/* Copyright JS Foundation and other contributors, http://js.foundation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "ecma-alloc.h" #include "ecma-gc.h" #include "ecma-helpers.h" #include "vm-defines.h" #include "vm-stack.h" #include "ecma-iterator-object.h" /** \addtogroup vm Virtual machine * @{ * * \addtogroup stack VM stack * @{ */ JERRY_STATIC_ASSERT (PARSER_WITH_CONTEXT_STACK_ALLOCATION == PARSER_BLOCK_CONTEXT_STACK_ALLOCATION, parser_with_context_stack_allocation_must_be_equal_to_parser_block_context_stack_allocation); /** * Abort (finalize) the current stack context, and remove it. * * @return new stack top */ ecma_value_t * vm_stack_context_abort (vm_frame_ctx_t *frame_ctx_p, /**< frame context */ ecma_value_t *vm_stack_top_p) /**< current stack top */ { ecma_value_t context_info = vm_stack_top_p[-1]; if (context_info & VM_CONTEXT_HAS_LEX_ENV) { ecma_object_t *lex_env_p = frame_ctx_p->lex_env_p; JERRY_ASSERT (lex_env_p->u2.outer_reference_cp != JMEM_CP_NULL); frame_ctx_p->lex_env_p = ECMA_GET_NON_NULL_POINTER (ecma_object_t, lex_env_p->u2.outer_reference_cp); ecma_deref_object (lex_env_p); } switch (VM_GET_CONTEXT_TYPE (context_info)) { case VM_CONTEXT_FINALLY_THROW: case VM_CONTEXT_FINALLY_RETURN: { ecma_free_value (vm_stack_top_p[-2]); /* FALLTHRU */ } case VM_CONTEXT_FINALLY_JUMP: case VM_CONTEXT_TRY: case VM_CONTEXT_CATCH: { VM_MINUS_EQUAL_U16 (frame_ctx_p->context_depth, PARSER_TRY_CONTEXT_STACK_ALLOCATION); vm_stack_top_p -= PARSER_TRY_CONTEXT_STACK_ALLOCATION; break; } #if ENABLED (JERRY_ES2015) case VM_CONTEXT_BLOCK: #endif /* ENABLED (JERRY_ES2015) */ case VM_CONTEXT_WITH: { VM_MINUS_EQUAL_U16 (frame_ctx_p->context_depth, PARSER_WITH_CONTEXT_STACK_ALLOCATION); vm_stack_top_p -= PARSER_WITH_CONTEXT_STACK_ALLOCATION; break; } #if ENABLED (JERRY_ES2015) case VM_CONTEXT_FOR_OF: { ecma_value_t iterator = vm_stack_top_p[-3]; if (context_info & VM_CONTEXT_CLOSE_ITERATOR) { ecma_op_iterator_close (iterator); } ecma_free_value (iterator); ecma_free_value (vm_stack_top_p[-2]); VM_MINUS_EQUAL_U16 (frame_ctx_p->context_depth, PARSER_FOR_OF_CONTEXT_STACK_ALLOCATION); vm_stack_top_p -= PARSER_FOR_OF_CONTEXT_STACK_ALLOCATION; break; } #endif /* ENABLED (JERRY_ES2015) */ default: { JERRY_ASSERT (VM_GET_CONTEXT_TYPE (vm_stack_top_p[-1]) == VM_CONTEXT_FOR_IN); ecma_collection_t *collection_p; collection_p = ECMA_GET_INTERNAL_VALUE_POINTER (ecma_collection_t, vm_stack_top_p[-2]); ecma_value_t *buffer_p = collection_p->buffer_p; for (uint32_t index = vm_stack_top_p[-3]; index < collection_p->item_count; index++) { ecma_free_value (buffer_p[index]); } ecma_collection_destroy (collection_p); ecma_free_value (vm_stack_top_p[-4]); VM_MINUS_EQUAL_U16 (frame_ctx_p->context_depth, PARSER_FOR_IN_CONTEXT_STACK_ALLOCATION); vm_stack_top_p -= PARSER_FOR_IN_CONTEXT_STACK_ALLOCATION; break; } } return vm_stack_top_p; } /* vm_stack_context_abort */ /** * Decode branch offset. * * @return branch offset */ static uint32_t vm_decode_branch_offset (const uint8_t *branch_offset_p, /**< start offset of byte code */ uint32_t length) /**< length of the branch */ { uint32_t branch_offset = *branch_offset_p; JERRY_ASSERT (length >= 1 && length <= 3); switch (length) { case 3: { branch_offset <<= 8; branch_offset |= *(++branch_offset_p); /* FALLTHRU */ } case 2: { branch_offset <<= 8; branch_offset |= *(++branch_offset_p); break; } } return branch_offset; } /* vm_decode_branch_offset */ /** * Find a finally up to the end position. * * @return true - if 'finally' found, * false - otherwise */ bool vm_stack_find_finally (vm_frame_ctx_t *frame_ctx_p, /**< frame context */ ecma_value_t **vm_stack_top_ref_p, /**< current stack top */ vm_stack_context_type_t finally_type, /**< searching this finally */ uint32_t search_limit) /**< search up-to this byte code */ { ecma_value_t *vm_stack_top_p = *vm_stack_top_ref_p; JERRY_ASSERT (finally_type <= VM_CONTEXT_FINALLY_RETURN); if (finally_type != VM_CONTEXT_FINALLY_JUMP) { search_limit = 0xffffffffu; } while (frame_ctx_p->context_depth > 0) { vm_stack_context_type_t context_type; uint32_t context_end = VM_GET_CONTEXT_END (vm_stack_top_p[-1]); if (search_limit < context_end) { *vm_stack_top_ref_p = vm_stack_top_p; return false; } context_type = VM_GET_CONTEXT_TYPE (vm_stack_top_p[-1]); if (context_type == VM_CONTEXT_TRY || context_type == VM_CONTEXT_CATCH) { const uint8_t *byte_code_p; uint32_t branch_offset_length; uint32_t branch_offset; if (search_limit == context_end) { *vm_stack_top_ref_p = vm_stack_top_p; return false; } #if ENABLED (JERRY_ES2015) if (vm_stack_top_p[-1] & VM_CONTEXT_HAS_LEX_ENV) { ecma_object_t *lex_env_p = frame_ctx_p->lex_env_p; JERRY_ASSERT (lex_env_p->u2.outer_reference_cp != JMEM_CP_NULL); frame_ctx_p->lex_env_p = ECMA_GET_NON_NULL_POINTER (ecma_object_t, lex_env_p->u2.outer_reference_cp); ecma_deref_object (lex_env_p); } #endif /* ENABLED (JERRY_ES2015) */ byte_code_p = frame_ctx_p->byte_code_start_p + context_end; if (context_type == VM_CONTEXT_TRY) { JERRY_ASSERT (byte_code_p[0] == CBC_EXT_OPCODE); if (byte_code_p[1] >= CBC_EXT_CATCH && byte_code_p[1] <= CBC_EXT_CATCH_3) { branch_offset_length = CBC_BRANCH_OFFSET_LENGTH (byte_code_p[1]); branch_offset = vm_decode_branch_offset (byte_code_p + 2, branch_offset_length); if (finally_type == VM_CONTEXT_FINALLY_THROW) { branch_offset += (uint32_t) (byte_code_p - frame_ctx_p->byte_code_start_p); vm_stack_top_p[-1] = VM_CREATE_CONTEXT (VM_CONTEXT_CATCH, branch_offset); byte_code_p += 2 + branch_offset_length; frame_ctx_p->byte_code_p = byte_code_p; *vm_stack_top_ref_p = vm_stack_top_p; return true; } byte_code_p += branch_offset; if (*byte_code_p == CBC_CONTEXT_END) { VM_MINUS_EQUAL_U16 (frame_ctx_p->context_depth, PARSER_TRY_CONTEXT_STACK_ALLOCATION); vm_stack_top_p -= PARSER_TRY_CONTEXT_STACK_ALLOCATION; continue; } } } else { #if !ENABLED (JERRY_ES2015) if (vm_stack_top_p[-1] & VM_CONTEXT_HAS_LEX_ENV) { ecma_object_t *lex_env_p = frame_ctx_p->lex_env_p; JERRY_ASSERT (lex_env_p->u2.outer_reference_cp != JMEM_CP_NULL); frame_ctx_p->lex_env_p = ECMA_GET_NON_NULL_POINTER (ecma_object_t, lex_env_p->u2.outer_reference_cp); ecma_deref_object (lex_env_p); } #endif /* !ENABLED (JERRY_ES2015) */ if (byte_code_p[0] == CBC_CONTEXT_END) { VM_MINUS_EQUAL_U16 (frame_ctx_p->context_depth, PARSER_TRY_CONTEXT_STACK_ALLOCATION); vm_stack_top_p -= PARSER_TRY_CONTEXT_STACK_ALLOCATION; continue; } } JERRY_ASSERT (byte_code_p[0] == CBC_EXT_OPCODE); JERRY_ASSERT (byte_code_p[1] >= CBC_EXT_FINALLY && byte_code_p[1] <= CBC_EXT_FINALLY_3); branch_offset_length = CBC_BRANCH_OFFSET_LENGTH (byte_code_p[1]); branch_offset = vm_decode_branch_offset (byte_code_p + 2, branch_offset_length); branch_offset += (uint32_t) (byte_code_p - frame_ctx_p->byte_code_start_p); vm_stack_top_p[-1] = VM_CREATE_CONTEXT ((uint32_t) finally_type, branch_offset); byte_code_p += 2 + branch_offset_length; frame_ctx_p->byte_code_p = byte_code_p; *vm_stack_top_ref_p = vm_stack_top_p; return true; } vm_stack_top_p = vm_stack_context_abort (frame_ctx_p, vm_stack_top_p); } *vm_stack_top_ref_p = vm_stack_top_p; return false; } /* vm_stack_find_finally */ #if ENABLED (JERRY_ES2015) /** * Get the offsets of ecma values from the specified item of a context. * * @return array of offsets, last item represents the size of the context item */ uint32_t vm_get_context_value_offsets (ecma_value_t *context_item_p) /**< any item of a context */ { switch (VM_GET_CONTEXT_TYPE (context_item_p[-1])) { case VM_CONTEXT_FINALLY_THROW: case VM_CONTEXT_FINALLY_RETURN: { return (2 << (VM_CONTEXT_OFFSET_SHIFT)) | PARSER_TRY_CONTEXT_STACK_ALLOCATION; } case VM_CONTEXT_FINALLY_JUMP: case VM_CONTEXT_TRY: case VM_CONTEXT_CATCH: { return PARSER_TRY_CONTEXT_STACK_ALLOCATION; } #if ENABLED (JERRY_ES2015) case VM_CONTEXT_BLOCK: #endif /* ENABLED (JERRY_ES2015) */ case VM_CONTEXT_WITH: { return PARSER_WITH_CONTEXT_STACK_ALLOCATION; } #if ENABLED (JERRY_ES2015) case VM_CONTEXT_FOR_OF: { return ((3 << (VM_CONTEXT_OFFSET_SHIFT * 2)) | (2 << (VM_CONTEXT_OFFSET_SHIFT)) | PARSER_FOR_OF_CONTEXT_STACK_ALLOCATION); } #endif /* ENABLED (JERRY_ES2015) */ default: { return (4 << (VM_CONTEXT_OFFSET_SHIFT)) | PARSER_FOR_IN_CONTEXT_STACK_ALLOCATION; } } } /* vm_get_context_value_offsets */ /** * Ref / deref lexical environments in the chain using the current context. */ void vm_ref_lex_env_chain (ecma_object_t *lex_env_p, /**< top of lexical environment */ uint16_t context_depth, /**< depth of function context */ ecma_value_t *context_end_p, /**< end of function context */ bool do_ref) /**< ref or deref lexical environments */ { ecma_value_t *context_top_p = context_end_p + context_depth; JERRY_ASSERT (context_top_p > context_end_p); do { if (context_top_p[-1] & VM_CONTEXT_HAS_LEX_ENV) { JERRY_ASSERT (lex_env_p->u2.outer_reference_cp != JMEM_CP_NULL); ecma_object_t *next_lex_env_p = ECMA_GET_NON_NULL_POINTER (ecma_object_t, lex_env_p->u2.outer_reference_cp); if (do_ref) { ecma_ref_object (lex_env_p); } else { ecma_deref_object (lex_env_p); } lex_env_p = next_lex_env_p; } uint32_t offsets = vm_get_context_value_offsets (context_top_p); while (VM_CONTEXT_HAS_NEXT_OFFSET (offsets)) { int32_t offset = VM_CONTEXT_GET_NEXT_OFFSET (offsets); if (do_ref) { ecma_ref_if_object (context_top_p[offset]); } else { ecma_deref_if_object (context_top_p[offset]); } offsets >>= VM_CONTEXT_OFFSET_SHIFT; } JERRY_ASSERT (context_top_p >= context_end_p + offsets); context_top_p -= offsets; } while (context_top_p > context_end_p); } /* vm_ref_lex_env_chain */ #endif /* ENABLED (JERRY_ES2015) */ /** * @} * @} */