* Copyright (C) 2010-2016 Mathieu Desnoyers <mathieu.desnoyers@efficios.com>
*/
+#include <wrapper/compiler_attributes.h>
#include <wrapper/uaccess.h>
#include <wrapper/objtool.h>
#include <wrapper/types.h>
#include <lttng/lttng-bytecode.h>
#include <lttng/string-utils.h>
+#include <lttng/events-internal.h>
+#include <lttng/probe-user.h>
/*
* get_char should be called with page fault handler disabled if it is expected
return diff;
}
-uint64_t lttng_bytecode_filter_interpret_false(void *filter_data,
- struct lttng_probe_ctx *lttng_probe_ctx,
- const char *filter_stack_data)
+int lttng_bytecode_interpret_error(
+ struct lttng_kernel_bytecode_runtime *bytecode_runtime __attribute__((unused)),
+ const char *stack_data __attribute__((unused)),
+ struct lttng_kernel_probe_ctx *probe_ctx __attribute__((unused)),
+ void *ctx __attribute__((unused)))
{
- return LTTNG_INTERPRETER_DISCARD;
-}
-
-uint64_t lttng_bytecode_capture_interpret_false(void *filter_data,
- struct lttng_probe_ctx *lttng_probe_ctx,
- const char *capture_stack_data,
- struct lttng_interpreter_output *output)
-{
- return LTTNG_INTERPRETER_DISCARD;
+ return LTTNG_KERNEL_BYTECODE_INTERPRETER_ERROR;
}
#ifdef INTERPRETER_USE_SWITCH
#define IS_INTEGER_REGISTER(reg_type) \
(reg_type == REG_S64 || reg_type == REG_U64)
-static int context_get_index(struct lttng_probe_ctx *lttng_probe_ctx,
+static int context_get_index(struct lttng_kernel_probe_ctx *lttng_probe_ctx,
struct load_ptr *ptr,
uint32_t idx)
{
- struct lttng_ctx_field *ctx_field;
- struct lttng_event_field *field;
- union lttng_ctx_value v;
+ struct lttng_kernel_ctx_field *ctx_field;
+ const struct lttng_kernel_event_field *field;
+ struct lttng_ctx_value v;
ctx_field = <tng_static_ctx->fields[idx];
- field = &ctx_field->event_field;
+ field = ctx_field->event_field;
ptr->type = LOAD_OBJECT;
/* field is only used for types nested within variants. */
ptr->field = NULL;
- switch (field->type.atype) {
- case atype_integer:
- ctx_field->get_value(ctx_field, lttng_probe_ctx, &v);
- if (field->type.u.integer.signedness) {
+ switch (field->type->type) {
+ case lttng_kernel_type_integer:
+ {
+ const struct lttng_kernel_type_integer *integer_type = lttng_kernel_get_type_integer(field->type);
+
+ ctx_field->get_value(ctx_field->priv, lttng_probe_ctx, &v);
+ if (lttng_kernel_get_type_integer(field->type)->signedness) {
ptr->object_type = OBJECT_TYPE_S64;
- ptr->u.s64 = v.s64;
+ ptr->u.s64 = v.u.s64;
ptr->ptr = &ptr->u.s64;
} else {
ptr->object_type = OBJECT_TYPE_U64;
- ptr->u.u64 = v.s64; /* Cast. */
+ ptr->u.u64 = v.u.s64; /* Cast. */
ptr->ptr = &ptr->u.u64;
}
+ ptr->rev_bo = integer_type->reverse_byte_order;
+ ptr->user = integer_type->user;
break;
- case atype_enum_nestable:
+ }
+ case lttng_kernel_type_enum:
{
- const struct lttng_integer_type *itype =
- &field->type.u.enum_nestable.container_type->u.integer;
+ const struct lttng_kernel_type_enum *enum_type = lttng_kernel_get_type_enum(field->type);
+ const struct lttng_kernel_type_integer *integer_type = lttng_kernel_get_type_integer(enum_type->container_type);
- ctx_field->get_value(ctx_field, lttng_probe_ctx, &v);
- if (itype->signedness) {
+ ctx_field->get_value(ctx_field->priv, lttng_probe_ctx, &v);
+ if (integer_type->signedness) {
ptr->object_type = OBJECT_TYPE_SIGNED_ENUM;
- ptr->u.s64 = v.s64;
+ ptr->u.s64 = v.u.s64;
ptr->ptr = &ptr->u.s64;
} else {
ptr->object_type = OBJECT_TYPE_UNSIGNED_ENUM;
- ptr->u.u64 = v.s64; /* Cast. */
+ ptr->u.u64 = v.u.s64; /* Cast. */
ptr->ptr = &ptr->u.u64;
}
+ ptr->rev_bo = integer_type->reverse_byte_order;
+ ptr->user = integer_type->user;
break;
}
- case atype_array_nestable:
- if (!lttng_is_bytewise_integer(field->type.u.array_nestable.elem_type)) {
+ case lttng_kernel_type_array:
+ {
+ const struct lttng_kernel_type_array *array_type = lttng_kernel_get_type_array(field->type);
+ const struct lttng_kernel_type_integer *integer_type;
+
+ if (!lttng_kernel_type_is_bytewise_integer(array_type->elem_type)) {
printk(KERN_WARNING "LTTng: bytecode: Array nesting only supports integer types.\n");
return -EINVAL;
}
- if (field->type.u.array_nestable.elem_type->u.integer.encoding == lttng_encode_none) {
+ if (array_type->encoding == lttng_kernel_string_encoding_none) {
printk(KERN_WARNING "LTTng: bytecode: Only string arrays are supported for contexts.\n");
return -EINVAL;
}
+ integer_type = lttng_kernel_get_type_integer(array_type->elem_type);
ptr->object_type = OBJECT_TYPE_STRING;
- ctx_field->get_value(ctx_field, lttng_probe_ctx, &v);
- ptr->ptr = v.str;
+ ptr->user = integer_type->user;
+ ctx_field->get_value(ctx_field->priv, lttng_probe_ctx, &v);
+ ptr->ptr = v.u.str;
break;
- case atype_sequence_nestable:
- if (!lttng_is_bytewise_integer(field->type.u.sequence_nestable.elem_type)) {
+ }
+ case lttng_kernel_type_sequence:
+ {
+ const struct lttng_kernel_type_sequence *sequence_type = lttng_kernel_get_type_sequence(field->type);
+ const struct lttng_kernel_type_integer *integer_type;
+
+ if (!lttng_kernel_type_is_bytewise_integer(sequence_type->elem_type)) {
printk(KERN_WARNING "LTTng: bytecode: Sequence nesting only supports integer types.\n");
return -EINVAL;
}
- if (field->type.u.sequence_nestable.elem_type->u.integer.encoding == lttng_encode_none) {
+ if (sequence_type->encoding == lttng_kernel_string_encoding_none) {
printk(KERN_WARNING "LTTng: bytecode: Only string sequences are supported for contexts.\n");
return -EINVAL;
}
+ integer_type = lttng_kernel_get_type_integer(sequence_type->elem_type);
ptr->object_type = OBJECT_TYPE_STRING;
- ctx_field->get_value(ctx_field, lttng_probe_ctx, &v);
- ptr->ptr = v.str;
+ ptr->user = integer_type->user;
+ ctx_field->get_value(ctx_field->priv, lttng_probe_ctx, &v);
+ ptr->ptr = v.u.str;
break;
- case atype_string:
+ }
+ case lttng_kernel_type_string:
+ {
+ const struct lttng_kernel_type_string *string_type = lttng_kernel_get_type_string(field->type);
+
ptr->object_type = OBJECT_TYPE_STRING;
- ctx_field->get_value(ctx_field, lttng_probe_ctx, &v);
- ptr->ptr = v.str;
+ ptr->user = string_type->user;
+ ctx_field->get_value(ctx_field->priv, lttng_probe_ctx, &v);
+ ptr->ptr = v.u.str;
break;
- case atype_struct_nestable:
+ }
+ case lttng_kernel_type_struct:
printk(KERN_WARNING "LTTng: bytecode: Structure type cannot be loaded.\n");
return -EINVAL;
- case atype_variant_nestable:
+ case lttng_kernel_type_variant:
printk(KERN_WARNING "LTTng: bytecode: Variant type cannot be loaded.\n");
return -EINVAL;
default:
- printk(KERN_WARNING "LTTng: bytecode: Unknown type: %d", (int) field->type.atype);
+ printk(KERN_WARNING "LTTng: bytecode: Unknown type: %d", (int) field->type->type);
return -EINVAL;
}
return 0;
}
-static int dynamic_get_index(struct lttng_probe_ctx *lttng_probe_ctx,
+static int dynamic_get_index(struct lttng_kernel_probe_ctx *lttng_probe_ctx,
struct bytecode_runtime *runtime,
uint64_t index, struct estack_entry *stack_top)
{
stack_top->u.ptr.ptr = ptr;
stack_top->u.ptr.object_type = gid->elem.type;
stack_top->u.ptr.rev_bo = gid->elem.rev_bo;
- BUG_ON(stack_top->u.ptr.field->type.atype != atype_array_nestable);
+ stack_top->u.ptr.user = gid->elem.user;
+ BUG_ON(stack_top->u.ptr.field->type->type != lttng_kernel_type_array);
stack_top->u.ptr.field = NULL;
break;
}
stack_top->u.ptr.ptr = ptr;
stack_top->u.ptr.object_type = gid->elem.type;
stack_top->u.ptr.rev_bo = gid->elem.rev_bo;
- BUG_ON(stack_top->u.ptr.field->type.atype != atype_sequence_nestable);
+ stack_top->u.ptr.user = gid->elem.user;
+ BUG_ON(stack_top->u.ptr.field->type->type != lttng_kernel_type_sequence);
stack_top->u.ptr.field = NULL;
break;
}
}
break;
case LOAD_ROOT_CONTEXT:
- case LOAD_ROOT_APP_CONTEXT: /* Fall-through */
+ lttng_fallthrough;
+ case LOAD_ROOT_APP_CONTEXT:
{
ret = context_get_index(lttng_probe_ctx,
&stack_top->u.ptr,
stack_top->u.ptr.type = LOAD_OBJECT;
stack_top->u.ptr.field = gid->field;
stack_top->u.ptr.rev_bo = gid->elem.rev_bo;
+ stack_top->u.ptr.user = gid->elem.user;
break;
}
switch (stack_top->u.ptr.object_type) {
case OBJECT_TYPE_S8:
dbg_printk("op load field s8\n");
- stack_top->u.v = *(int8_t *) stack_top->u.ptr.ptr;
+ if (stack_top->u.ptr.user) {
+ if (lttng_copy_from_user_check_nofault(&stack_top->u.v, (int8_t __user *) stack_top->u.ptr.ptr, sizeof(int8_t)))
+ stack_top->u.v = 0;
+ } else {
+ stack_top->u.v = *(int8_t *) stack_top->u.ptr.ptr;
+ }
stack_top->type = REG_S64;
break;
case OBJECT_TYPE_S16:
int16_t tmp;
dbg_printk("op load field s16\n");
- tmp = *(int16_t *) stack_top->u.ptr.ptr;
+ if (stack_top->u.ptr.user) {
+ if (lttng_copy_from_user_check_nofault(&tmp, (int16_t __user *) stack_top->u.ptr.ptr, sizeof(int16_t)))
+ tmp = 0;
+ } else {
+ tmp = *(int16_t *) stack_top->u.ptr.ptr;
+ }
if (stack_top->u.ptr.rev_bo)
__swab16s(&tmp);
stack_top->u.v = tmp;
int32_t tmp;
dbg_printk("op load field s32\n");
- tmp = *(int32_t *) stack_top->u.ptr.ptr;
+ if (stack_top->u.ptr.user) {
+ if (lttng_copy_from_user_check_nofault(&tmp, (int32_t __user *) stack_top->u.ptr.ptr, sizeof(int32_t)))
+ tmp = 0;
+ } else {
+ tmp = *(int32_t *) stack_top->u.ptr.ptr;
+ }
if (stack_top->u.ptr.rev_bo)
__swab32s(&tmp);
stack_top->u.v = tmp;
int64_t tmp;
dbg_printk("op load field s64\n");
- tmp = *(int64_t *) stack_top->u.ptr.ptr;
+ if (stack_top->u.ptr.user) {
+ if (lttng_copy_from_user_check_nofault(&tmp, (int64_t __user *) stack_top->u.ptr.ptr, sizeof(int64_t)))
+ tmp = 0;
+ } else {
+ tmp = *(int64_t *) stack_top->u.ptr.ptr;
+ }
if (stack_top->u.ptr.rev_bo)
__swab64s(&tmp);
stack_top->u.v = tmp;
int64_t tmp;
dbg_printk("op load field signed enumeration\n");
+ if (stack_top->u.ptr.user) {
+ dbg_printk("Bytecode warning: user enum unsupported.\n");
+ ret = -EINVAL;
+ goto end;
+ }
tmp = *(int64_t *) stack_top->u.ptr.ptr;
if (stack_top->u.ptr.rev_bo)
__swab64s(&tmp);
}
case OBJECT_TYPE_U8:
dbg_printk("op load field u8\n");
- stack_top->u.v = *(uint8_t *) stack_top->u.ptr.ptr;
+ if (stack_top->u.ptr.user) {
+ if (lttng_copy_from_user_check_nofault(&stack_top->u.v, (uint8_t __user *) stack_top->u.ptr.ptr, sizeof(uint8_t)))
+ stack_top->u.v = 0;
+ } else {
+ stack_top->u.v = *(uint8_t *) stack_top->u.ptr.ptr;
+ }
stack_top->type = REG_U64;
break;
case OBJECT_TYPE_U16:
uint16_t tmp;
dbg_printk("op load field u16\n");
- tmp = *(uint16_t *) stack_top->u.ptr.ptr;
+ if (stack_top->u.ptr.user) {
+ if (lttng_copy_from_user_check_nofault(&tmp, (uint16_t __user *) stack_top->u.ptr.ptr, sizeof(uint16_t)))
+ tmp = 0;
+ } else {
+ tmp = *(uint16_t *) stack_top->u.ptr.ptr;
+ }
if (stack_top->u.ptr.rev_bo)
__swab16s(&tmp);
stack_top->u.v = tmp;
uint32_t tmp;
dbg_printk("op load field u32\n");
- tmp = *(uint32_t *) stack_top->u.ptr.ptr;
+ if (stack_top->u.ptr.user) {
+ if (lttng_copy_from_user_check_nofault(&tmp, (uint32_t __user *) stack_top->u.ptr.ptr, sizeof(uint32_t)))
+ tmp = 0;
+ } else {
+ tmp = *(uint32_t *) stack_top->u.ptr.ptr;
+ }
if (stack_top->u.ptr.rev_bo)
__swab32s(&tmp);
stack_top->u.v = tmp;
uint64_t tmp;
dbg_printk("op load field u64\n");
- tmp = *(uint64_t *) stack_top->u.ptr.ptr;
+ if (stack_top->u.ptr.user) {
+ if (lttng_copy_from_user_check_nofault(&tmp, (uint64_t __user *) stack_top->u.ptr.ptr, sizeof(uint64_t)))
+ tmp = 0;
+ } else {
+ tmp = *(uint64_t *) stack_top->u.ptr.ptr;
+ }
if (stack_top->u.ptr.rev_bo)
__swab64s(&tmp);
stack_top->u.v = tmp;
uint64_t tmp;
dbg_printk("op load field unsigned enumeration\n");
+ if (stack_top->u.ptr.user) {
+ dbg_printk("Bytecode warning: user enum unsupported.\n");
+ ret = -EINVAL;
+ goto end;
+ }
tmp = *(uint64_t *) stack_top->u.ptr.ptr;
if (stack_top->u.ptr.rev_bo)
__swab64s(&tmp);
}
case OBJECT_TYPE_STRING:
{
- const char *str;
+ dbg_printk("op load field string: user=%d\n", stack_top->u.ptr.user);
+ if (stack_top->u.ptr.user) {
+ const char __user *user_str = (const char __user *) stack_top->u.ptr.ptr;
- dbg_printk("op load field string\n");
- str = (const char *) stack_top->u.ptr.ptr;
- stack_top->u.s.str = str;
- if (unlikely(!stack_top->u.s.str)) {
- dbg_printk("Bytecode warning: loading a NULL string.\n");
- ret = -EINVAL;
- goto end;
+ stack_top->u.s.user_str = user_str;
+ if (unlikely(!stack_top->u.s.user_str)) {
+ dbg_printk("Bytecode warning: loading a NULL user string.\n");
+ ret = -EINVAL;
+ goto end;
+ }
+ stack_top->u.s.user = 1;
+ } else {
+ const char *str = (const char *) stack_top->u.ptr.ptr;
+
+ stack_top->u.s.str = str;
+ if (unlikely(!stack_top->u.s.str)) {
+ dbg_printk("Bytecode warning: loading a NULL string.\n");
+ ret = -EINVAL;
+ goto end;
+ }
+ stack_top->u.s.user = 0;
}
stack_top->u.s.seq_len = LTTNG_SIZE_MAX;
- stack_top->u.s.literal_type =
- ESTACK_STRING_LITERAL_TYPE_NONE;
+ stack_top->u.s.literal_type = ESTACK_STRING_LITERAL_TYPE_NONE;
stack_top->type = REG_STRING;
break;
}
{
const char *ptr;
- dbg_printk("op load field string sequence\n");
+ dbg_printk("op load field string sequence: user=%d\n", stack_top->u.ptr.user);
ptr = stack_top->u.ptr.ptr;
stack_top->u.s.seq_len = *(unsigned long *) ptr;
- stack_top->u.s.str = *(const char **) (ptr + sizeof(unsigned long));
- if (unlikely(!stack_top->u.s.str)) {
- dbg_printk("Bytecode warning: loading a NULL sequence.\n");
- ret = -EINVAL;
- goto end;
+ if (stack_top->u.ptr.user) {
+ stack_top->u.s.user_str = *(const char __user **) (ptr + sizeof(unsigned long));
+ if (unlikely(!stack_top->u.s.user_str)) {
+ dbg_printk("Bytecode warning: loading a NULL user sequence.\n");
+ ret = -EINVAL;
+ goto end;
+ }
+ stack_top->u.s.user = 1;
+ } else {
+ stack_top->u.s.str = *(const char **) (ptr + sizeof(unsigned long));
+ if (unlikely(!stack_top->u.s.str)) {
+ dbg_printk("Bytecode warning: loading a NULL sequence.\n");
+ ret = -EINVAL;
+ goto end;
+ }
+ stack_top->u.s.user = 0;
}
- stack_top->u.s.literal_type =
- ESTACK_STRING_LITERAL_TYPE_NONE;
+ stack_top->u.s.literal_type = ESTACK_STRING_LITERAL_TYPE_NONE;
stack_top->type = REG_STRING;
break;
}
break;
case REG_STRING:
output->type = LTTNG_INTERPRETER_TYPE_STRING;
- output->u.str.str = ax->u.s.str;
output->u.str.len = ax->u.s.seq_len;
+ output->u.str.user = ax->u.s.user;
+ if (ax->u.s.user) {
+ output->u.str.user_str = ax->u.s.user_str;
+ } else {
+ output->u.str.str = ax->u.s.str;
+ }
break;
case REG_PTR:
switch (ax->u.ptr.object_type) {
output->type = LTTNG_INTERPRETER_TYPE_SEQUENCE;
output->u.sequence.ptr = *(const char **) (ax->u.ptr.ptr + sizeof(unsigned long));
output->u.sequence.nr_elem = *(unsigned long *) ax->u.ptr.ptr;
- output->u.sequence.nested_type = ax->u.ptr.field->type.u.sequence_nestable.elem_type;
+ output->u.sequence.nested_type = lttng_kernel_get_type_sequence(ax->u.ptr.field->type)->elem_type;
break;
case OBJECT_TYPE_ARRAY:
/* Skip count (unsigned long) */
output->type = LTTNG_INTERPRETER_TYPE_SEQUENCE;
output->u.sequence.ptr = *(const char **) (ax->u.ptr.ptr + sizeof(unsigned long));
- output->u.sequence.nr_elem = ax->u.ptr.field->type.u.array_nestable.length;
- output->u.sequence.nested_type = ax->u.ptr.field->type.u.array_nestable.elem_type;
+ output->u.sequence.nr_elem = lttng_kernel_get_type_array(ax->u.ptr.field->type)->length;
+ output->u.sequence.nested_type = lttng_kernel_get_type_array(ax->u.ptr.field->type)->elem_type;
break;
case OBJECT_TYPE_SIGNED_ENUM:
ret = dynamic_load_field(ax);
return -EINVAL;
}
- return LTTNG_INTERPRETER_RECORD_FLAG;
+ return 0;
}
#ifdef DEBUG
#endif
/*
- * Return 0 (discard), or raise the 0x1 flag (log event).
- * Currently, other flags are kept for future extensions and have no
- * effect.
+ * Return LTTNG_KERNEL_BYTECODE_INTERPRETER_OK on success.
+ * Return LTTNG_KERNEL_BYTECODE_INTERPRETER_ERROR on error.
+ *
+ * For FILTER bytecode: expect a struct lttng_kernel_bytecode_filter_ctx *
+ * as @ctx argument.
+ * For CAPTURE bytecode: expect a struct lttng_interpreter_output *
+ * as @ctx argument.
*/
-static
-uint64_t bytecode_interpret(void *interpreter_data,
- struct lttng_probe_ctx *lttng_probe_ctx,
+int lttng_bytecode_interpret(struct lttng_kernel_bytecode_runtime *kernel_bytecode,
const char *interpreter_stack_data,
- struct lttng_interpreter_output *output)
+ struct lttng_kernel_probe_ctx *lttng_probe_ctx,
+ void *caller_ctx)
{
- struct bytecode_runtime *bytecode = interpreter_data;
+ struct bytecode_runtime *bytecode = container_of(kernel_bytecode, struct bytecode_runtime, p);
void *pc, *next_pc, *start_pc;
int ret = -EINVAL;
uint64_t retval = 0;
goto end;
OP(BYTECODE_OP_RETURN):
- OP(BYTECODE_OP_RETURN_S64):
- /* LTTNG_INTERPRETER_DISCARD or LTTNG_INTERPRETER_RECORD_FLAG */
+ /* LTTNG_KERNEL_BYTECODE_INTERPRETER_ERROR or LTTNG_KERNEL_BYTECODE_INTERPRETER_OK */
switch (estack_ax_t) {
case REG_S64:
case REG_U64:
case REG_DOUBLE:
case REG_STRING:
case REG_PTR:
- if (!output) {
+ if (kernel_bytecode->type != LTTNG_KERNEL_BYTECODE_TYPE_CAPTURE) {
ret = -EINVAL;
goto end;
}
ret = 0;
goto end;
+ OP(BYTECODE_OP_RETURN_S64):
+ /* LTTNG_KERNEL_BYTECODE_INTERPRETER_ERROR or LTTNG_KERNEL_BYTECODE_INTERPRETER_OK */
+ retval = !!estack_ax_v;
+ ret = 0;
+ goto end;
+
/* binary */
OP(BYTECODE_OP_MUL):
OP(BYTECODE_OP_DIV):
{
struct load_op *insn = (struct load_op *) pc;
struct field_ref *ref = (struct field_ref *) insn->data;
- struct lttng_ctx_field *ctx_field;
- union lttng_ctx_value v;
+ struct lttng_kernel_ctx_field *ctx_field;
+ struct lttng_ctx_value v;
dbg_printk("get context ref offset %u type string\n",
ref->offset);
ctx_field = <tng_static_ctx->fields[ref->offset];
- ctx_field->get_value(ctx_field, lttng_probe_ctx, &v);
+ ctx_field->get_value(ctx_field->priv, lttng_probe_ctx, &v);
estack_push(stack, top, ax, bx, ax_t, bx_t);
- estack_ax(stack, top)->u.s.str = v.str;
+ estack_ax(stack, top)->u.s.str = v.u.str;
if (unlikely(!estack_ax(stack, top)->u.s.str)) {
dbg_printk("Bytecode warning: loading a NULL string.\n");
ret = -EINVAL;
{
struct load_op *insn = (struct load_op *) pc;
struct field_ref *ref = (struct field_ref *) insn->data;
- struct lttng_ctx_field *ctx_field;
- union lttng_ctx_value v;
+ struct lttng_kernel_ctx_field *ctx_field;
+ struct lttng_ctx_value v;
dbg_printk("get context ref offset %u type s64\n",
ref->offset);
ctx_field = <tng_static_ctx->fields[ref->offset];
- ctx_field->get_value(ctx_field, lttng_probe_ctx, &v);
+ ctx_field->get_value(ctx_field->priv, lttng_probe_ctx, &v);
estack_push(stack, top, ax, bx, ax_t, bx_t);
- estack_ax_v = v.s64;
+ estack_ax_v = v.u.s64;
estack_ax_t = REG_S64;
dbg_printk("ref get context s64 %lld\n",
(long long) estack_ax_v);
estack_ax(stack, top)->u.s.literal_type =
ESTACK_STRING_LITERAL_TYPE_NONE;
estack_ax(stack, top)->type = REG_STRING;
+ estack_ax(stack, top)->u.s.user = 0;
next_pc += sizeof(struct load_op);
PO;
}
estack_ax(stack, top)->u.s.literal_type =
ESTACK_STRING_LITERAL_TYPE_NONE;
estack_ax(stack, top)->type = REG_STRING;
+ estack_ax(stack, top)->u.s.user = 0;
next_pc += sizeof(struct load_op);
PO;
}
END_OP
end:
- /* Return _DISCARD on error. */
+ /* No need to prepare output if an error occurred. */
if (ret)
- return LTTNG_INTERPRETER_DISCARD;
+ return LTTNG_KERNEL_BYTECODE_INTERPRETER_ERROR;
- if (output) {
- return lttng_bytecode_interpret_format_output(
- estack_ax(stack, top), output);
+ /* Prepare output. */
+ switch (kernel_bytecode->type) {
+ case LTTNG_KERNEL_BYTECODE_TYPE_FILTER:
+ {
+ struct lttng_kernel_bytecode_filter_ctx *filter_ctx =
+ (struct lttng_kernel_bytecode_filter_ctx *) caller_ctx;
+ if (retval)
+ filter_ctx->result = LTTNG_KERNEL_BYTECODE_FILTER_ACCEPT;
+ else
+ filter_ctx->result = LTTNG_KERNEL_BYTECODE_FILTER_REJECT;
+ break;
}
-
- return retval;
-}
-LTTNG_STACK_FRAME_NON_STANDARD(bytecode_interpret);
-
-uint64_t lttng_bytecode_filter_interpret(void *filter_data,
- struct lttng_probe_ctx *lttng_probe_ctx,
- const char *filter_stack_data)
-{
- return bytecode_interpret(filter_data, lttng_probe_ctx,
- filter_stack_data, NULL);
+ case LTTNG_KERNEL_BYTECODE_TYPE_CAPTURE:
+ ret = lttng_bytecode_interpret_format_output(estack_ax(stack, top),
+ (struct lttng_interpreter_output *) caller_ctx);
+ break;
+ default:
+ ret = -EINVAL;
+ break;
+ }
+ if (ret)
+ return LTTNG_KERNEL_BYTECODE_INTERPRETER_ERROR;
+ else
+ return LTTNG_KERNEL_BYTECODE_INTERPRETER_OK;
}
+LTTNG_STACK_FRAME_NON_STANDARD(lttng_bytecode_interpret);
-uint64_t lttng_bytecode_capture_interpret(void *capture_data,
- struct lttng_probe_ctx *lttng_probe_ctx,
- const char *capture_stack_data,
- struct lttng_interpreter_output *output)
+/*
+ * Return LTTNG_KERNEL_EVENT_FILTER_ACCEPT or LTTNG_KERNEL_EVENT_FILTER_REJECT.
+ */
+int lttng_kernel_interpret_event_filter(const struct lttng_kernel_event_common *event,
+ const char *interpreter_stack_data,
+ struct lttng_kernel_probe_ctx *probe_ctx,
+ void *event_filter_ctx __attribute__((unused)))
{
- return bytecode_interpret(capture_data, lttng_probe_ctx,
- capture_stack_data, output);
+ struct lttng_kernel_bytecode_runtime *filter_bc_runtime;
+ struct list_head *filter_bytecode_runtime_head = &event->priv->filter_bytecode_runtime_head;
+ struct lttng_kernel_bytecode_filter_ctx bytecode_filter_ctx;
+ bool filter_record = false;
+
+ list_for_each_entry_rcu(filter_bc_runtime, filter_bytecode_runtime_head, node) {
+ if (likely(filter_bc_runtime->interpreter_func(filter_bc_runtime,
+ interpreter_stack_data, probe_ctx, &bytecode_filter_ctx) == LTTNG_KERNEL_BYTECODE_INTERPRETER_OK)) {
+ if (unlikely(bytecode_filter_ctx.result == LTTNG_KERNEL_BYTECODE_FILTER_ACCEPT)) {
+ filter_record = true;
+ break;
+ }
+ }
+ }
+ if (filter_record)
+ return LTTNG_KERNEL_EVENT_FILTER_ACCEPT;
+ else
+ return LTTNG_KERNEL_EVENT_FILTER_REJECT;
}
#undef START_OP