_instr, _POP_TOP, 0, 0); if (exit) { REPLACE_OP((this_instr+1), _EXIT_TRACE, 0, 0); this_instr[1].target = this_instr->target; } } /* _PUSH_FRAME/_POP_FRAME's operand can be 0, a PyFunctionObject *, or a * PyCodeObject *. Retrieve the code object if possible. */ static PyCodeObject * get_code(_PyUOpInstruction *op) { assert(op->opcode == _PUSH_FRAME || op->opcode == _POP_FRAME || op->opcode == _RETURN_GENERATOR); PyCodeObject *co = NULL; uint64_t operand = op->operand; if (operand == 0) { return NULL; } if (operand & 1) { co = (PyCodeObject *)(operand & ~1); } else { PyFunctionObject *func = (PyFunctionObject *)operand; assert(PyFunction_Check(func)); co = (PyCodeObject *)func->func_code; } assert(PyCode_Check(co)); return co; } /* 1 for success, 0 for not ready, cannot error at the moment. */ static int optimize_uops( PyCodeObject *co, _PyUOpInstruction *trace, int trace_len, int curr_stacklen, _PyBloomFilter *dependencies ) { _Py_UOpsContext context; _Py_UOpsContext *ctx = &context; uint32_t opcode = UINT16_MAX; int curr_space = 0; int max_space = 0; _PyUOpInstruction *first_valid_check_stack = NULL; _PyUOpInstruction *corresponding_check_stack = NULL; if (_Py_uop_abstractcontext_init(ctx) < 0) { goto out_of_space; } _Py_UOpsAbstractFrame *frame = _Py_uop_frame_new(ctx, co, ctx->n_consumed, 0, curr_stacklen); if (frame == NULL) { return -1; } ctx->curr_frame_depth++; ctx->frame = frame; _PyUOpInstruction *this_instr = NULL; for (int i = 0; i < trace_len; i++) { this_instr = &trace[i]; int oparg = this_instr->oparg; opcode = this_instr->opcode; _Py_UopsSymbol **stack_pointer = ctx->frame->stack_pointer; #ifdef Py_DEBUG if (get_lltrace() >= 3) { printf("%4d abs: ", (int)(this_instr - trace)); _PyUOpPrint(this_instr); printf(" "); } #endif switch (opcode) { #include "optimizer_cases.c.h" default: DPRINTF(1, "\nUnknown opcode in abstract interpreter\n"); Py_UNREACHABLE(); } assert(ctx->frame != NULL); DPRINTF(3, " stack_level %d\n", STACK_LEVEL()); ctx->frame->stack_pointer = stack_pointer; assert(STACK_LEVEL() >= 0); } Py_UNREACHABLE(); out_of_space: DPRINTF(3, "\n"); DPRINTF(1, "Out of space in abstract interpreter\n"); goto done; error: DPRINTF(3, "\n"); DPRINTF(1, "Encountered error in abstract interpreter\n"); if (opcode <= MAX_UOP_ID) { OPT_ERROR_IN_OPCODE(opcode); } _Py_uop_abstractcontext_fini(ctx); return -1; hit_bottom: // Attempted to push a "bottom" (contradition) symbol onto the stack. // This means that the abstract interpreter has hit unreachable code. // We *could* generate an _EXIT_TRACE or _FATAL_ERROR here, but hitting // bottom indicates type instability, so we are probably better off // retrying later. DPRINTF(3, "\n"); DPRINTF(1, "Hit bottom in abstract interpreter\n"); _Py_uop_abstractcontext_fini(ctx); return 0; done: /* Either reached the end or cannot optimize further, but there * would be no benefit in retrying later */ _Py_uop_abstractcontext_fini(ctx); if (first_valid_check_stack != NULL) { assert(first_valid_check_stack->opcode == _CHECK_STACK_SPACE); assert(max_space > 0); assert(max_space <= INT_MAX); assert(max_space <= INT32_MAX); first_valid_check_stack->opcode = _CHECK_STACK_SPACE_OPERAND; first_valid_check_stack->operand = max_space; } return trace_len; } static int remove_unneeded_uops(_PyUOpInstruction *buffer, int buffer_size) { /* Remove _SET_IP and _CHECK_VALIDITY where possible. * _SET_IP is needed if the following instruction escapes or * could error. _CHECK_VALIDITY is needed if the previous * instruction could have escaped. */ int last_set_ip = -1; bool may_have_escaped = true; for (int pc = 0; pc < buffer_size; pc++) { int opcode = buffer[pc].opcode; switch (opcode) { case _START_EXECUTOR: may_have_escaped = false; break; case _SET_IP: buffer[pc].opcode = _NOP; last_set_ip = pc; break; case _CHECK_VALIDITY: if (may_have_escaped) { may_have_escaped = false; } else { buffer[pc].opcode = _NOP; } break; case _CHECK_VALIDITY_AND_SET_IP: if (may_have_escaped) { may_have_escaped = false; buffer[pc].opcode = _CHECK_VALIDITY; } else { buffer[pc].opcode = _NOP; } last_set_ip = pc; break; case _POP_TOP: { _PyUOpInstruction *last = &buffer[pc-1]; while (last->opcode == _NOP) { last--; } if (last->opcode == _LOAD_CONST_INLINE || last->opcode == _LOAD_CONST_INLINE_BORROW || last->opcode == _LOAD_FAST || last->opcode == _COPY ) { last->opcode = _NOP; buffer[pc].opcode = _NOP; } if (last->opcode == _REPLACE_WITH_TRUE) { last->opcode = _NOP; } break; } case _JUMP_TO_TOP: case _EXIT_TRACE: return pc + 1; default: { /* _PUSH_FRAME doesn't escape or error, but it * does need the IP for the return address */ bool needs_ip = opcode == _PUSH_FRAME; if (_PyUop_Flags[opcode] & HAS_ESCAPES_FLAG) { needs_ip = true; may_have_escaped = true; } if (needs_ip && last_set_ip >= 0) { if (buffer[last_set_ip].opcode == _CHECK_VALIDITY) { buffer[last_set_ip].opcode = _CHECK_VALIDITY_AND_SET_IP; } else { assert(buffer[last_set_ip].opcode == _NOP); buffer[last_set_ip].opcode = _SET_IP; } last_set_ip = -1; } } } } Py_UNREACHABLE(); } // 0 - failure, no error raised, just fall back to Tier 1 // -1 - failure, and raise error // > 0 - length of optimized trace int _Py_uop_analyze_and_optimize( _PyInterpreterFrame *frame, _PyUOpInstruction *buffer, int length, int curr_stacklen, _PyBloomFilter *dependencies ) { OPT_STAT_INC(optimizer_attempts); int err = remove_globals(frame, buffer, length, dependencies); if (err <= 0) { return err; } length = optimize_uops( _PyFrame_GetCode(frame), buffer, length, curr_stacklen, dependencies); if (length <= 0) { return length; } length = remove_unneeded_uops(buffer, length); assert(length > 0); OPT_STAT_INC(optimizer_successes); return length; }