+++ /dev/null
-/*
- * filter-visitor-generate-ir.c
- *
- * LTTng filter generate intermediate representation
- *
- * Copyright 2012 - Mathieu Desnoyers <mathieu.desnoyers@efficios.com>
- *
- * This library is free software; you can redistribute it and/or modify it
- * under the terms of the GNU Lesser General Public License, version 2.1 only,
- * as published by the Free Software Foundation.
- *
- * This library is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
- * Lesser General Public License for more details.
- *
- * You should have received a copy of the GNU Lesser General Public License
- * along with this library; if not, write to the Free Software Foundation,
- * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
- */
-
-#include <stdio.h>
-#include <unistd.h>
-#include <string.h>
-#include <stdlib.h>
-#include <assert.h>
-#include <errno.h>
-#include <inttypes.h>
-#include "filter-ast.h"
-#include "filter-parser.h"
-#include "filter-ir.h"
-
-static
-struct ir_op *generate_ir_recursive(struct filter_parser_ctx *ctx,
- struct filter_node *node, enum ir_side side);
-
-static
-struct ir_op *make_op_root(struct ir_op *child, enum ir_side side)
-{
- struct ir_op *op;
-
- op = calloc(sizeof(struct ir_op), 1);
- if (!op)
- return NULL;
- switch (child->data_type) {
- case IR_DATA_UNKNOWN:
- default:
- fprintf(stderr, "[error] Unknown root child data type\n");
- return NULL;
- case IR_DATA_STRING:
- fprintf(stderr, "[error] String cannot be root data type\n");
- return NULL;
- case IR_DATA_NUMERIC:
- case IR_DATA_FIELD_REF:
- /* ok */
- break;
- }
- op->op = IR_OP_ROOT;
- op->side = side;
- op->data_type = child->data_type;
- op->signedness = child->signedness;
- op->u.root.child = child;
- return op;
-}
-
-static
-struct ir_op *make_op_load_string(char *string, enum ir_side side)
-{
- struct ir_op *op;
-
- op = calloc(sizeof(struct ir_op), 1);
- if (!op)
- return NULL;
- op->op = IR_OP_LOAD;
- op->data_type = IR_DATA_STRING;
- op->signedness = IR_SIGN_UNKNOWN;
- op->side = side;
- op->u.load.u.string = strdup(string);
- if (!op->u.load.u.string) {
- free(op);
- return NULL;
- }
- return op;
-}
-
-static
-struct ir_op *make_op_load_numeric(int64_t v, enum ir_side side)
-{
- struct ir_op *op;
-
- op = calloc(sizeof(struct ir_op), 1);
- if (!op)
- return NULL;
- op->op = IR_OP_LOAD;
- op->data_type = IR_DATA_NUMERIC;
- /* TODO: for now, all numeric values are signed */
- op->signedness = IR_SIGNED;
- op->side = side;
- op->u.load.u.num = v;
- return op;
-}
-
-static
-struct ir_op *make_op_load_float(double v, enum ir_side side)
-{
- struct ir_op *op;
-
- op = calloc(sizeof(struct ir_op), 1);
- if (!op)
- return NULL;
- op->op = IR_OP_LOAD;
- op->data_type = IR_DATA_FLOAT;
- op->signedness = IR_SIGN_UNKNOWN;
- op->side = side;
- op->u.load.u.flt = v;
- return op;
-}
-
-static
-struct ir_op *make_op_load_field_ref(char *string, enum ir_side side)
-{
- struct ir_op *op;
-
- op = calloc(sizeof(struct ir_op), 1);
- if (!op)
- return NULL;
- op->op = IR_OP_LOAD;
- op->data_type = IR_DATA_FIELD_REF;
- op->signedness = IR_SIGN_DYN;
- op->side = side;
- op->u.load.u.ref = strdup(string);
- if (!op->u.load.u.ref) {
- free(op);
- return NULL;
- }
- return op;
-}
-
-static
-struct ir_op *make_op_unary(enum unary_op_type unary_op_type,
- const char *op_str, enum ir_op_signedness signedness,
- struct ir_op *child, enum ir_side side)
-{
- struct ir_op *op = NULL;
-
- if (child->data_type == IR_DATA_STRING) {
- fprintf(stderr, "[error] unary operation '%s' not allowed on string literal\n", op_str);
- goto error;
- }
-
- op = calloc(sizeof(struct ir_op), 1);
- if (!op)
- return NULL;
- op->op = IR_OP_UNARY;
- op->data_type = child->data_type;
- op->signedness = signedness;
- op->side = side;
- op->u.unary.type = unary_op_type;
- op->u.unary.child = child;
- return op;
-
-error:
- free(op);
- return NULL;
-}
-
-/*
- * unary + is pretty much useless.
- */
-static
-struct ir_op *make_op_unary_plus(struct ir_op *child, enum ir_side side)
-{
- return make_op_unary(AST_UNARY_PLUS, "+", child->signedness,
- child, side);
-}
-
-static
-struct ir_op *make_op_unary_minus(struct ir_op *child, enum ir_side side)
-{
- return make_op_unary(AST_UNARY_MINUS, "-", child->signedness,
- child, side);
-}
-
-static
-struct ir_op *make_op_unary_not(struct ir_op *child, enum ir_side side)
-{
- return make_op_unary(AST_UNARY_NOT, "!", child->signedness,
- child, side);
-}
-
-#if 0
-static
-struct ir_op *make_op_binary_numeric(enum op_type bin_op_type,
- const char *op_str, struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- struct ir_op *op = NULL;
-
- if (right->data_type == IR_DATA_STRING
- || right->data_type == IR_DATA_STRING) {
- fprintf(stderr, "[error] binary operation '%s' not allowed on string literal\n", op_str);
- goto error;
- }
- if (left->data_type == IR_DATA_UNKNOWN
- || right->data_type == IR_DATA_UNKNOWN) {
- fprintf(stderr, "[error] binary operation '%s' has unknown type for both children\n", op_str);
- goto error;
-
- }
-
- op = calloc(sizeof(struct ir_op_binary), 1);
- if (!op)
- return NULL;
- op->op = IR_OP_BINARY;
- op->u.binary.type = bin_op_type;
- op->u.binary.left = left;
- op->u.binary.right = right;
- op->side = side;
-
- /*
- * The field that is not a field ref will select type.
- */
- if (left->data_type != IR_DATA_FIELD_REF)
- op->data_type = left->data_type;
- else
- op->data_type = right->data_type;
-
- if (left->signedness == IR_SIGNED
- || right->signedness == IR_SIGNED) {
- op->signedness = IR_SIGNED;
- } else if (left->signedness == IR_SIGN_DYN
- || right->signedness == IR_SIGN_DYN) {
- op->signedness = IR_SIGN_DYN;
- } else if (left->signedness == IR_UNSIGNED
- && right->signedness == IR_UNSIGNED) {
- op->signedness = IR_UNSIGNED;
- } else {
- op->signedness = IR_SIGN_UNKNOWN;
- }
-
- return op;
-
-error:
- free(op);
- return NULL;
-}
-
-static
-struct ir_op *make_op_binary_mul(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_numeric(AST_OP_MUL, "*", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_div(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_numeric(AST_OP_DIV, "/", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_mod(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_numeric(AST_OP_MOD, "%", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_plus(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_numeric(AST_OP_PLUS, "+", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_minus(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_numeric(AST_OP_MINUS, "-", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_rshift(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_numeric(AST_OP_RSHIFT, ">>", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_lshift(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_numeric(AST_OP_LSHIFT, "<<", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_and(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_numeric(AST_OP_BIN_AND, "&", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_or(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_numeric(AST_OP_BIN_OR, "|", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_xor(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_numeric(AST_OP_BIN_XOR, "^", left, right, side);
-}
-#endif //0
-
-static
-struct ir_op *make_op_binary_compare(enum op_type bin_op_type,
- const char *op_str, struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- struct ir_op *op = NULL;
-
- if (left->data_type == IR_DATA_UNKNOWN
- || right->data_type == IR_DATA_UNKNOWN) {
- fprintf(stderr, "[error] binary operation '%s' has unknown operand type\n", op_str);
- goto error;
-
- }
- if ((left->data_type == IR_DATA_STRING
- && (right->data_type == IR_DATA_NUMERIC || right->data_type == IR_DATA_FLOAT))
- || ((left->data_type == IR_DATA_NUMERIC || left->data_type == IR_DATA_FLOAT) &&
- right->data_type == IR_DATA_STRING)) {
- fprintf(stderr, "[error] binary operation '%s' operand type mismatch\n", op_str);
- goto error;
- }
-
- op = calloc(sizeof(struct ir_op), 1);
- if (!op)
- return NULL;
- op->op = IR_OP_BINARY;
- op->u.binary.type = bin_op_type;
- op->u.binary.left = left;
- op->u.binary.right = right;
-
- /* we return a boolean, represented as signed numeric */
- op->data_type = IR_DATA_NUMERIC;
- op->signedness = IR_SIGNED;
- op->side = side;
-
- return op;
-
-error:
- free(op);
- return NULL;
-}
-
-static
-struct ir_op *make_op_binary_eq(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_compare(AST_OP_EQ, "==", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_ne(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_compare(AST_OP_NE, "!=", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_gt(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_compare(AST_OP_GT, ">", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_lt(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_compare(AST_OP_LT, "<", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_ge(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_compare(AST_OP_GE, ">=", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_le(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_compare(AST_OP_LE, "<=", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_logical(enum op_type bin_op_type,
- const char *op_str, struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- struct ir_op *op = NULL;
-
- if (left->data_type == IR_DATA_UNKNOWN
- || right->data_type == IR_DATA_UNKNOWN) {
- fprintf(stderr, "[error] binary operation '%s' has unknown operand type\n", op_str);
- goto error;
-
- }
- if (left->data_type == IR_DATA_STRING
- || right->data_type == IR_DATA_STRING) {
- fprintf(stderr, "[error] logical binary operation '%s' cannot have string operand\n", op_str);
- goto error;
- }
-
- op = calloc(sizeof(struct ir_op), 1);
- if (!op)
- return NULL;
- op->op = IR_OP_LOGICAL;
- op->u.binary.type = bin_op_type;
- op->u.binary.left = left;
- op->u.binary.right = right;
-
- /* we return a boolean, represented as signed numeric */
- op->data_type = IR_DATA_NUMERIC;
- op->signedness = IR_SIGNED;
- op->side = side;
-
- return op;
-
-error:
- free(op);
- return NULL;
-}
-
-static
-struct ir_op *make_op_binary_logical_and(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_logical(AST_OP_AND, "&&", left, right, side);
-}
-
-static
-struct ir_op *make_op_binary_logical_or(struct ir_op *left, struct ir_op *right,
- enum ir_side side)
-{
- return make_op_binary_logical(AST_OP_OR, "||", left, right, side);
-}
-
-static
-void filter_free_ir_recursive(struct ir_op *op)
-{
- if (!op)
- return;
- switch (op->op) {
- case IR_OP_UNKNOWN:
- default:
- fprintf(stderr, "[error] Unknown op type in %s\n",
- __func__);
- break;
- case IR_OP_ROOT:
- filter_free_ir_recursive(op->u.root.child);
- break;
- case IR_OP_LOAD:
- switch (op->data_type) {
- case IR_DATA_STRING:
- free(op->u.load.u.string);
- break;
- case IR_DATA_FIELD_REF:
- free(op->u.load.u.ref);
- break;
- default:
- break;
- }
- break;
- case IR_OP_UNARY:
- filter_free_ir_recursive(op->u.unary.child);
- break;
- case IR_OP_BINARY:
- filter_free_ir_recursive(op->u.binary.left);
- filter_free_ir_recursive(op->u.binary.right);
- break;
- case IR_OP_LOGICAL:
- filter_free_ir_recursive(op->u.logical.left);
- filter_free_ir_recursive(op->u.logical.right);
- break;
- }
- free(op);
-}
-
-static
-struct ir_op *make_expression(struct filter_parser_ctx *ctx,
- struct filter_node *node, enum ir_side side)
-{
- switch (node->u.expression.type) {
- case AST_EXP_UNKNOWN:
- default:
- fprintf(stderr, "[error] %s: unknown expression type\n", __func__);
- return NULL;
-
- case AST_EXP_STRING:
- return make_op_load_string(node->u.expression.u.string, side);
- case AST_EXP_CONSTANT:
- return make_op_load_numeric(node->u.expression.u.constant,
- side);
- case AST_EXP_FLOAT_CONSTANT:
- return make_op_load_float(node->u.expression.u.float_constant,
- side);
- case AST_EXP_IDENTIFIER:
- if (node->u.expression.pre_op != AST_LINK_UNKNOWN) {
- fprintf(stderr, "[error] %s: dotted and dereferenced identifiers not supported\n", __func__);
- return NULL;
- }
- return make_op_load_field_ref(node->u.expression.u.identifier,
- side);
- case AST_EXP_NESTED:
- return generate_ir_recursive(ctx, node->u.expression.u.child,
- side);
- }
-}
-
-static
-struct ir_op *make_op(struct filter_parser_ctx *ctx,
- struct filter_node *node, enum ir_side side)
-{
- struct ir_op *op = NULL, *lchild, *rchild;
- const char *op_str = "?";
-
- switch (node->u.op.type) {
- case AST_OP_UNKNOWN:
- default:
- fprintf(stderr, "[error] %s: unknown binary op type\n", __func__);
- return NULL;
-
- /*
- * Binary operators other than comparators and logical and/or
- * are not supported. If we ever want to support those, we will
- * need a stack for the general case rather than just 2
- * registers (see bytecode).
- */
- case AST_OP_MUL:
- op_str = "*";
- goto error_not_supported;
- case AST_OP_DIV:
- op_str = "/";
- goto error_not_supported;
- case AST_OP_MOD:
- op_str = "%";
- goto error_not_supported;
- case AST_OP_PLUS:
- op_str = "+";
- goto error_not_supported;
- case AST_OP_MINUS:
- op_str = "-";
- goto error_not_supported;
- case AST_OP_RSHIFT:
- op_str = ">>";
- goto error_not_supported;
- case AST_OP_LSHIFT:
- op_str = "<<";
- goto error_not_supported;
- case AST_OP_BIN_AND:
- op_str = "&";
- goto error_not_supported;
- case AST_OP_BIN_OR:
- op_str = "|";
- goto error_not_supported;
- case AST_OP_BIN_XOR:
- op_str = "^";
- goto error_not_supported;
-
- case AST_OP_EQ:
- case AST_OP_NE:
- case AST_OP_GT:
- case AST_OP_LT:
- case AST_OP_GE:
- case AST_OP_LE:
- lchild = generate_ir_recursive(ctx, node->u.op.lchild, IR_LEFT);
- if (!lchild)
- return NULL;
- rchild = generate_ir_recursive(ctx, node->u.op.rchild, IR_RIGHT);
- if (!rchild) {
- filter_free_ir_recursive(lchild);
- return NULL;
- }
- break;
-
- case AST_OP_AND:
- case AST_OP_OR:
- /*
- * Both children considered as left, since we need to
- * populate R0.
- */
- lchild = generate_ir_recursive(ctx, node->u.op.lchild, IR_LEFT);
- if (!lchild)
- return NULL;
- rchild = generate_ir_recursive(ctx, node->u.op.rchild, IR_LEFT);
- if (!rchild) {
- filter_free_ir_recursive(lchild);
- return NULL;
- }
- break;
- }
-
- switch (node->u.op.type) {
- case AST_OP_AND:
- op = make_op_binary_logical_and(lchild, rchild, side);
- break;
- case AST_OP_OR:
- op = make_op_binary_logical_or(lchild, rchild, side);
- break;
- case AST_OP_EQ:
- op = make_op_binary_eq(lchild, rchild, side);
- break;
- case AST_OP_NE:
- op = make_op_binary_ne(lchild, rchild, side);
- break;
- case AST_OP_GT:
- op = make_op_binary_gt(lchild, rchild, side);
- break;
- case AST_OP_LT:
- op = make_op_binary_lt(lchild, rchild, side);
- break;
- case AST_OP_GE:
- op = make_op_binary_ge(lchild, rchild, side);
- break;
- case AST_OP_LE:
- op = make_op_binary_le(lchild, rchild, side);
- break;
- default:
- break;
- }
-
- if (!op) {
- filter_free_ir_recursive(rchild);
- filter_free_ir_recursive(lchild);
- }
- return op;
-
-error_not_supported:
- fprintf(stderr, "[error] %s: binary operation '%s' not supported\n",
- __func__, op_str);
- return NULL;
-}
-
-static
-struct ir_op *make_unary_op(struct filter_parser_ctx *ctx,
- struct filter_node *node, enum ir_side side)
-{
- const char *op_str = "?";
-
- switch (node->u.unary_op.type) {
- case AST_UNARY_UNKNOWN:
- default:
- fprintf(stderr, "[error] %s: unknown unary op type\n", __func__);
- return NULL;
-
- case AST_UNARY_PLUS:
- {
- struct ir_op *op, *child;
-
- child = generate_ir_recursive(ctx, node->u.unary_op.child,
- side);
- if (!child)
- return NULL;
- op = make_op_unary_plus(child, side);
- if (!op) {
- filter_free_ir_recursive(child);
- return NULL;
- }
- return op;
- }
- case AST_UNARY_MINUS:
- {
- struct ir_op *op, *child;
-
- child = generate_ir_recursive(ctx, node->u.unary_op.child,
- side);
- if (!child)
- return NULL;
- op = make_op_unary_minus(child, side);
- if (!op) {
- filter_free_ir_recursive(child);
- return NULL;
- }
- return op;
- }
- case AST_UNARY_NOT:
- {
- struct ir_op *op, *child;
-
- child = generate_ir_recursive(ctx, node->u.unary_op.child,
- side);
- if (!child)
- return NULL;
- op = make_op_unary_not(child, side);
- if (!op) {
- filter_free_ir_recursive(child);
- return NULL;
- }
- return op;
- }
- case AST_UNARY_BIN_NOT:
- {
- op_str = "~";
- goto error_not_supported;
- }
- }
-
-error_not_supported:
- fprintf(stderr, "[error] %s: unary operation '%s' not supported\n",
- __func__, op_str);
- return NULL;
-}
-
-static
-struct ir_op *generate_ir_recursive(struct filter_parser_ctx *ctx,
- struct filter_node *node, enum ir_side side)
-{
- switch (node->type) {
- case NODE_UNKNOWN:
- default:
- fprintf(stderr, "[error] %s: unknown node type\n", __func__);
- return NULL;
-
- case NODE_ROOT:
- {
- struct ir_op *op, *child;
-
- child = generate_ir_recursive(ctx, node->u.root.child,
- side);
- if (!child)
- return NULL;
- op = make_op_root(child, side);
- if (!op) {
- filter_free_ir_recursive(child);
- return NULL;
- }
- return op;
- }
- case NODE_EXPRESSION:
- return make_expression(ctx, node, side);
- case NODE_OP:
- return make_op(ctx, node, side);
- case NODE_UNARY_OP:
- return make_unary_op(ctx, node, side);
- }
- return 0;
-}
-
-
-void filter_ir_free(struct filter_parser_ctx *ctx)
-{
- filter_free_ir_recursive(ctx->ir_root);
- ctx->ir_root = NULL;
-}
-
-int filter_visitor_ir_generate(struct filter_parser_ctx *ctx)
-{
- struct ir_op *op;
-
- op = generate_ir_recursive(ctx, &ctx->ast->root, IR_LEFT);
- if (!op) {
- return -EINVAL;
- }
- ctx->ir_root = op;
- return 0;
-}