From 133a45c109da5310add55824db21af5239951f93 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Wed, 10 Apr 2024 23:30:40 +0200 Subject: Adding upstream version 3.8.1. Signed-off-by: Daniel Baumann --- src/libutil/expression.c | 1635 ++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 1635 insertions(+) create mode 100644 src/libutil/expression.c (limited to 'src/libutil/expression.c') diff --git a/src/libutil/expression.c b/src/libutil/expression.c new file mode 100644 index 0000000..957c47f --- /dev/null +++ b/src/libutil/expression.c @@ -0,0 +1,1635 @@ +/*- + * Copyright 2016 Vsevolod Stakhov + * + * 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 "config.h" +#include "expression.h" +#include "printf.h" +#include "regexp.h" +#include "util.h" +#include "utlist.h" +#include "ottery.h" +#include "libserver/logger.h" +#include "libcryptobox/cryptobox.h" +#include + +#define RSPAMD_EXPR_FLAG_NEGATE (1 << 0) +#define RSPAMD_EXPR_FLAG_PROCESSED (1 << 1) + +#define MIN_RESORT_EVALS 50 +#define MAX_RESORT_EVALS 150 + +enum rspamd_expression_elt_type { + ELT_OP = 0, + ELT_ATOM, + ELT_LIMIT +}; + +enum rspamd_expression_op_flag { + RSPAMD_EXPRESSION_UNARY = 1u << 0u, + RSPAMD_EXPRESSION_BINARY = 1u << 1u, + RSPAMD_EXPRESSION_NARY = 1u << 2u, + RSPAMD_EXPRESSION_ARITHMETIC = 1u << 3u, + RSPAMD_EXPRESSION_LOGICAL = 1u << 4u, + RSPAMD_EXPRESSION_COMPARISON = 1u << 5u, +}; + +struct rspamd_expression_operation { + enum rspamd_expression_op op; + guint logical_priority; + guint op_flags; +}; + +struct rspamd_expression_elt { + enum rspamd_expression_elt_type type; + union { + rspamd_expression_atom_t *atom; + struct rspamd_expression_operation op; + gdouble lim; + } p; + + gint flags; + gint priority; + gdouble value; +}; + +struct rspamd_expression { + const struct rspamd_atom_subr *subr; + GArray *expressions; + GPtrArray *expression_stack; + GNode *ast; + gchar *log_id; + guint next_resort; + guint evals; +}; + +struct rspamd_expr_process_data { + gpointer *ud; + gint flags; + /* != NULL if trace is collected */ + GPtrArray *trace; + rspamd_expression_process_cb process_closure; +}; + +#define msg_debug_expression(...) rspamd_conditional_debug_fast(NULL, NULL, \ + rspamd_expression_log_id, "expression", e->log_id, \ + RSPAMD_LOG_FUNC, \ + __VA_ARGS__) + +#ifdef DEBUG_EXPRESSIONS +#define msg_debug_expression_verbose(...) rspamd_conditional_debug_fast(NULL, NULL, \ + rspamd_expression_log_id, "expression", e->log_id, \ + RSPAMD_LOG_FUNC, \ + __VA_ARGS__) +#else +#define msg_debug_expression_verbose(...) \ + do { \ + } while (0) +#endif + +INIT_LOG_MODULE(expression) + +static GQuark +rspamd_expr_quark(void) +{ + return g_quark_from_static_string("rspamd-expression"); +} + +static const gchar *RSPAMD_CONST_FUNCTION +rspamd_expr_op_to_str(enum rspamd_expression_op op); +static const gchar * +rspamd_expr_op_to_str(enum rspamd_expression_op op) +{ + const gchar *op_str = NULL; + + switch (op) { + case OP_AND: + op_str = "&"; + break; + case OP_OR: + op_str = "|"; + break; + case OP_MULT: + op_str = "*"; + break; + case OP_PLUS: + op_str = "+"; + break; + case OP_MINUS: + op_str = "-"; + break; + case OP_DIVIDE: + op_str = "/"; + break; + case OP_NOT: + op_str = "!"; + break; + case OP_GE: + op_str = ">="; + break; + case OP_GT: + op_str = ">"; + break; + case OP_LE: + op_str = "<="; + break; + case OP_LT: + op_str = "<"; + break; + case OP_EQ: + op_str = "=="; + break; + case OP_NE: + op_str = "!="; + break; + case OP_OBRACE: + op_str = "("; + break; + case OP_CBRACE: + op_str = ")"; + break; + default: + op_str = "???"; + break; + } + + return op_str; +} + +#define G_ARRAY_LAST(ar, type) (&g_array_index((ar), type, (ar)->len - 1)) + +static void +rspamd_expr_stack_elt_push(GPtrArray *stack, + gpointer elt) +{ + g_ptr_array_add(stack, elt); +} + + +static gpointer +rspamd_expr_stack_elt_pop(GPtrArray *stack) +{ + gpointer e; + gint idx; + + if (stack->len == 0) { + return NULL; + } + + idx = stack->len - 1; + e = g_ptr_array_index(stack, idx); + g_ptr_array_remove_index_fast(stack, idx); + + return e; +} + + +static void +rspamd_expr_stack_push(struct rspamd_expression *expr, + gpointer elt) +{ + rspamd_expr_stack_elt_push(expr->expression_stack, elt); +} + +static gpointer +rspamd_expr_stack_pop(struct rspamd_expression *expr) +{ + return rspamd_expr_stack_elt_pop(expr->expression_stack); +} + +static gpointer +rspamd_expr_stack_peek(struct rspamd_expression *expr) +{ + gpointer e; + gint idx; + GPtrArray *stack = expr->expression_stack; + + if (stack->len == 0) { + return NULL; + } + + idx = stack->len - 1; + e = g_ptr_array_index(stack, idx); + + return e; +} + +/* + * Return operation priority + */ +static gint RSPAMD_CONST_FUNCTION +rspamd_expr_logic_priority(enum rspamd_expression_op op); +static gint +rspamd_expr_logic_priority(enum rspamd_expression_op op) +{ + gint ret = 0; + + switch (op) { + case OP_NOT: + ret = 7; + break; + case OP_MULT: + case OP_DIVIDE: + ret = 6; + break; + case OP_PLUS: + case OP_MINUS: + ret = 5; + break; + case OP_GE: + case OP_GT: + case OP_LE: + case OP_LT: + case OP_EQ: + case OP_NE: + ret = 4; + break; + case OP_AND: + ret = 3; + break; + case OP_OR: + ret = 2; + break; + case OP_OBRACE: + case OP_CBRACE: + ret = 1; + break; + case OP_INVALID: + ret = -1; + break; + } + + return ret; +} + +static guint RSPAMD_CONST_FUNCTION +rspamd_expr_op_flags(enum rspamd_expression_op op); + +static guint +rspamd_expr_op_flags(enum rspamd_expression_op op) +{ + guint ret = 0; + + switch (op) { + case OP_NOT: + ret |= RSPAMD_EXPRESSION_UNARY | RSPAMD_EXPRESSION_LOGICAL; + break; + case OP_MULT: + ret |= RSPAMD_EXPRESSION_NARY | RSPAMD_EXPRESSION_ARITHMETIC; + break; + case OP_DIVIDE: + ret |= RSPAMD_EXPRESSION_BINARY | RSPAMD_EXPRESSION_ARITHMETIC; + break; + case OP_PLUS: + ret |= RSPAMD_EXPRESSION_NARY | RSPAMD_EXPRESSION_ARITHMETIC; + break; + case OP_MINUS: + ret |= RSPAMD_EXPRESSION_BINARY | RSPAMD_EXPRESSION_ARITHMETIC; + break; + case OP_GE: + case OP_GT: + case OP_LE: + case OP_LT: + case OP_EQ: + case OP_NE: + ret |= RSPAMD_EXPRESSION_BINARY | RSPAMD_EXPRESSION_COMPARISON; + break; + case OP_AND: + case OP_OR: + ret |= RSPAMD_EXPRESSION_NARY | RSPAMD_EXPRESSION_LOGICAL; + break; + case OP_OBRACE: + case OP_CBRACE: + case OP_INVALID: + break; + } + + return ret; +} + +/* + * Return FALSE if symbol is not operation symbol (operand) + * Return TRUE if symbol is operation symbol + */ +static gboolean RSPAMD_CONST_FUNCTION +rspamd_expr_is_operation_symbol(gchar a); +static gboolean +rspamd_expr_is_operation_symbol(gchar a) +{ + switch (a) { + case '!': + case '&': + case '|': + case '(': + case ')': + case '>': + case '<': + case '+': + case '*': + case '-': + case '/': + case '=': + return TRUE; + } + + return FALSE; +} + +static gboolean +rspamd_expr_is_operation(struct rspamd_expression *e, + const gchar *p, const gchar *end, rspamd_regexp_t *num_re) +{ + if (rspamd_expr_is_operation_symbol(*p)) { + if (p + 1 < end) { + gchar t = *(p + 1); + + if (t == ':') { + /* Special case, treat it as an atom */ + } + else if (*p == '/') { + /* Lookahead for division operation to distinguish from regexp */ + const gchar *track = p + 1; + + /* Skip spaces */ + while (track < end && g_ascii_isspace(*track)) { + track++; + } + + /* Check for a number */ + if (rspamd_regexp_search(num_re, + track, + end - track, + NULL, + NULL, + FALSE, + NULL)) { + msg_debug_expression_verbose("found divide operation"); + return TRUE; + } + + msg_debug_expression_verbose("false divide operation"); + /* Fallback to PARSE_ATOM state */ + } + else if (*p == '-') { + /* - is used in composites, so we need to distinguish - from + * 1) unary minus of a limit! + * 2) -BLAH in composites + * Decision is simple: require a space after binary `-` op + */ + if (g_ascii_isspace(t)) { + return TRUE; + } + /* Fallback to PARSE_ATOM state */ + msg_debug_expression_verbose("false minus operation"); + } + else { + /* Generic operation */ + return TRUE; + } + } + else { + /* Last op */ + return TRUE; + } + } + + return FALSE; +} + +/* Return character representation of operation */ +static enum rspamd_expression_op +rspamd_expr_str_to_op(const gchar *a, const gchar *end, const gchar **next) +{ + enum rspamd_expression_op op = OP_INVALID; + + g_assert(a < end); + + switch (*a) { + case '!': + case '&': + case '|': + case '+': + case '*': + case '/': + case '-': + case '(': + case ')': + case '=': { + if (a < end - 1) { + if ((a[0] == '&' && a[1] == '&') || + (a[0] == '|' && a[1] == '|') || + (a[0] == '!' && a[1] == '=') || + (a[0] == '=' && a[1] == '=')) { + *next = a + 2; + } + else { + *next = a + 1; + } + } + else { + *next = end; + } + /* XXX: not especially effective */ + switch (*a) { + case '!': + if (a < end - 1 && a[1] == '=') { + op = OP_NE; + } + else { + op = OP_NOT; + } + break; + case '&': + op = OP_AND; + break; + case '*': + op = OP_MULT; + break; + case '|': + op = OP_OR; + break; + case '+': + op = OP_PLUS; + break; + case '/': + op = OP_DIVIDE; + break; + case '-': + op = OP_MINUS; + break; + case '=': + op = OP_EQ; + break; + case ')': + op = OP_CBRACE; + break; + case '(': + op = OP_OBRACE; + break; + default: + op = OP_INVALID; + break; + } + break; + } + case 'O': + case 'o': + if ((gulong) (end - a) >= sizeof("or") && + g_ascii_strncasecmp(a, "or", sizeof("or") - 1) == 0) { + *next = a + sizeof("or") - 1; + op = OP_OR; + } + break; + case 'A': + case 'a': + if ((gulong) (end - a) >= sizeof("and") && + g_ascii_strncasecmp(a, "and", sizeof("and") - 1) == 0) { + *next = a + sizeof("and") - 1; + op = OP_AND; + } + break; + case 'N': + case 'n': + if ((gulong) (end - a) >= sizeof("not") && + g_ascii_strncasecmp(a, "not", sizeof("not") - 1) == 0) { + *next = a + sizeof("not") - 1; + op = OP_NOT; + } + break; + case '>': + if (a < end - 1 && a[1] == '=') { + *next = a + 2; + op = OP_GE; + } + else { + *next = a + 1; + op = OP_GT; + } + break; + case '<': + if (a < end - 1 && a[1] == '=') { + *next = a + 2; + op = OP_LE; + } + else { + *next = a + 1; + op = OP_LT; + } + break; + default: + op = OP_INVALID; + break; + } + + return op; +} + +static void +rspamd_expression_destroy(struct rspamd_expression *expr) +{ + guint i; + struct rspamd_expression_elt *elt; + + if (expr != NULL) { + + if (expr->subr->destroy) { + /* Free atoms */ + for (i = 0; i < expr->expressions->len; i++) { + elt = &g_array_index(expr->expressions, + struct rspamd_expression_elt, i); + + if (elt->type == ELT_ATOM) { + expr->subr->destroy(elt->p.atom); + } + } + } + + if (expr->expressions) { + g_array_free(expr->expressions, TRUE); + } + if (expr->expression_stack) { + g_ptr_array_free(expr->expression_stack, TRUE); + } + if (expr->ast) { + g_node_destroy(expr->ast); + } + if (expr->log_id) { + g_free(expr->log_id); + } + + g_free(expr); + } +} + +static gboolean +rspamd_ast_add_node(struct rspamd_expression *e, + GPtrArray *operands, + struct rspamd_expression_elt *op, + GError **err) +{ + + GNode *res, *a1, *a2, *test; + + g_assert(op->type == ELT_OP); + + if (op->p.op.op_flags & RSPAMD_EXPRESSION_UNARY) { + /* Unary operator */ + struct rspamd_expression_elt *test_elt; + + res = g_node_new(op); + a1 = rspamd_expr_stack_elt_pop(operands); + + if (a1 == NULL) { + g_set_error(err, rspamd_expr_quark(), EINVAL, "no operand to " + "unary '%s' operation", + rspamd_expr_op_to_str(op->p.op.op)); + g_node_destroy(res); + + return FALSE; + } + + g_node_append(res, a1); + test_elt = a1->data; + + if (test_elt->type == ELT_ATOM) { + test_elt->p.atom->parent = res; + msg_debug_expression("added unary op %s to AST; operand: %*s", + rspamd_expr_op_to_str(op->p.op.op), + (int) test_elt->p.atom->len, test_elt->p.atom->str); + } + else { + msg_debug_expression("added unary op %s to AST; operand type: %d", + rspamd_expr_op_to_str(op->p.op.op), + test_elt->type); + } + } + else { + struct rspamd_expression_elt *e1, *e2; + /* For binary/nary operators we might want to examine chains */ + a2 = rspamd_expr_stack_elt_pop(operands); + a1 = rspamd_expr_stack_elt_pop(operands); + + if (a2 == NULL) { + g_set_error(err, rspamd_expr_quark(), EINVAL, "no left operand to " + "'%s' operation", + rspamd_expr_op_to_str(op->p.op.op)); + return FALSE; + } + + if (a1 == NULL) { + g_set_error(err, rspamd_expr_quark(), EINVAL, "no right operand to " + "'%s' operation", + rspamd_expr_op_to_str(op->p.op.op)); + return FALSE; + } + + /* Nary stuff */ + if (op->p.op.op_flags & RSPAMD_EXPRESSION_NARY) { + /* + * We convert a set of ops like X + Y + Z to a nary tree like + * X Y Z + + * for the longest possible prefix of atoms/limits + */ + + /* First try with a1 */ + test = a1; + e1 = test->data; + + if (e1->type == ELT_OP && e1->p.op.op == op->p.op.op) { + /* Add children */ + g_node_append(test, a2); + rspamd_expr_stack_elt_push(operands, a1); + + msg_debug_expression("added nary op %s to AST merged with the first operand", + rspamd_expr_op_to_str(op->p.op.op)); + + return TRUE; + } + + /* Now test a2 */ + test = a2; + e2 = test->data; + + if (e2->type == ELT_OP && e2->p.op.op == op->p.op.op) { + /* Add children */ + g_node_prepend(test, a1); + rspamd_expr_stack_elt_push(operands, a2); + + msg_debug_expression("added nary op %s to AST merged with the second operand", + rspamd_expr_op_to_str(op->p.op.op)); + + return TRUE; + } + } + + /* No optimizations possible, so create a new level */ + res = g_node_new(op); + g_node_append(res, a1); + g_node_append(res, a2); + + e1 = a1->data; + e2 = a2->data; + + if (e1->type == ELT_ATOM) { + e1->p.atom->parent = res; + } + + if (e2->type == ELT_ATOM) { + e2->p.atom->parent = res; + } + + if (e1->type == ELT_ATOM && e2->type == ELT_ATOM) { + msg_debug_expression("added binary op %s to AST; operands: (%*s; %*s)", + rspamd_expr_op_to_str(op->p.op.op), + (int) e1->p.atom->len, e1->p.atom->str, + (int) e2->p.atom->len, e2->p.atom->str); + } + else { + msg_debug_expression("added binary op %s to AST; operands (types): (%d; %d)", + rspamd_expr_op_to_str(op->p.op.op), + e1->type, + e2->type); + } + } + + /* Push back resulting node to the stack */ + rspamd_expr_stack_elt_push(operands, res); + + return TRUE; +} + +static gboolean +rspamd_ast_priority_traverse(GNode *node, gpointer d) +{ + struct rspamd_expression_elt *elt = node->data, *cur_elt; + struct rspamd_expression *expr = d; + gint cnt = 0; + GNode *cur; + + if (node->children) { + cur = node->children; + while (cur) { + cur_elt = cur->data; + cnt += cur_elt->priority; + cur = cur->next; + } + elt->priority = cnt; + } + else { + /* It is atom or limit */ + g_assert(elt->type != ELT_OP); + + if (elt->type == ELT_LIMIT) { + /* Always push limit first */ + elt->priority = 0; + } + else { + elt->priority = RSPAMD_EXPRESSION_MAX_PRIORITY; + + if (expr->subr->priority != NULL) { + elt->priority = RSPAMD_EXPRESSION_MAX_PRIORITY - + expr->subr->priority(elt->p.atom); + } + elt->p.atom->hits = 0; + } + } + + return FALSE; +} + +#define ATOM_PRIORITY(a) ((a)->p.atom->hits / ((a)->p.atom->exec_time.mean > 0 ? (a)->p.atom->exec_time.mean * 10000000 : 1.0)) + +static gint +rspamd_ast_priority_cmp(GNode *a, GNode *b) +{ + struct rspamd_expression_elt *ea = a->data, *eb = b->data; + gdouble w1, w2; + + if (ea->type == ELT_LIMIT) { + return 1; + } + else if (eb->type == ELT_LIMIT) { + return -1; + } + + /* Special logic for atoms */ + if (ea->type == ELT_ATOM && eb->type == ELT_ATOM && + ea->priority == eb->priority) { + w1 = ATOM_PRIORITY(ea); + w2 = ATOM_PRIORITY(eb); + + ea->p.atom->hits = 0; + + return w1 - w2; + } + else { + return ea->priority - eb->priority; + } +} + +static gboolean +rspamd_ast_resort_traverse(GNode *node, gpointer unused) +{ + GNode *children, *last; + struct rspamd_expression_elt *elt; + + elt = (struct rspamd_expression_elt *) node->data; + + /* + * We sort merely logical operations, everything else is dangerous + */ + if (elt->type == ELT_OP && elt->p.op.op_flags & RSPAMD_EXPRESSION_LOGICAL) { + + if (node->children) { + + children = node->children; + last = g_node_last_sibling(children); + /* Needed for utlist compatibility */ + children->prev = last; + DL_SORT(node->children, rspamd_ast_priority_cmp); + /* Restore GLIB compatibility */ + children = node->children; + children->prev = NULL; + } + } + + return FALSE; +} + +static struct rspamd_expression_elt * +rspamd_expr_dup_elt(rspamd_mempool_t *pool, struct rspamd_expression_elt *elt) +{ + struct rspamd_expression_elt *n; + + n = rspamd_mempool_alloc(pool, sizeof(*n)); + memcpy(n, elt, sizeof(*n)); + + return n; +} + +gboolean +rspamd_parse_expression(const gchar *line, gsize len, + const struct rspamd_atom_subr *subr, gpointer subr_data, + rspamd_mempool_t *pool, GError **err, + struct rspamd_expression **target) +{ + struct rspamd_expression *e; + struct rspamd_expression_elt elt; + rspamd_expression_atom_t *atom; + rspamd_regexp_t *num_re; + enum rspamd_expression_op op, op_stack; + const gchar *p, *c, *end; + GPtrArray *operand_stack; + GNode *tmp; + + enum { + PARSE_ATOM = 0, + PARSE_OP, + PARSE_LIM, + SKIP_SPACES + } state = PARSE_ATOM; + + g_assert(line != NULL); + g_assert(subr != NULL && subr->parse != NULL); + + if (len == 0) { + len = strlen(line); + } + + memset(&elt, 0, sizeof(elt)); + num_re = rspamd_regexp_cache_create(NULL, + "/^(?:[+-]?([0-9]*[.])?[0-9]+)(?:\\s+|[)]|$)/", NULL, NULL); + + p = line; + c = line; + end = line + len; + e = g_malloc0(sizeof(*e)); + e->expressions = g_array_new(FALSE, FALSE, + sizeof(struct rspamd_expression_elt)); + operand_stack = g_ptr_array_sized_new(32); + e->ast = NULL; + e->expression_stack = g_ptr_array_sized_new(32); + e->subr = subr; + e->evals = 0; + e->next_resort = ottery_rand_range(MAX_RESORT_EVALS) + MIN_RESORT_EVALS; + e->log_id = g_malloc0(RSPAMD_LOG_ID_LEN + 1); + guint64 h = rspamd_cryptobox_fast_hash(line, len, 0xdeadbabe); + rspamd_snprintf(e->log_id, RSPAMD_LOG_ID_LEN + 1, "%xL", h); + msg_debug_expression("start to parse expression '%*s'", (int) len, line); + + /* Shunting-yard algorithm */ + while (p < end) { + switch (state) { + case PARSE_ATOM: + if (g_ascii_isspace(*p)) { + state = SKIP_SPACES; + continue; + } + else if (rspamd_expr_is_operation(e, p, end, num_re)) { + /* Lookahead */ + state = PARSE_OP; + continue; + } + + /* + * First of all, we check some pre-conditions: + * 1) if we have 'and ' or 'or ' or 'not ' strings, they are op + * 2) if we have full numeric string, then we check for + * the following expression: + * ^\d+\s*[><]$ + * and check the operation on stack + */ + if ((gulong) (end - p) > sizeof("and ") && + (g_ascii_strncasecmp(p, "and ", sizeof("and ") - 1) == 0 || + g_ascii_strncasecmp(p, "not ", sizeof("not ") - 1) == 0)) { + state = PARSE_OP; + } + else if ((gulong) (end - p) > sizeof("or ") && + g_ascii_strncasecmp(p, "or ", sizeof("or ") - 1) == 0) { + state = PARSE_OP; + } + else { + /* + * If we have any comparison or arithmetic operator in the stack, then try + * to parse limit + */ + op = GPOINTER_TO_INT(rspamd_expr_stack_peek(e)); + + if (op == OP_MULT || op == OP_MINUS || op == OP_DIVIDE || + op == OP_PLUS || (op >= OP_LT && op <= OP_NE)) { + if (rspamd_regexp_search(num_re, + p, + end - p, + NULL, + NULL, + FALSE, + NULL)) { + c = p; + state = PARSE_LIM; + continue; + } + /* Fallback to atom parsing */ + } + + /* Try to parse atom */ + atom = subr->parse(p, end - p, pool, subr_data, err); + if (atom == NULL || atom->len == 0) { + /* We couldn't parse the atom, so go out */ + if (err != NULL && *err == NULL) { + g_set_error(err, + rspamd_expr_quark(), + 500, + "Cannot parse atom: callback function failed" + " to parse '%.*s'", + (int) (end - p), + p); + } + goto error_label; + } + + if (atom->str == NULL) { + atom->str = p; + } + + p = p + atom->len; + + /* Push to output */ + elt.type = ELT_ATOM; + elt.p.atom = atom; + g_array_append_val(e->expressions, elt); + rspamd_expr_stack_elt_push(operand_stack, + g_node_new(rspamd_expr_dup_elt(pool, &elt))); + msg_debug_expression("found atom: %*s; pushed onto operand stack (%d size)", + (int) atom->len, atom->str, operand_stack->len); + } + break; + case PARSE_LIM: + if ((g_ascii_isdigit(*p) || *p == '-' || *p == '.') && p < end - 1) { + p++; + } + else { + if (p == end - 1 && g_ascii_isdigit(*p)) { + p++; + } + + if (p - c > 0) { + elt.type = ELT_LIMIT; + elt.p.lim = strtod(c, NULL); + g_array_append_val(e->expressions, elt); + rspamd_expr_stack_elt_push(operand_stack, + g_node_new(rspamd_expr_dup_elt(pool, &elt))); + msg_debug_expression("found limit: %.1f; pushed onto operand stack (%d size)", + elt.p.lim, operand_stack->len); + c = p; + state = SKIP_SPACES; + } + else { + g_set_error(err, rspamd_expr_quark(), 400, "Empty number"); + goto error_label; + } + } + break; + case PARSE_OP: + op = rspamd_expr_str_to_op(p, end, &p); + if (op == OP_INVALID) { + g_set_error(err, rspamd_expr_quark(), 500, "Bad operator %c", + *p); + goto error_label; + } + else if (op == OP_OBRACE) { + /* + * If the token is a left parenthesis, then push it onto + * the stack. + */ + rspamd_expr_stack_push(e, GINT_TO_POINTER(op)); + msg_debug_expression("found obrace, pushed to operators stack (%d size)", + e->expression_stack->len); + } + else if (op == OP_CBRACE) { + /* + * Until the token at the top of the stack is a left + * parenthesis, pop operators off the stack onto the + * output queue. + * + * Pop the left parenthesis from the stack, + * but not onto the output queue. + * + * If the stack runs out without finding a left parenthesis, + * then there are mismatched parentheses. + */ + msg_debug_expression("found cbrace, rewind operators stack (%d size)", + e->expression_stack->len); + + do { + op = GPOINTER_TO_INT(rspamd_expr_stack_pop(e)); + + if (op == OP_INVALID) { + g_set_error(err, rspamd_expr_quark(), 600, + "Braces mismatch"); + goto error_label; + } + + guint op_priority = rspamd_expr_logic_priority(op); + msg_debug_expression("found op: %s; priority = %d", + rspamd_expr_op_to_str(op), op_priority); + + if (op != OP_OBRACE) { + elt.type = ELT_OP; + elt.p.op.op = op; + elt.p.op.op_flags = rspamd_expr_op_flags(op); + elt.p.op.logical_priority = op_priority; + g_array_append_val(e->expressions, elt); + + if (!rspamd_ast_add_node(e, operand_stack, + rspamd_expr_dup_elt(pool, &elt), err)) { + goto error_label; + } + } + + } while (op != OP_OBRACE); + } + else { + /* + * While there is an operator token, o2, at the top of + * the operator stack, and either: + * + * - o1 is left-associative and its precedence is less than + * or equal to that of o2, or + * - o1 is right associative, and has precedence less than + * that of o2, + * + * then pop o2 off the operator stack, onto the output queue; + * + * push o1 onto the operator stack. + */ + + for (;;) { + op_stack = GPOINTER_TO_INT(rspamd_expr_stack_pop(e)); + + if (op_stack == OP_INVALID) { + /* Stack is empty */ + msg_debug_expression("no operations in operators stack"); + break; + } + + /* We ignore associativity for now */ + guint op_priority = rspamd_expr_logic_priority(op), + stack_op_priority = rspamd_expr_logic_priority(op_stack); + + msg_debug_expression("operators stack %d; operands stack: %d; " + "process operation '%s'(%d); pop operation '%s'(%d)", + e->expression_stack->len, + operand_stack->len, + rspamd_expr_op_to_str(op), op_priority, + rspamd_expr_op_to_str(op_stack), stack_op_priority); + + if (op_stack != OP_OBRACE && + op_priority < stack_op_priority) { + elt.type = ELT_OP; + elt.p.op.op = op_stack; + elt.p.op.op_flags = rspamd_expr_op_flags(op_stack); + elt.p.op.logical_priority = op_priority; + + g_array_append_val(e->expressions, elt); + + if (!rspamd_ast_add_node(e, operand_stack, + rspamd_expr_dup_elt(pool, &elt), err)) { + goto error_label; + } + } + else { + /* Push op_stack back */ + msg_debug_expression("operators stack %d; operands stack: %d; " + "process operation '%s'(%d); push back to stack '%s'(%d)", + e->expression_stack->len, + operand_stack->len, + rspamd_expr_op_to_str(op), op_priority, + rspamd_expr_op_to_str(op_stack), stack_op_priority); + rspamd_expr_stack_push(e, GINT_TO_POINTER(op_stack)); + break; + } + } + + /* Push new operator itself */ + msg_debug_expression("operators stack %d; operands stack: %d; " + "process operation '%s'; push to stack", + e->expression_stack->len, + operand_stack->len, + rspamd_expr_op_to_str(op)); + rspamd_expr_stack_push(e, GINT_TO_POINTER(op)); + } + + state = SKIP_SPACES; + break; + case SKIP_SPACES: + if (g_ascii_isspace(*p)) { + p++; + } + if (rspamd_expr_is_operation(e, p, end, num_re)) { + /* Lookahead */ + state = PARSE_OP; + } + else { + state = PARSE_ATOM; + } + break; + } + } + + /* Now we process the stack and push operators to the output */ + while ((op_stack = GPOINTER_TO_INT(rspamd_expr_stack_pop(e))) != OP_INVALID) { + msg_debug_expression("operators stack %d; operands stack: %d; " + "rewind stack; op: %s", + e->expression_stack->len, + operand_stack->len, + rspamd_expr_op_to_str(op_stack)); + + if (op_stack != OP_OBRACE) { + elt.type = ELT_OP; + elt.p.op.op = op_stack; + elt.p.op.op_flags = rspamd_expr_op_flags(op_stack); + elt.p.op.logical_priority = rspamd_expr_logic_priority(op_stack); + + g_array_append_val(e->expressions, elt); + if (!rspamd_ast_add_node(e, operand_stack, + rspamd_expr_dup_elt(pool, &elt), err)) { + goto error_label; + } + } + else { + g_set_error(err, rspamd_expr_quark(), 600, + "Braces mismatch"); + goto error_label; + } + } + + if (operand_stack->len != 1) { + g_set_error(err, rspamd_expr_quark(), 601, + "Operators mismatch: %d elts in stack", operand_stack->len); + goto error_label; + } + + e->ast = rspamd_expr_stack_elt_pop(operand_stack); + g_ptr_array_free(operand_stack, TRUE); + + /* Set priorities for branches */ + g_node_traverse(e->ast, G_POST_ORDER, G_TRAVERSE_ALL, -1, + rspamd_ast_priority_traverse, e); + + /* Now set less expensive branches to be evaluated first */ + g_node_traverse(e->ast, G_POST_ORDER, G_TRAVERSE_NON_LEAVES, -1, + rspamd_ast_resort_traverse, NULL); + + if (target) { + *target = e; + rspamd_mempool_add_destructor(pool, + (rspamd_mempool_destruct_t) rspamd_expression_destroy, e); + } + else { + rspamd_expression_destroy(e); + } + + return TRUE; + +error_label: + if (err && *err) { + msg_debug_expression("fatal expression parse error: %e", *err); + } + + while ((tmp = rspamd_expr_stack_elt_pop(operand_stack)) != NULL) { + g_node_destroy(tmp); + } + + g_ptr_array_free(operand_stack, TRUE); + rspamd_expression_destroy(e); + + return FALSE; +} + +/* + * Node optimizer function: skip nodes that are not relevant + */ +static gboolean +rspamd_ast_node_done(struct rspamd_expression_elt *elt, gdouble acc) +{ + gboolean ret = FALSE; + + g_assert(elt->type == ELT_OP); + + switch (elt->p.op.op) { + case OP_NOT: + ret = TRUE; + break; + case OP_AND: + ret = acc == 0; + break; + case OP_OR: + ret = acc != 0; + break; + default: + break; + } + + return ret; +} + + +static gdouble +rspamd_ast_do_unary_op(struct rspamd_expression_elt *elt, gdouble operand) +{ + gdouble ret; + g_assert(elt->type == ELT_OP); + + switch (elt->p.op.op) { + case OP_NOT: + ret = fabs(operand) > DBL_EPSILON ? 0.0 : 1.0; + break; + default: + g_assert_not_reached(); + } + + return ret; +} + +static gdouble +rspamd_ast_do_binary_op(struct rspamd_expression_elt *elt, gdouble op1, gdouble op2) +{ + gdouble ret; + + g_assert(elt->type == ELT_OP); + + switch (elt->p.op.op) { + case OP_MINUS: + ret = op1 - op2; + break; + case OP_DIVIDE: + ret = op1 / op2; + break; + case OP_GE: + ret = op1 >= op2; + break; + case OP_GT: + ret = op1 > op2; + break; + case OP_LE: + ret = op1 <= op2; + break; + case OP_LT: + ret = op1 < op2; + break; + case OP_EQ: + ret = op1 == op2; + break; + case OP_NE: + ret = op1 != op2; + break; + + case OP_NOT: + case OP_PLUS: + case OP_MULT: + case OP_AND: + case OP_OR: + default: + g_assert_not_reached(); + break; + } + + return ret; +} + +static gdouble +rspamd_ast_do_nary_op(struct rspamd_expression_elt *elt, gdouble val, gdouble acc) +{ + gdouble ret; + + g_assert(elt->type == ELT_OP); + + if (isnan(acc)) { + return val; + } + + switch (elt->p.op.op) { + case OP_PLUS: + ret = acc + val; + break; + case OP_MULT: + ret = acc * val; + break; + case OP_AND: + ret = (fabs(acc) > DBL_EPSILON) && (fabs(val) > DBL_EPSILON); + break; + case OP_OR: + ret = (fabs(acc) > DBL_EPSILON) || (fabs(val) > DBL_EPSILON); + break; + default: + case OP_NOT: + case OP_MINUS: + case OP_DIVIDE: + case OP_GE: + case OP_GT: + case OP_LE: + case OP_LT: + case OP_EQ: + case OP_NE: + g_assert_not_reached(); + break; + } + + return ret; +} + +static gdouble +rspamd_ast_process_node(struct rspamd_expression *e, GNode *node, + struct rspamd_expr_process_data *process_data) +{ + struct rspamd_expression_elt *elt; + GNode *cld; + gdouble acc = NAN; + float t1, t2; + gdouble val; + gboolean calc_ticks = FALSE; + __attribute__((unused)) const gchar *op_name = NULL; + + elt = node->data; + + switch (elt->type) { + case ELT_ATOM: + if (!(elt->flags & RSPAMD_EXPR_FLAG_PROCESSED)) { + /* + * Check once per 256 evaluations approx + */ + calc_ticks = (rspamd_random_uint64_fast() & 0xff) == 0xff; + if (calc_ticks) { + t1 = rspamd_get_ticks(TRUE); + } + + elt->value = process_data->process_closure(process_data->ud, elt->p.atom); + + if (fabs(elt->value) > DBL_EPSILON) { + elt->p.atom->hits++; + + if (process_data->trace) { + g_ptr_array_add(process_data->trace, elt->p.atom); + } + } + + if (calc_ticks) { + t2 = rspamd_get_ticks(TRUE); + rspamd_set_counter_ema(&elt->p.atom->exec_time, (t2 - t1), 0.5f); + } + + elt->flags |= RSPAMD_EXPR_FLAG_PROCESSED; + } + + acc = elt->value; + msg_debug_expression_verbose("atom: elt=%s; acc=%.1f", elt->p.atom->str, acc); + break; + case ELT_LIMIT: + + acc = elt->p.lim; + msg_debug_expression_verbose("limit: lim=%.1f; acc=%.1f;", elt->p.lim, acc); + break; + case ELT_OP: + g_assert(node->children != NULL); +#ifdef DEBUG_EXPRESSIONS + op_name = rspamd_expr_op_to_str(elt->p.op.op); +#endif + + if (elt->p.op.op_flags & RSPAMD_EXPRESSION_NARY) { + msg_debug_expression_verbose("proceed nary operation %s", op_name); + /* Proceed all ops in chain */ + DL_FOREACH(node->children, cld) + { + val = rspamd_ast_process_node(e, cld, process_data); + msg_debug_expression_verbose("before op: op=%s; acc=%.1f; val = %.2f", op_name, + acc, val); + acc = rspamd_ast_do_nary_op(elt, val, acc); + msg_debug_expression_verbose("after op: op=%s; acc=%.1f; val = %.2f", op_name, + acc, val); + + /* Check if we need to process further */ + if (!(process_data->flags & RSPAMD_EXPRESSION_FLAG_NOOPT)) { + if (rspamd_ast_node_done(elt, acc)) { + msg_debug_expression_verbose("optimizer: done"); + return acc; + } + } + } + } + else if (elt->p.op.op_flags & RSPAMD_EXPRESSION_BINARY) { + GNode *c1 = node->children, *c2; + + c2 = c1->next; + g_assert(c2->next == NULL); + gdouble val1, val2; + + msg_debug_expression_verbose("proceed binary operation %s", + op_name); + val1 = rspamd_ast_process_node(e, c1, process_data); + val2 = rspamd_ast_process_node(e, c2, process_data); + + msg_debug_expression_verbose("before op: op=%s; op1 = %.1f, op2 = %.1f", + op_name, val1, val2); + acc = rspamd_ast_do_binary_op(elt, val1, val2); + msg_debug_expression_verbose("after op: op=%s; res=%.1f", + op_name, acc); + } + else if (elt->p.op.op_flags & RSPAMD_EXPRESSION_UNARY) { + GNode *c1 = node->children; + + g_assert(c1->next == NULL); + + msg_debug_expression_verbose("proceed unary operation %s", + op_name); + val = rspamd_ast_process_node(e, c1, process_data); + + msg_debug_expression_verbose("before op: op=%s; op1 = %.1f", + op_name, val); + acc = rspamd_ast_do_unary_op(elt, val); + msg_debug_expression_verbose("after op: op=%s; res=%.1f", + op_name, acc); + } + break; + } + + return acc; +} + +static gboolean +rspamd_ast_cleanup_traverse(GNode *n, gpointer d) +{ + struct rspamd_expression_elt *elt = n->data; + + elt->value = 0; + elt->flags = 0; + + return FALSE; +} + +gdouble +rspamd_process_expression_closure(struct rspamd_expression *expr, + rspamd_expression_process_cb cb, + gint flags, + gpointer runtime_ud, + GPtrArray **track) +{ + struct rspamd_expr_process_data pd; + gdouble ret = 0; + + g_assert(expr != NULL); + /* Ensure that stack is empty at this point */ + g_assert(expr->expression_stack->len == 0); + + expr->evals++; + + memset(&pd, 0, sizeof(pd)); + pd.process_closure = cb; + pd.flags = flags; + pd.ud = runtime_ud; + + if (track) { + pd.trace = g_ptr_array_sized_new(32); + *track = pd.trace; + } + + ret = rspamd_ast_process_node(expr, expr->ast, &pd); + + /* Cleanup */ + g_node_traverse(expr->ast, G_IN_ORDER, G_TRAVERSE_ALL, -1, + rspamd_ast_cleanup_traverse, NULL); + + /* Check if we need to resort */ + if (expr->evals % expr->next_resort == 0) { + expr->next_resort = ottery_rand_range(MAX_RESORT_EVALS) + + MIN_RESORT_EVALS; + /* Set priorities for branches */ + g_node_traverse(expr->ast, G_POST_ORDER, G_TRAVERSE_ALL, -1, + rspamd_ast_priority_traverse, expr); + + /* Now set less expensive branches to be evaluated first */ + g_node_traverse(expr->ast, G_POST_ORDER, G_TRAVERSE_NON_LEAVES, -1, + rspamd_ast_resort_traverse, NULL); + } + + return ret; +} + +gdouble +rspamd_process_expression_track(struct rspamd_expression *expr, + gint flags, + gpointer runtime_ud, + GPtrArray **track) +{ + return rspamd_process_expression_closure(expr, + expr->subr->process, flags, runtime_ud, track); +} + +gdouble +rspamd_process_expression(struct rspamd_expression *expr, + gint flags, + gpointer runtime_ud) +{ + return rspamd_process_expression_closure(expr, + expr->subr->process, flags, runtime_ud, NULL); +} + +static gboolean +rspamd_ast_string_traverse(GNode *n, gpointer d) +{ + GString *res = d; + gint cnt; + GNode *cur; + struct rspamd_expression_elt *elt = n->data; + const char *op_str = NULL; + + if (elt->type == ELT_ATOM) { + rspamd_printf_gstring(res, "(%*s)", + (int) elt->p.atom->len, elt->p.atom->str); + } + else if (elt->type == ELT_LIMIT) { + if (elt->p.lim == (double) (gint64) elt->p.lim) { + rspamd_printf_gstring(res, "%L", (gint64) elt->p.lim); + } + else { + rspamd_printf_gstring(res, "%f", elt->p.lim); + } + } + else { + op_str = rspamd_expr_op_to_str(elt->p.op.op); + g_string_append(res, op_str); + + if (n->children) { + LL_COUNT(n->children, cur, cnt); + + if (cnt > 2) { + /* Print n-ary of the operator */ + g_string_append_printf(res, "(%d)", cnt); + } + } + } + + g_string_append_c(res, ' '); + + return FALSE; +} + +GString * +rspamd_expression_tostring(struct rspamd_expression *expr) +{ + GString *res; + + g_assert(expr != NULL); + + res = g_string_new(NULL); + g_node_traverse(expr->ast, G_POST_ORDER, G_TRAVERSE_ALL, -1, + rspamd_ast_string_traverse, res); + + /* Last space */ + if (res->len > 0) { + g_string_erase(res, res->len - 1, 1); + } + + return res; +} + +struct atom_foreach_cbdata { + rspamd_expression_atom_foreach_cb cb; + gpointer cbdata; +}; + +static gboolean +rspamd_ast_atom_traverse(GNode *n, gpointer d) +{ + struct atom_foreach_cbdata *data = d; + struct rspamd_expression_elt *elt = n->data; + rspamd_ftok_t tok; + + if (elt->type == ELT_ATOM) { + tok.begin = elt->p.atom->str; + tok.len = elt->p.atom->len; + + data->cb(&tok, data->cbdata); + } + + return FALSE; +} + +void rspamd_expression_atom_foreach(struct rspamd_expression *expr, + rspamd_expression_atom_foreach_cb cb, gpointer cbdata) +{ + struct atom_foreach_cbdata data; + + g_assert(expr != NULL); + + data.cb = cb; + data.cbdata = cbdata; + g_node_traverse(expr->ast, G_POST_ORDER, G_TRAVERSE_ALL, -1, + rspamd_ast_atom_traverse, &data); +} + +gboolean +rspamd_expression_node_is_op(GNode *node, enum rspamd_expression_op op) +{ + struct rspamd_expression_elt *elt; + + g_assert(node != NULL); + + elt = node->data; + + if (elt->type == ELT_OP && elt->p.op.op == op) { + return TRUE; + } + + return FALSE; +} -- cgit v1.2.3