/*
* lttng-filter-interpreter.c
*
* LTTng UST filter interpreter.
*
* Copyright (C) 2010-2012 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 as published by the Free Software Foundation; only
* version 2.1 of the License.
*
* 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 <urcu-pointer.h>
#include "lttng-filter.h"
/*
* -1: wildcard found.
* -2: unknown escape char.
* 0: normal char.
*/
static
int parse_char(const char **p)
{
switch (**p) {
case '\\':
(*p)++;
switch (**p) {
case '\\':
case '*':
return 0;
default:
return -2;
}
case '*':
return -1;
default:
return 0;
}
}
static
int stack_strcmp(struct estack *stack, int top, const char *cmp_type)
{
const char *p = estack_bx(stack, top)->u.s.str, *q = estack_ax(stack, top)->u.s.str;
int ret;
int diff;
for (;;) {
int escaped_r0 = 0;
if (unlikely(p - estack_bx(stack, top)->u.s.str >= estack_bx(stack, top)->u.s.seq_len || *p == '\0')) {
if (q - estack_ax(stack, top)->u.s.str >= estack_ax(stack, top)->u.s.seq_len || *q == '\0') {
return 0;
} else {
if (estack_ax(stack, top)->u.s.literal) {
ret = parse_char(&q);
if (ret == -1)
return 0;
}
return -1;
}
}
if (unlikely(q - estack_ax(stack, top)->u.s.str >= estack_ax(stack, top)->u.s.seq_len || *q == '\0')) {
if (estack_bx(stack, top)->u.s.literal) {
ret = parse_char(&p);
if (ret == -1)
return 0;
}
return 1;
}
if (estack_bx(stack, top)->u.s.literal) {
ret = parse_char(&p);
if (ret == -1) {
return 0;
} else if (ret == -2) {
escaped_r0 = 1;
}
/* else compare both char */
}
if (estack_ax(stack, top)->u.s.literal) {
ret = parse_char(&q);
if (ret == -1) {
return 0;
} else if (ret == -2) {
if (!escaped_r0)
return -1;
} else {
if (escaped_r0)
return 1;
}
} else {
if (escaped_r0)
return 1;
}
diff = *p - *q;
if (diff != 0)
break;
p++;
q++;
}
return diff;
}
uint64_t lttng_filter_false(void *filter_data,
const char *filter_stack_data)
{
return 0;
}
#ifdef INTERPRETER_USE_SWITCH
/*
* Fallback for compilers that do not support taking address of labels.
*/
#define START_OP \
start_pc = &bytecode->data[0]; \
for (pc = next_pc = start_pc; pc - start_pc < bytecode->len; \
pc = next_pc) { \
dbg_printf("Executing op %s (%u)\n", \
print_op((unsigned int) *(filter_opcode_t *) pc), \
(unsigned int) *(filter_opcode_t *) pc); \
switch (*(filter_opcode_t *) pc) {
#define OP(name) jump_target_##name: __attribute__((unused)); \
case name
#define PO break
#define END_OP } \
}
#define JUMP_TO(name) \
goto jump_target_##name
#else
/*
* Dispatch-table based interpreter.
*/
#define START_OP \
start_pc = &bytecode->data[0]; \
pc = next_pc = start_pc; \
if (unlikely(pc - start_pc >= bytecode->len)) \
goto end; \
goto *dispatch[*(filter_opcode_t *) pc];
#define OP(name) \
LABEL_##name
#define PO \
pc = next_pc; \
goto *dispatch[*(filter_opcode_t *) pc];
#define END_OP
#define JUMP_TO(name) \
goto LABEL_##name
#endif
/*
* Return 0 (discard), or raise the 0x1 flag (log event).
* Currently, other flags are kept for future extensions and have no
* effect.
*/
uint64_t lttng_filter_interpret_bytecode(void *filter_data,
const char *filter_stack_data)
{
struct bytecode_runtime *bytecode = filter_data;
struct lttng_session *session = bytecode->p.session;
void *pc, *next_pc, *start_pc;
int ret = -EINVAL;
uint64_t retval = 0;
struct estack _stack;
struct estack *stack = &_stack;
register int64_t ax = 0, bx = 0;
register enum entry_type ax_t = REG_UNKNOWN, bx_t = REG_UNKNOWN;
register int top = FILTER_STACK_EMPTY;
#ifndef INTERPRETER_USE_SWITCH
static void *dispatch[NR_FILTER_OPS] = {
[ FILTER_OP_UNKNOWN ] = &&LABEL_FILTER_OP_UNKNOWN,
[ FILTER_OP_RETURN ] = &&LABEL_FILTER_OP_RETURN,
/* binary */
[ FILTER_OP_MUL ] = &&LABEL_FILTER_OP_MUL,
[ FILTER_OP_DIV ] = &&LABEL_FILTER_OP_DIV,
[ FILTER_OP_MOD ] = &&LABEL_FILTER_OP_MOD,
[ FILTER_OP_PLUS ] = &&LABEL_FILTER_OP_PLUS,
[ FILTER_OP_MINUS ] = &&LABEL_FILTER_OP_MINUS,
[ FILTER_OP_RSHIFT ] = &&LABEL_FILTER_OP_RSHIFT,
[ FILTER_OP_LSHIFT ] = &&LABEL_FILTER_OP_LSHIFT,
[ FILTER_OP_BIN_AND ] = &&LABEL_FILTER_OP_BIN_AND,
[ FILTER_OP_BIN_OR ] = &&LABEL_FILTER_OP_BIN_OR,
[ FILTER_OP_BIN_XOR ] = &&LABEL_FILTER_OP_BIN_XOR,
/* binary comparators */
[ FILTER_OP_EQ ] = &&LABEL_FILTER_OP_EQ,
[ FILTER_OP_NE ] = &&LABEL_FILTER_OP_NE,
[ FILTER_OP_GT ] = &&LABEL_FILTER_OP_GT,
[ FILTER_OP_LT ] = &&LABEL_FILTER_OP_LT,
[ FILTER_OP_GE ] = &&LABEL_FILTER_OP_GE,
[ FILTER_OP_LE ] = &&LABEL_FILTER_OP_LE,
/* string binary comparator */
[ FILTER_OP_EQ_STRING ] = &&LABEL_FILTER_OP_EQ_STRING,
[ FILTER_OP_NE_STRING ] = &&LABEL_FILTER_OP_NE_STRING,
[ FILTER_OP_GT_STRING ] = &&LABEL_FILTER_OP_GT_STRING,
[ FILTER_OP_LT_STRING ] = &&LABEL_FILTER_OP_LT_STRING,
[ FILTER_OP_GE_STRING ] = &&LABEL_FILTER_OP_GE_STRING,
[ FILTER_OP_LE_STRING ] = &&LABEL_FILTER_OP_LE_STRING,
/* s64 binary comparator */
[ FILTER_OP_EQ_S64 ] = &&LABEL_FILTER_OP_EQ_S64,
[ FILTER_OP_NE_S64 ] = &&LABEL_FILTER_OP_NE_S64,
[ FILTER_OP_GT_S64 ] = &&LABEL_FILTER_OP_GT_S64,
[ FILTER_OP_LT_S64 ] = &&LABEL_FILTER_OP_LT_S64,
[ FILTER_OP_GE_S64 ] = &&LABEL_FILTER_OP_GE_S64,
[ FILTER_OP_LE_S64 ] = &&LABEL_FILTER_OP_LE_S64,
/* double binary comparator */
[ FILTER_OP_EQ_DOUBLE ] = &&LABEL_FILTER_OP_EQ_DOUBLE,
[ FILTER_OP_NE_DOUBLE ] = &&LABEL_FILTER_OP_NE_DOUBLE,
[ FILTER_OP_GT_DOUBLE ] = &&LABEL_FILTER_OP_GT_DOUBLE,
[ FILTER_OP_LT_DOUBLE ] = &&LABEL_FILTER_OP_LT_DOUBLE,
[ FILTER_OP_GE_DOUBLE ] = &&LABEL_FILTER_OP_GE_DOUBLE,
[ FILTER_OP_LE_DOUBLE ] = &&LABEL_FILTER_OP_LE_DOUBLE,
/* Mixed S64-double binary comparators */
[ FILTER_OP_EQ_DOUBLE_S64 ] = &&LABEL_FILTER_OP_EQ_DOUBLE_S64,
[ FILTER_OP_NE_DOUBLE_S64 ] = &&LABEL_FILTER_OP_NE_DOUBLE_S64,
[ FILTER_OP_GT_DOUBLE_S64 ] = &&LABEL_FILTER_OP_GT_DOUBLE_S64,
[ FILTER_OP_LT_DOUBLE_S64 ] = &&LABEL_FILTER_OP_LT_DOUBLE_S64,
[ FILTER_OP_GE_DOUBLE_S64 ] = &&LABEL_FILTER_OP_GE_DOUBLE_S64,
[ FILTER_OP_LE_DOUBLE_S64 ] = &&LABEL_FILTER_OP_LE_DOUBLE_S64,
[ FILTER_OP_EQ_S64_DOUBLE ] = &&LABEL_FILTER_OP_EQ_S64_DOUBLE,
[ FILTER_OP_NE_S64_DOUBLE ] = &&LABEL_FILTER_OP_NE_S64_DOUBLE,
[ FILTER_OP_GT_S64_DOUBLE ] = &&LABEL_FILTER_OP_GT_S64_DOUBLE,
[ FILTER_OP_LT_S64_DOUBLE ] = &&LABEL_FILTER_OP_LT_S64_DOUBLE,
[ FILTER_OP_GE_S64_DOUBLE ] = &&LABEL_FILTER_OP_GE_S64_DOUBLE,
[ FILTER_OP_LE_S64_DOUBLE ] = &&LABEL_FILTER_OP_LE_S64_DOUBLE,
/* unary */
[ FILTER_OP_UNARY_PLUS ] = &&LABEL_FILTER_OP_UNARY_PLUS,
[ FILTER_OP_UNARY_MINUS ] = &&LABEL_FILTER_OP_UNARY_MINUS,
[ FILTER_OP_UNARY_NOT ] = &&LABEL_FILTER_OP_UNARY_NOT,
[ FILTER_OP_UNARY_PLUS_S64 ] = &&LABEL_FILTER_OP_UNARY_PLUS_S64,
[ FILTER_OP_UNARY_MINUS_S64 ] = &&LABEL_FILTER_OP_UNARY_MINUS_S64,
[ FILTER_OP_UNARY_NOT_S64 ] = &&LABEL_FILTER_OP_UNARY_NOT_S64,
[ FILTER_OP_UNARY_PLUS_DOUBLE ] = &&LABEL_FILTER_OP_UNARY_PLUS_DOUBLE,
[ FILTER_OP_UNARY_MINUS_DOUBLE ] = &&LABEL_FILTER_OP_UNARY_MINUS_DOUBLE,
[ FILTER_OP_UNARY_NOT_DOUBLE ] = &&LABEL_FILTER_OP_UNARY_NOT_DOUBLE,
/* logical */
[ FILTER_OP_AND ] = &&LABEL_FILTER_OP_AND,
[ FILTER_OP_OR ] = &&LABEL_FILTER_OP_OR,
/* load field ref */
[ FILTER_OP_LOAD_FIELD_REF ] = &&LABEL_FILTER_OP_LOAD_FIELD_REF,
[ FILTER_OP_LOAD_FIELD_REF_STRING ] = &&LABEL_FILTER_OP_LOAD_FIELD_REF_STRING,
[ FILTER_OP_LOAD_FIELD_REF_SEQUENCE ] = &&LABEL_FILTER_OP_LOAD_FIELD_REF_SEQUENCE,
[ FILTER_OP_LOAD_FIELD_REF_S64 ] = &&LABEL_FILTER_OP_LOAD_FIELD_REF_S64,
[ FILTER_OP_LOAD_FIELD_REF_DOUBLE ] = &&LABEL_FILTER_OP_LOAD_FIELD_REF_DOUBLE,
/* load from immediate operand */
[ FILTER_OP_LOAD_STRING ] = &&LABEL_FILTER_OP_LOAD_STRING,
[ FILTER_OP_LOAD_S64 ] = &&LABEL_FILTER_OP_LOAD_S64,
[ FILTER_OP_LOAD_DOUBLE ] = &&LABEL_FILTER_OP_LOAD_DOUBLE,
/* cast */
[ FILTER_OP_CAST_TO_S64 ] = &&LABEL_FILTER_OP_CAST_TO_S64,
[ FILTER_OP_CAST_DOUBLE_TO_S64 ] = &&LABEL_FILTER_OP_CAST_DOUBLE_TO_S64,
[ FILTER_OP_CAST_NOP ] = &&LABEL_FILTER_OP_CAST_NOP,
/* get context ref */
[ FILTER_OP_GET_CONTEXT_REF ] = &&LABEL_FILTER_OP_GET_CONTEXT_REF,
[ FILTER_OP_GET_CONTEXT_REF_STRING ] = &&LABEL_FILTER_OP_GET_CONTEXT_REF_STRING,
[ FILTER_OP_GET_CONTEXT_REF_S64 ] = &&LABEL_FILTER_OP_GET_CONTEXT_REF_S64,
[ FILTER_OP_GET_CONTEXT_REF_DOUBLE ] = &&LABEL_FILTER_OP_GET_CONTEXT_REF_DOUBLE,
};
#endif /* #ifndef INTERPRETER_USE_SWITCH */
START_OP
OP(FILTER_OP_UNKNOWN):
OP(FILTER_OP_LOAD_FIELD_REF):
#ifdef INTERPRETER_USE_SWITCH
default:
#endif /* INTERPRETER_USE_SWITCH */
ERR("unknown bytecode op %u\n",
(unsigned int) *(filter_opcode_t *) pc);
ret = -EINVAL;
goto end;
OP(FILTER_OP_RETURN):
/* LTTNG_FILTER_DISCARD or LTTNG_FILTER_RECORD_FLAG */
retval = !!estack_ax_v;
ret = 0;
goto end;
/* binary */
OP(FILTER_OP_MUL):
OP(FILTER_OP_DIV):
OP(FILTER_OP_MOD):
OP(FILTER_OP_PLUS):
OP(FILTER_OP_MINUS):
OP(FILTER_OP_RSHIFT):
OP(FILTER_OP_LSHIFT):
OP(FILTER_OP_BIN_AND):
OP(FILTER_OP_BIN_OR):
OP(FILTER_OP_BIN_XOR):
ERR("unsupported bytecode op %u\n",
(unsigned int) *(filter_opcode_t *) pc);
ret = -EINVAL;
goto end;
OP(FILTER_OP_EQ):
{
/* Dynamic typing. */
switch (estack_ax_t) {
case REG_S64:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_EQ_S64);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_EQ_DOUBLE_S64);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_DOUBLE:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_EQ_S64_DOUBLE);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_EQ_DOUBLE);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_STRING:
switch (estack_bx_t) {
case REG_S64: /* Fall-through */
case REG_DOUBLE:
ret = -EINVAL;
goto end;
case REG_STRING:
JUMP_TO(FILTER_OP_EQ_STRING);
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
default:
ERR("Unknown filter register type (%d)",
(int) estack_ax_t);
ret = -EINVAL;
goto end;
}
}
OP(FILTER_OP_NE):
{
/* Dynamic typing. */
switch (estack_ax_t) {
case REG_S64:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_NE_S64);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_NE_DOUBLE_S64);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_DOUBLE:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_NE_S64_DOUBLE);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_NE_DOUBLE);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_STRING:
switch (estack_bx_t) {
case REG_S64: /* Fall-through */
case REG_DOUBLE:
ret = -EINVAL;
goto end;
case REG_STRING:
JUMP_TO(FILTER_OP_NE_STRING);
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
default:
ERR("Unknown filter register type (%d)",
(int) estack_ax_t);
ret = -EINVAL;
goto end;
}
}
OP(FILTER_OP_GT):
{
/* Dynamic typing. */
switch (estack_ax_t) {
case REG_S64:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_GT_S64);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_GT_DOUBLE_S64);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_DOUBLE:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_GT_S64_DOUBLE);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_GT_DOUBLE);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_STRING:
switch (estack_bx_t) {
case REG_S64: /* Fall-through */
case REG_DOUBLE:
ret = -EINVAL;
goto end;
case REG_STRING:
JUMP_TO(FILTER_OP_GT_STRING);
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
default:
ERR("Unknown filter register type (%d)",
(int) estack_ax_t);
ret = -EINVAL;
goto end;
}
}
OP(FILTER_OP_LT):
{
/* Dynamic typing. */
switch (estack_ax_t) {
case REG_S64:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_LT_S64);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_LT_DOUBLE_S64);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_DOUBLE:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_LT_S64_DOUBLE);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_LT_DOUBLE);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_STRING:
switch (estack_bx_t) {
case REG_S64: /* Fall-through */
case REG_DOUBLE:
ret = -EINVAL;
goto end;
case REG_STRING:
JUMP_TO(FILTER_OP_LT_STRING);
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
default:
ERR("Unknown filter register type (%d)",
(int) estack_ax_t);
ret = -EINVAL;
goto end;
}
}
OP(FILTER_OP_GE):
{
/* Dynamic typing. */
switch (estack_ax_t) {
case REG_S64:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_GE_S64);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_GE_DOUBLE_S64);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_DOUBLE:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_GE_S64_DOUBLE);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_GE_DOUBLE);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_STRING:
switch (estack_bx_t) {
case REG_S64: /* Fall-through */
case REG_DOUBLE:
ret = -EINVAL;
goto end;
case REG_STRING:
JUMP_TO(FILTER_OP_GE_STRING);
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
default:
ERR("Unknown filter register type (%d)",
(int) estack_ax_t);
ret = -EINVAL;
goto end;
}
}
OP(FILTER_OP_LE):
{
/* Dynamic typing. */
switch (estack_ax_t) {
case REG_S64:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_LE_S64);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_LE_DOUBLE_S64);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_DOUBLE:
switch (estack_bx_t) {
case REG_S64:
JUMP_TO(FILTER_OP_LE_S64_DOUBLE);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_LE_DOUBLE);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
case REG_STRING:
switch (estack_bx_t) {
case REG_S64: /* Fall-through */
case REG_DOUBLE:
ret = -EINVAL;
goto end;
case REG_STRING:
JUMP_TO(FILTER_OP_LE_STRING);
default:
ERR("Unknown filter register type (%d)",
(int) estack_bx_t);
ret = -EINVAL;
goto end;
}
break;
default:
ERR("Unknown filter register type (%d)",
(int) estack_ax_t);
ret = -EINVAL;
goto end;
}
}
OP(FILTER_OP_EQ_STRING):
{
int res;
res = (stack_strcmp(stack, top, "==") == 0);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_NE_STRING):
{
int res;
res = (stack_strcmp(stack, top, "!=") != 0);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_GT_STRING):
{
int res;
res = (stack_strcmp(stack, top, ">") > 0);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_LT_STRING):
{
int res;
res = (stack_strcmp(stack, top, "<") < 0);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_GE_STRING):
{
int res;
res = (stack_strcmp(stack, top, ">=") >= 0);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_LE_STRING):
{
int res;
res = (stack_strcmp(stack, top, "<=") <= 0);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_EQ_S64):
{
int res;
res = (estack_bx_v == estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_NE_S64):
{
int res;
res = (estack_bx_v != estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_GT_S64):
{
int res;
res = (estack_bx_v > estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_LT_S64):
{
int res;
res = (estack_bx_v < estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_GE_S64):
{
int res;
res = (estack_bx_v >= estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_LE_S64):
{
int res;
res = (estack_bx_v <= estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_EQ_DOUBLE):
{
int res;
res = (estack_bx(stack, top)->u.d == estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_NE_DOUBLE):
{
int res;
res = (estack_bx(stack, top)->u.d != estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_GT_DOUBLE):
{
int res;
res = (estack_bx(stack, top)->u.d > estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_LT_DOUBLE):
{
int res;
res = (estack_bx(stack, top)->u.d < estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_GE_DOUBLE):
{
int res;
res = (estack_bx(stack, top)->u.d >= estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_LE_DOUBLE):
{
int res;
res = (estack_bx(stack, top)->u.d <= estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
/* Mixed S64-double binary comparators */
OP(FILTER_OP_EQ_DOUBLE_S64):
{
int res;
res = (estack_bx(stack, top)->u.d == estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_NE_DOUBLE_S64):
{
int res;
res = (estack_bx(stack, top)->u.d != estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_GT_DOUBLE_S64):
{
int res;
res = (estack_bx(stack, top)->u.d > estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_LT_DOUBLE_S64):
{
int res;
res = (estack_bx(stack, top)->u.d < estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_GE_DOUBLE_S64):
{
int res;
res = (estack_bx(stack, top)->u.d >= estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_LE_DOUBLE_S64):
{
int res;
res = (estack_bx(stack, top)->u.d <= estack_ax_v);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_EQ_S64_DOUBLE):
{
int res;
res = (estack_bx_v == estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_NE_S64_DOUBLE):
{
int res;
res = (estack_bx_v != estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_GT_S64_DOUBLE):
{
int res;
res = (estack_bx_v > estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_LT_S64_DOUBLE):
{
int res;
res = (estack_bx_v < estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_GE_S64_DOUBLE):
{
int res;
res = (estack_bx_v >= estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
OP(FILTER_OP_LE_S64_DOUBLE):
{
int res;
res = (estack_bx_v <= estack_ax(stack, top)->u.d);
estack_pop(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = res;
estack_ax_t = REG_S64;
next_pc += sizeof(struct binary_op);
PO;
}
/* unary */
OP(FILTER_OP_UNARY_PLUS):
{
/* Dynamic typing. */
switch (estack_ax_t) {
case REG_S64: /* Fall-through. */
JUMP_TO(FILTER_OP_UNARY_PLUS_S64);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_UNARY_PLUS_DOUBLE);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_ax_t);
ret = -EINVAL;
goto end;
}
}
OP(FILTER_OP_UNARY_MINUS):
{
/* Dynamic typing. */
switch (estack_ax_t) {
case REG_S64:
JUMP_TO(FILTER_OP_UNARY_MINUS_S64);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_UNARY_MINUS_DOUBLE);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_ax_t);
ret = -EINVAL;
goto end;
}
}
OP(FILTER_OP_UNARY_NOT):
{
/* Dynamic typing. */
switch (estack_ax_t) {
case REG_S64:
JUMP_TO(FILTER_OP_UNARY_NOT_S64);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_UNARY_NOT_DOUBLE);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_ax_t);
ret = -EINVAL;
goto end;
}
next_pc += sizeof(struct unary_op);
PO;
}
OP(FILTER_OP_UNARY_PLUS_S64):
OP(FILTER_OP_UNARY_PLUS_DOUBLE):
{
next_pc += sizeof(struct unary_op);
PO;
}
OP(FILTER_OP_UNARY_MINUS_S64):
{
estack_ax_v = -estack_ax_v;
next_pc += sizeof(struct unary_op);
PO;
}
OP(FILTER_OP_UNARY_MINUS_DOUBLE):
{
estack_ax(stack, top)->u.d = -estack_ax(stack, top)->u.d;
next_pc += sizeof(struct unary_op);
PO;
}
OP(FILTER_OP_UNARY_NOT_S64):
{
estack_ax_v = !estack_ax_v;
next_pc += sizeof(struct unary_op);
PO;
}
OP(FILTER_OP_UNARY_NOT_DOUBLE):
{
estack_ax_v = !estack_ax(stack, top)->u.d;
estack_ax_t = REG_S64;
next_pc += sizeof(struct unary_op);
PO;
}
/* logical */
OP(FILTER_OP_AND):
{
struct logical_op *insn = (struct logical_op *) pc;
if (estack_ax_t != REG_S64) {
ret = -EINVAL;
goto end;
}
/* If AX is 0, skip and evaluate to 0 */
if (unlikely(estack_ax_v == 0)) {
dbg_printf("Jumping to bytecode offset %u\n",
(unsigned int) insn->skip_offset);
next_pc = start_pc + insn->skip_offset;
} else {
/* Pop 1 when jump not taken */
estack_pop(stack, top, ax, bx, ax_t, bx_t);
next_pc += sizeof(struct logical_op);
}
PO;
}
OP(FILTER_OP_OR):
{
struct logical_op *insn = (struct logical_op *) pc;
if (estack_ax_t != REG_S64) {
ret = -EINVAL;
goto end;
}
/* If AX is nonzero, skip and evaluate to 1 */
if (unlikely(estack_ax_v != 0)) {
estack_ax_v = 1;
dbg_printf("Jumping to bytecode offset %u\n",
(unsigned int) insn->skip_offset);
next_pc = start_pc + insn->skip_offset;
} else {
/* Pop 1 when jump not taken */
estack_pop(stack, top, ax, bx, ax_t, bx_t);
next_pc += sizeof(struct logical_op);
}
PO;
}
/* load field ref */
OP(FILTER_OP_LOAD_FIELD_REF_STRING):
{
struct load_op *insn = (struct load_op *) pc;
struct field_ref *ref = (struct field_ref *) insn->data;
dbg_printf("load field ref offset %u type string\n",
ref->offset);
estack_push(stack, top, ax, bx, ax_t, bx_t);
estack_ax(stack, top)->u.s.str =
*(const char * const *) &filter_stack_data[ref->offset];
if (unlikely(!estack_ax(stack, top)->u.s.str)) {
dbg_printf("Filter warning: loading a NULL string.\n");
ret = -EINVAL;
goto end;
}
estack_ax(stack, top)->u.s.seq_len = UINT_MAX;
estack_ax(stack, top)->u.s.literal = 0;
estack_ax_t = REG_STRING;
dbg_printf("ref load string %s\n", estack_ax(stack, top)->u.s.str);
next_pc += sizeof(struct load_op) + sizeof(struct field_ref);
PO;
}
OP(FILTER_OP_LOAD_FIELD_REF_SEQUENCE):
{
struct load_op *insn = (struct load_op *) pc;
struct field_ref *ref = (struct field_ref *) insn->data;
dbg_printf("load field ref offset %u type sequence\n",
ref->offset);
estack_push(stack, top, ax, bx, ax_t, bx_t);
estack_ax(stack, top)->u.s.seq_len =
*(unsigned long *) &filter_stack_data[ref->offset];
estack_ax(stack, top)->u.s.str =
*(const char **) (&filter_stack_data[ref->offset
+ sizeof(unsigned long)]);
estack_ax_t = REG_STRING;
if (unlikely(!estack_ax(stack, top)->u.s.str)) {
dbg_printf("Filter warning: loading a NULL sequence.\n");
ret = -EINVAL;
goto end;
}
estack_ax(stack, top)->u.s.literal = 0;
next_pc += sizeof(struct load_op) + sizeof(struct field_ref);
PO;
}
OP(FILTER_OP_LOAD_FIELD_REF_S64):
{
struct load_op *insn = (struct load_op *) pc;
struct field_ref *ref = (struct field_ref *) insn->data;
dbg_printf("load field ref offset %u type s64\n",
ref->offset);
estack_push(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v =
((struct literal_numeric *) &filter_stack_data[ref->offset])->v;
estack_ax_t = REG_S64;
dbg_printf("ref load s64 %" PRIi64 "\n", estack_ax_v);
next_pc += sizeof(struct load_op) + sizeof(struct field_ref);
PO;
}
OP(FILTER_OP_LOAD_FIELD_REF_DOUBLE):
{
struct load_op *insn = (struct load_op *) pc;
struct field_ref *ref = (struct field_ref *) insn->data;
dbg_printf("load field ref offset %u type double\n",
ref->offset);
estack_push(stack, top, ax, bx, ax_t, bx_t);
memcpy(&estack_ax(stack, top)->u.d, &filter_stack_data[ref->offset],
sizeof(struct literal_double));
estack_ax_t = REG_DOUBLE;
dbg_printf("ref load double %g\n", estack_ax(stack, top)->u.d);
next_pc += sizeof(struct load_op) + sizeof(struct field_ref);
PO;
}
/* load from immediate operand */
OP(FILTER_OP_LOAD_STRING):
{
struct load_op *insn = (struct load_op *) pc;
dbg_printf("load string %s\n", insn->data);
estack_push(stack, top, ax, bx, ax_t, bx_t);
estack_ax(stack, top)->u.s.str = insn->data;
estack_ax(stack, top)->u.s.seq_len = UINT_MAX;
estack_ax(stack, top)->u.s.literal = 1;
estack_ax_t = REG_STRING;
next_pc += sizeof(struct load_op) + strlen(insn->data) + 1;
PO;
}
OP(FILTER_OP_LOAD_S64):
{
struct load_op *insn = (struct load_op *) pc;
estack_push(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = ((struct literal_numeric *) insn->data)->v;
estack_ax_t = REG_S64;
dbg_printf("load s64 %" PRIi64 "\n", estack_ax_v);
next_pc += sizeof(struct load_op)
+ sizeof(struct literal_numeric);
PO;
}
OP(FILTER_OP_LOAD_DOUBLE):
{
struct load_op *insn = (struct load_op *) pc;
estack_push(stack, top, ax, bx, ax_t, bx_t);
memcpy(&estack_ax(stack, top)->u.d, insn->data,
sizeof(struct literal_double));
estack_ax_t = REG_DOUBLE;
dbg_printf("load double %g\n", estack_ax(stack, top)->u.d);
next_pc += sizeof(struct load_op)
+ sizeof(struct literal_double);
PO;
}
/* cast */
OP(FILTER_OP_CAST_TO_S64):
{
/* Dynamic typing. */
switch (estack_ax_t) {
case REG_S64:
JUMP_TO(FILTER_OP_CAST_NOP);
case REG_DOUBLE:
JUMP_TO(FILTER_OP_CAST_DOUBLE_TO_S64);
case REG_STRING:
ret = -EINVAL;
goto end;
default:
ERR("Unknown filter register type (%d)",
(int) estack_ax_t);
ret = -EINVAL;
goto end;
}
}
OP(FILTER_OP_CAST_DOUBLE_TO_S64):
{
estack_ax_v = (int64_t) estack_ax(stack, top)->u.d;
estack_ax_t = REG_S64;
next_pc += sizeof(struct cast_op);
PO;
}
OP(FILTER_OP_CAST_NOP):
{
next_pc += sizeof(struct cast_op);
PO;
}
/* get context ref */
OP(FILTER_OP_GET_CONTEXT_REF):
{
struct load_op *insn = (struct load_op *) pc;
struct field_ref *ref = (struct field_ref *) insn->data;
struct lttng_ctx *ctx;
struct lttng_ctx_field *ctx_field;
struct lttng_ctx_value v;
dbg_printf("get context ref offset %u type dynamic\n",
ref->offset);
ctx = rcu_dereference(session->ctx);
ctx_field = &ctx->fields[ref->offset];
ctx_field->get_value(ctx_field, &v);
estack_push(stack, top, ax, bx, ax_t, bx_t);
switch (v.sel) {
case LTTNG_UST_DYNAMIC_TYPE_NONE:
ret = -EINVAL;
goto end;
case LTTNG_UST_DYNAMIC_TYPE_S64:
estack_ax_v = v.u.s64;
estack_ax_t = REG_S64;
dbg_printf("ref get context dynamic s64 %" PRIi64 "\n", estack_ax_v);
break;
case LTTNG_UST_DYNAMIC_TYPE_DOUBLE:
estack_ax(stack, top)->u.d = v.u.d;
estack_ax_t = REG_DOUBLE;
dbg_printf("ref get context dynamic double %g\n", estack_ax(stack, top)->u.d);
break;
case LTTNG_UST_DYNAMIC_TYPE_STRING:
estack_ax(stack, top)->u.s.str = v.u.str;
if (unlikely(!estack_ax(stack, top)->u.s.str)) {
dbg_printf("Filter warning: loading a NULL string.\n");
ret = -EINVAL;
goto end;
}
estack_ax(stack, top)->u.s.seq_len = UINT_MAX;
estack_ax(stack, top)->u.s.literal = 0;
dbg_printf("ref get context dynamic string %s\n", estack_ax(stack, top)->u.s.str);
estack_ax_t = REG_STRING;
break;
default:
dbg_printf("Filter warning: unknown dynamic type (%d).\n", (int) v.sel);
ret = -EINVAL;
goto end;
}
next_pc += sizeof(struct load_op) + sizeof(struct field_ref);
PO;
}
OP(FILTER_OP_GET_CONTEXT_REF_STRING):
{
struct load_op *insn = (struct load_op *) pc;
struct field_ref *ref = (struct field_ref *) insn->data;
struct lttng_ctx *ctx;
struct lttng_ctx_field *ctx_field;
struct lttng_ctx_value v;
dbg_printf("get context ref offset %u type string\n",
ref->offset);
ctx = rcu_dereference(session->ctx);
ctx_field = &ctx->fields[ref->offset];
ctx_field->get_value(ctx_field, &v);
estack_push(stack, top, ax, bx, ax_t, bx_t);
estack_ax(stack, top)->u.s.str = v.u.str;
if (unlikely(!estack_ax(stack, top)->u.s.str)) {
dbg_printf("Filter warning: loading a NULL string.\n");
ret = -EINVAL;
goto end;
}
estack_ax(stack, top)->u.s.seq_len = UINT_MAX;
estack_ax(stack, top)->u.s.literal = 0;
estack_ax_t = REG_STRING;
dbg_printf("ref get context string %s\n", estack_ax(stack, top)->u.s.str);
next_pc += sizeof(struct load_op) + sizeof(struct field_ref);
PO;
}
OP(FILTER_OP_GET_CONTEXT_REF_S64):
{
struct load_op *insn = (struct load_op *) pc;
struct field_ref *ref = (struct field_ref *) insn->data;
struct lttng_ctx *ctx;
struct lttng_ctx_field *ctx_field;
struct lttng_ctx_value v;
dbg_printf("get context ref offset %u type s64\n",
ref->offset);
ctx = rcu_dereference(session->ctx);
ctx_field = &ctx->fields[ref->offset];
ctx_field->get_value(ctx_field, &v);
estack_push(stack, top, ax, bx, ax_t, bx_t);
estack_ax_v = v.u.s64;
estack_ax_t = REG_S64;
dbg_printf("ref get context s64 %" PRIi64 "\n", estack_ax_v);
next_pc += sizeof(struct load_op) + sizeof(struct field_ref);
PO;
}
OP(FILTER_OP_GET_CONTEXT_REF_DOUBLE):
{
struct load_op *insn = (struct load_op *) pc;
struct field_ref *ref = (struct field_ref *) insn->data;
struct lttng_ctx *ctx;
struct lttng_ctx_field *ctx_field;
struct lttng_ctx_value v;
dbg_printf("get context ref offset %u type double\n",
ref->offset);
ctx = rcu_dereference(session->ctx);
ctx_field = &ctx->fields[ref->offset];
ctx_field->get_value(ctx_field, &v);
estack_push(stack, top, ax, bx, ax_t, bx_t);
memcpy(&estack_ax(stack, top)->u.d, &v.u.d, sizeof(struct literal_double));
estack_ax_t = REG_DOUBLE;
dbg_printf("ref get context double %g\n", estack_ax(stack, top)->u.d);
next_pc += sizeof(struct load_op) + sizeof(struct field_ref);
PO;
}
END_OP
end:
/* return 0 (discard) on error */
if (ret)
return 0;
return retval;
}
#undef START_OP
#undef OP
#undef PO
#undef END_OP