*
* Owned by this.
*/
- struct bt_ctf_field_type *base_type;
+ struct bt_field_type *base_type;
/* Length of base field (always 1 for variant types) */
int64_t base_len;
};
/* Binary type reader */
-struct bt_ctf_btr {
+struct bt_btr {
/* Bisit stack */
struct stack *stack;
/* Current basic field type */
- struct bt_ctf_field_type *cur_basic_field_type;
+ struct bt_field_type *cur_basic_field_type;
/* Current state */
enum btr_state state;
* types for which the common boundary is not the boundary of
* a byte cannot have different byte orders.
*
- * This is set to BT_CTF_BYTE_ORDER_UNKNOWN on reset and when
+ * This is set to BT_BYTE_ORDER_UNKNOWN on reset and when
* the last basic field type was a string type.
*/
- enum bt_ctf_byte_order last_bo;
+ enum bt_byte_order last_bo;
/* Current byte order (copied to last_bo after a successful read) */
- enum bt_ctf_byte_order cur_bo;
+ enum bt_byte_order cur_bo;
/* Stitch buffer infos */
struct {
/* User stuff */
struct {
/* Callback functions */
- struct bt_ctf_btr_cbs cbs;
+ struct bt_btr_cbs cbs;
/* Private data */
void *data;
}
static inline
-int64_t get_compound_field_type_length(struct bt_ctf_btr *btr,
- struct bt_ctf_field_type *field_type)
+int64_t get_compound_field_type_length(struct bt_btr *btr,
+ struct bt_field_type *field_type)
{
int64_t length;
- switch (bt_ctf_field_type_get_type_id(field_type)) {
- case BT_CTF_FIELD_TYPE_ID_STRUCT:
- length = (int64_t) bt_ctf_field_type_structure_get_field_count(
+ switch (bt_field_type_get_type_id(field_type)) {
+ case BT_FIELD_TYPE_ID_STRUCT:
+ length = (int64_t) bt_field_type_structure_get_field_count(
field_type);
break;
- case BT_CTF_FIELD_TYPE_ID_VARIANT:
+ case BT_FIELD_TYPE_ID_VARIANT:
/* Variant field types always "contain" a single type */
length = 1;
break;
- case BT_CTF_FIELD_TYPE_ID_ARRAY:
- length = bt_ctf_field_type_array_get_length(field_type);
+ case BT_FIELD_TYPE_ID_ARRAY:
+ length = bt_field_type_array_get_length(field_type);
break;
- case BT_CTF_FIELD_TYPE_ID_SEQUENCE:
+ case BT_FIELD_TYPE_ID_SEQUENCE:
length = btr->user.cbs.query.get_sequence_length(field_type,
btr->user.data);
break;
BT_LOGW("Cannot get field type's field count: btr-addr=%p, "
"ft-addr=%p, ft-id=%s",
btr, field_type,
- bt_ctf_field_type_id_string(
- bt_ctf_field_type_get_type_id(field_type)));
- length = BT_CTF_BTR_STATUS_ERROR;
+ bt_field_type_id_string(
+ bt_field_type_get_type_id(field_type)));
+ length = BT_BTR_STATUS_ERROR;
}
return length;
}
static
-int stack_push(struct stack *stack, struct bt_ctf_field_type *base_type,
+int stack_push(struct stack *stack, struct bt_field_type *base_type,
size_t base_len)
{
int ret = 0;
BT_LOGV("Pushing field type on stack: stack-addr=%p, "
"ft-addr=%p, ft-id=%s, base-length=%zu, "
"stack-size-before=%u, stack-size-after=%u",
- stack, base_type, bt_ctf_field_type_id_string(
- bt_ctf_field_type_get_type_id(base_type)),
+ stack, base_type, bt_field_type_id_string(
+ bt_field_type_get_type_id(base_type)),
base_len, stack->entries->len, stack->entries->len + 1);
entry = g_new0(struct stack_entry, 1);
if (!entry) {
BT_LOGE("Failed to allocate one stack entry: stack-addr=%p",
stack);
- ret = BT_CTF_BTR_STATUS_ERROR;
+ ret = BT_BTR_STATUS_ERROR;
goto end;
}
}
static
-int stack_push_with_len(struct bt_ctf_btr *btr,
- struct bt_ctf_field_type *base_type)
+int stack_push_with_len(struct bt_btr *btr,
+ struct bt_field_type *base_type)
{
int ret = 0;
int64_t base_len = get_compound_field_type_length(btr, base_type);
if (base_len < 0) {
BT_LOGW("Cannot get compound field type's field count: "
"btr-addr=%p, ft-addr=%p, ft-id=%s",
- btr, base_type, bt_ctf_field_type_id_string(
- bt_ctf_field_type_get_type_id(base_type)));
- ret = BT_CTF_BTR_STATUS_ERROR;
+ btr, base_type, bt_field_type_id_string(
+ bt_field_type_get_type_id(base_type)));
+ ret = BT_BTR_STATUS_ERROR;
goto end;
}
}
static inline
-size_t available_bits(struct bt_ctf_btr *btr)
+size_t available_bits(struct bt_btr *btr)
{
return btr->buf.sz - btr->buf.at;
}
static inline
-void consume_bits(struct bt_ctf_btr *btr, size_t incr)
+void consume_bits(struct bt_btr *btr, size_t incr)
{
BT_LOGV("Advancing cursor: btr-addr=%p, cur-before=%zu, cur-after=%zu",
btr, btr->buf.at, btr->buf.at + incr);
}
static inline
-bool has_enough_bits(struct bt_ctf_btr *btr, size_t sz)
+bool has_enough_bits(struct bt_btr *btr, size_t sz)
{
return available_bits(btr) >= sz;
}
static inline
-bool at_least_one_bit_left(struct bt_ctf_btr *btr)
+bool at_least_one_bit_left(struct bt_btr *btr)
{
return has_enough_bits(btr, 1);
}
static inline
-size_t packet_at(struct bt_ctf_btr *btr)
+size_t packet_at(struct bt_btr *btr)
{
return btr->buf.packet_offset + btr->buf.at;
}
static inline
-size_t buf_at_from_addr(struct bt_ctf_btr *btr)
+size_t buf_at_from_addr(struct bt_btr *btr)
{
/*
* Considering this:
}
static inline
-int get_basic_field_type_size(struct bt_ctf_btr *btr,
- struct bt_ctf_field_type *field_type)
+int get_basic_field_type_size(struct bt_btr *btr,
+ struct bt_field_type *field_type)
{
int size;
- switch (bt_ctf_field_type_get_type_id(field_type)) {
- case BT_CTF_FIELD_TYPE_ID_INTEGER:
- size = bt_ctf_field_type_integer_get_size(field_type);
+ switch (bt_field_type_get_type_id(field_type)) {
+ case BT_FIELD_TYPE_ID_INTEGER:
+ size = bt_field_type_integer_get_size(field_type);
break;
- case BT_CTF_FIELD_TYPE_ID_FLOAT:
+ case BT_FIELD_TYPE_ID_FLOAT:
{
int exp_dig, mant_dig;
exp_dig =
- bt_ctf_field_type_floating_point_get_exponent_digits(
+ bt_field_type_floating_point_get_exponent_digits(
field_type);
mant_dig =
- bt_ctf_field_type_floating_point_get_mantissa_digits(
+ bt_field_type_floating_point_get_mantissa_digits(
field_type);
assert(exp_dig >= 0);
assert(mant_dig >= 0);
size = exp_dig + mant_dig;
break;
}
- case BT_CTF_FIELD_TYPE_ID_ENUM:
+ case BT_FIELD_TYPE_ID_ENUM:
{
- struct bt_ctf_field_type *int_type;
+ struct bt_field_type *int_type;
- int_type = bt_ctf_field_type_enumeration_get_container_type(
+ int_type = bt_field_type_enumeration_get_container_type(
field_type);
assert(int_type);
size = get_basic_field_type_size(btr, int_type);
break;
}
default:
- size = BT_CTF_BTR_STATUS_ERROR;
+ size = BT_BTR_STATUS_ERROR;
break;
}
}
static
-void stitch_reset(struct bt_ctf_btr *btr)
+void stitch_reset(struct bt_btr *btr)
{
btr->stitch.offset = 0;
btr->stitch.at = 0;
}
static inline
-size_t stitch_at_from_addr(struct bt_ctf_btr *btr)
+size_t stitch_at_from_addr(struct bt_btr *btr)
{
return btr->stitch.offset + btr->stitch.at;
}
static
-void stitch_append_from_buf(struct bt_ctf_btr *btr, size_t sz)
+void stitch_append_from_buf(struct bt_btr *btr, size_t sz)
{
size_t stitch_byte_at;
size_t buf_byte_at;
}
static
-void stitch_append_from_remaining_buf(struct bt_ctf_btr *btr)
+void stitch_append_from_remaining_buf(struct bt_btr *btr)
{
stitch_append_from_buf(btr, available_bits(btr));
}
static
-void stitch_set_from_remaining_buf(struct bt_ctf_btr *btr)
+void stitch_set_from_remaining_buf(struct bt_btr *btr)
{
stitch_reset(btr);
btr->stitch.offset = IN_BYTE_OFFSET(buf_at_from_addr(btr));
}
static inline
-enum bt_ctf_btr_status read_unsigned_bitfield(const uint8_t *buf, size_t at,
- int64_t field_size, enum bt_ctf_byte_order bo, uint64_t *v)
+enum bt_btr_status read_unsigned_bitfield(const uint8_t *buf, size_t at,
+ int64_t field_size, enum bt_byte_order bo, uint64_t *v)
{
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
switch (bo) {
- case BT_CTF_BYTE_ORDER_BIG_ENDIAN:
- case BT_CTF_BYTE_ORDER_NETWORK:
+ case BT_BYTE_ORDER_BIG_ENDIAN:
+ case BT_BYTE_ORDER_NETWORK:
bt_bitfield_read_be(buf, uint8_t, at, field_size, v);
break;
- case BT_CTF_BYTE_ORDER_LITTLE_ENDIAN:
+ case BT_BYTE_ORDER_LITTLE_ENDIAN:
bt_bitfield_read_le(buf, uint8_t, at, field_size, v);
break;
default:
BT_LOGV("Read unsigned bit array: cur=%zu, size=%" PRId64 ", "
"bo=%s, val=%" PRIu64, at, field_size,
- bt_ctf_byte_order_string(bo), *v);
+ bt_byte_order_string(bo), *v);
return status;
}
static inline
-enum bt_ctf_btr_status read_signed_bitfield(const uint8_t *buf, size_t at,
- int64_t field_size, enum bt_ctf_byte_order bo, int64_t *v)
+enum bt_btr_status read_signed_bitfield(const uint8_t *buf, size_t at,
+ int64_t field_size, enum bt_byte_order bo, int64_t *v)
{
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
switch (bo) {
- case BT_CTF_BYTE_ORDER_BIG_ENDIAN:
- case BT_CTF_BYTE_ORDER_NETWORK:
+ case BT_BYTE_ORDER_BIG_ENDIAN:
+ case BT_BYTE_ORDER_NETWORK:
bt_bitfield_read_be(buf, uint8_t, at, field_size, v);
break;
- case BT_CTF_BYTE_ORDER_LITTLE_ENDIAN:
+ case BT_BYTE_ORDER_LITTLE_ENDIAN:
bt_bitfield_read_le(buf, uint8_t, at, field_size, v);
break;
default:
BT_LOGV("Read signed bit array: cur=%zu, size=%" PRId64 ", "
"bo=%s, val=%" PRId64, at, field_size,
- bt_ctf_byte_order_string(bo), *v);
+ bt_byte_order_string(bo), *v);
return status;
}
-typedef enum bt_ctf_btr_status (* read_basic_and_call_cb_t)(struct bt_ctf_btr *,
+typedef enum bt_btr_status (* read_basic_and_call_cb_t)(struct bt_btr *,
const uint8_t *, size_t);
static inline
-enum bt_ctf_btr_status validate_contiguous_bo(struct bt_ctf_btr *btr,
- enum bt_ctf_byte_order next_bo)
+enum bt_btr_status validate_contiguous_bo(struct bt_btr *btr,
+ enum bt_byte_order next_bo)
{
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
/* Always valid when at a byte boundary */
if (packet_at(btr) % 8 == 0) {
}
/* Always valid if last byte order is unknown */
- if (btr->last_bo == BT_CTF_BYTE_ORDER_UNKNOWN) {
+ if (btr->last_bo == BT_BYTE_ORDER_UNKNOWN) {
goto end;
}
/* Always valid if next byte order is unknown */
- if (next_bo == BT_CTF_BYTE_ORDER_UNKNOWN) {
+ if (next_bo == BT_BYTE_ORDER_UNKNOWN) {
goto end;
}
/* Make sure last byte order is compatible with the next byte order */
switch (btr->last_bo) {
- case BT_CTF_BYTE_ORDER_BIG_ENDIAN:
- case BT_CTF_BYTE_ORDER_NETWORK:
- if (next_bo != BT_CTF_BYTE_ORDER_BIG_ENDIAN &&
- next_bo != BT_CTF_BYTE_ORDER_NETWORK) {
- status = BT_CTF_BTR_STATUS_ERROR;
+ case BT_BYTE_ORDER_BIG_ENDIAN:
+ case BT_BYTE_ORDER_NETWORK:
+ if (next_bo != BT_BYTE_ORDER_BIG_ENDIAN &&
+ next_bo != BT_BYTE_ORDER_NETWORK) {
+ status = BT_BTR_STATUS_ERROR;
}
break;
- case BT_CTF_BYTE_ORDER_LITTLE_ENDIAN:
- if (next_bo != BT_CTF_BYTE_ORDER_LITTLE_ENDIAN) {
- status = BT_CTF_BTR_STATUS_ERROR;
+ case BT_BYTE_ORDER_LITTLE_ENDIAN:
+ if (next_bo != BT_BYTE_ORDER_LITTLE_ENDIAN) {
+ status = BT_BTR_STATUS_ERROR;
}
break;
default:
- status = BT_CTF_BTR_STATUS_ERROR;
+ status = BT_BTR_STATUS_ERROR;
}
end:
if (status < 0) {
BT_LOGW("Cannot read bit array: two different byte orders not at a byte boundary: "
"btr-addr=%p, last-bo=%s, next-bo=%s",
- btr, bt_ctf_byte_order_string(btr->last_bo),
- bt_ctf_byte_order_string(next_bo));
+ btr, bt_byte_order_string(btr->last_bo),
+ bt_byte_order_string(next_bo));
}
return status;
}
static
-enum bt_ctf_btr_status read_basic_float_and_call_cb(struct bt_ctf_btr *btr,
+enum bt_btr_status read_basic_float_and_call_cb(struct bt_btr *btr,
const uint8_t *buf, size_t at)
{
int ret;
double dblval;
int64_t field_size;
- enum bt_ctf_byte_order bo;
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ enum bt_byte_order bo;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
field_size = get_basic_field_type_size(btr, btr->cur_basic_field_type);
- bo = bt_ctf_field_type_get_byte_order(btr->cur_basic_field_type);
+ bo = bt_field_type_get_byte_order(btr->cur_basic_field_type);
btr->cur_bo = bo;
switch (field_size) {
float f;
} f32;
- ret = bt_ctf_field_type_floating_point_get_mantissa_digits(
+ ret = bt_field_type_floating_point_get_mantissa_digits(
btr->cur_basic_field_type);
assert(ret == 24);
- ret = bt_ctf_field_type_floating_point_get_exponent_digits(
+ ret = bt_field_type_floating_point_get_exponent_digits(
btr->cur_basic_field_type);
assert(ret == 8);
status = read_unsigned_bitfield(buf, at, field_size, bo, &v);
- if (status != BT_CTF_BTR_STATUS_OK) {
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("Cannot read unsigned 32-bit bit array for floating point number field: "
"btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
goto end;
}
double d;
} f64;
- ret = bt_ctf_field_type_floating_point_get_mantissa_digits(
+ ret = bt_field_type_floating_point_get_mantissa_digits(
btr->cur_basic_field_type);
assert(ret == 53);
- ret = bt_ctf_field_type_floating_point_get_exponent_digits(
+ ret = bt_field_type_floating_point_get_exponent_digits(
btr->cur_basic_field_type);
assert(ret == 11);
status = read_unsigned_bitfield(buf, at, field_size, bo,
&f64.u);
- if (status != BT_CTF_BTR_STATUS_OK) {
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("Cannot read unsigned 64-bit bit array for floating point number field: "
"btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
goto end;
}
/* Only 32-bit and 64-bit fields are supported currently */
BT_LOGW("Only 32-bit and 64-bit floating point number fields are supported: "
"btr-addr=%p", btr);
- status = BT_CTF_BTR_STATUS_ERROR;
+ status = BT_BTR_STATUS_ERROR;
goto end;
}
status = btr->user.cbs.types.floating_point(dblval,
btr->cur_basic_field_type, btr->user.data);
BT_LOGV("User function returned: status=%s",
- bt_ctf_btr_status_string(status));
- if (status != BT_CTF_BTR_STATUS_OK) {
+ bt_btr_status_string(status));
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("User function failed: btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
}
}
}
static inline
-enum bt_ctf_btr_status read_basic_int_and_call(struct bt_ctf_btr *btr,
+enum bt_btr_status read_basic_int_and_call(struct bt_btr *btr,
const uint8_t *buf, size_t at,
- struct bt_ctf_field_type *int_type,
- struct bt_ctf_field_type *orig_type)
+ struct bt_field_type *int_type,
+ struct bt_field_type *orig_type)
{
- int signd;
+ bt_bool signd;
int64_t field_size;
- enum bt_ctf_byte_order bo;
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ enum bt_byte_order bo;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
- signd = bt_ctf_field_type_integer_get_signed(int_type);
+ signd = bt_field_type_integer_is_signed(int_type);
field_size = get_basic_field_type_size(btr, int_type);
if (field_size < 1) {
BT_LOGW("Cannot get integer field type's size: "
"btr=%p, at=%zu, ft-addr=%p",
btr, at, int_type);
- status = BT_CTF_BTR_STATUS_ERROR;
+ status = BT_BTR_STATUS_ERROR;
goto end;
}
- bo = bt_ctf_field_type_get_byte_order(int_type);
+ bo = bt_field_type_get_byte_order(int_type);
/*
* Update current byte order now because we could be reading
int64_t v;
status = read_signed_bitfield(buf, at, field_size, bo, &v);
- if (status != BT_CTF_BTR_STATUS_OK) {
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("Cannot read signed bit array for signed integer field: "
"btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
goto end;
}
status = btr->user.cbs.types.signed_int(v,
btr->cur_basic_field_type, btr->user.data);
BT_LOGV("User function returned: status=%s",
- bt_ctf_btr_status_string(status));
- if (status != BT_CTF_BTR_STATUS_OK) {
+ bt_btr_status_string(status));
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("User function failed: "
"btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
}
}
} else {
uint64_t v;
status = read_unsigned_bitfield(buf, at, field_size, bo, &v);
- if (status != BT_CTF_BTR_STATUS_OK) {
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("Cannot read unsigned bit array for unsigned integer field: "
"btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
goto end;
}
status = btr->user.cbs.types.unsigned_int(v,
btr->cur_basic_field_type, btr->user.data);
BT_LOGV("User function returned: status=%s",
- bt_ctf_btr_status_string(status));
- if (status != BT_CTF_BTR_STATUS_OK) {
+ bt_btr_status_string(status));
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("User function failed: "
"btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
}
}
}
}
static
-enum bt_ctf_btr_status read_basic_int_and_call_cb(struct bt_ctf_btr *btr,
+enum bt_btr_status read_basic_int_and_call_cb(struct bt_btr *btr,
const uint8_t *buf, size_t at)
{
return read_basic_int_and_call(btr, buf, at, btr->cur_basic_field_type,
}
static
-enum bt_ctf_btr_status read_basic_enum_and_call_cb(struct bt_ctf_btr *btr,
+enum bt_btr_status read_basic_enum_and_call_cb(struct bt_btr *btr,
const uint8_t *buf, size_t at)
{
- struct bt_ctf_field_type *int_field_type;
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ struct bt_field_type *int_field_type;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
- int_field_type = bt_ctf_field_type_enumeration_get_container_type(
+ int_field_type = bt_field_type_enumeration_get_container_type(
btr->cur_basic_field_type);
assert(int_field_type);
status = read_basic_int_and_call(btr, buf, at,
}
static inline
-enum bt_ctf_btr_status read_basic_type_and_call_continue(struct bt_ctf_btr *btr,
+enum bt_btr_status read_basic_type_and_call_continue(struct bt_btr *btr,
read_basic_and_call_cb_t read_basic_and_call_cb)
{
size_t available;
int64_t field_size;
int64_t needed_bits;
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
if (!at_least_one_bit_left(btr)) {
BT_LOGV("Reached end of data: btr-addr=%p", btr);
- status = BT_CTF_BTR_STATUS_EOF;
+ status = BT_BTR_STATUS_EOF;
goto end;
}
BT_LOGW("Cannot get basic field type's size: "
"btr-addr=%p, ft-addr=%p",
btr, btr->cur_basic_field_type);
- status = BT_CTF_BTR_STATUS_ERROR;
+ status = BT_BTR_STATUS_ERROR;
goto end;
}
stitch_append_from_buf(btr, needed_bits);
status = read_basic_and_call_cb(btr, btr->stitch.buf,
btr->stitch.offset);
- if (status != BT_CTF_BTR_STATUS_OK) {
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("Cannot read basic field: "
"btr-addr=%p, ft-addr=%p, status=%s",
btr, btr->cur_basic_field_type,
- bt_ctf_btr_status_string(status));
+ bt_btr_status_string(status));
goto end;
}
/* We are here; it means we don't have enough data to decode this */
BT_LOGV_STR("Not enough data to read the next basic field: appending to stitch buffer.");
stitch_append_from_remaining_buf(btr);
- status = BT_CTF_BTR_STATUS_EOF;
+ status = BT_BTR_STATUS_EOF;
end:
return status;
}
static inline
-enum bt_ctf_btr_status read_basic_type_and_call_begin(struct bt_ctf_btr *btr,
+enum bt_btr_status read_basic_type_and_call_begin(struct bt_btr *btr,
read_basic_and_call_cb_t read_basic_and_call_cb)
{
size_t available;
int64_t field_size;
- enum bt_ctf_byte_order bo;
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ enum bt_byte_order bo;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
if (!at_least_one_bit_left(btr)) {
BT_LOGV("Reached end of data: btr-addr=%p", btr);
- status = BT_CTF_BTR_STATUS_EOF;
+ status = BT_BTR_STATUS_EOF;
goto end;
}
BT_LOGW("Cannot get basic field type's size: "
"btr-addr=%p, ft-addr=%p",
btr, btr->cur_basic_field_type);
- status = BT_CTF_BTR_STATUS_ERROR;
+ status = BT_BTR_STATUS_ERROR;
goto end;
}
- bo = bt_ctf_field_type_get_byte_order(btr->cur_basic_field_type);
+ bo = bt_field_type_get_byte_order(btr->cur_basic_field_type);
status = validate_contiguous_bo(btr, bo);
- if (status != BT_CTF_BTR_STATUS_OK) {
+ if (status != BT_BTR_STATUS_OK) {
/* validate_contiguous_bo() logs errors */
goto end;
}
/* We have all the bits; decode and set now */
status = read_basic_and_call_cb(btr, btr->buf.addr,
buf_at_from_addr(btr));
- if (status != BT_CTF_BTR_STATUS_OK) {
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("Cannot read basic field: "
"btr-addr=%p, ft-addr=%p, status=%s",
btr, btr->cur_basic_field_type,
- bt_ctf_btr_status_string(status));
+ bt_btr_status_string(status));
goto end;
}
BT_LOGV_STR("Not enough data to read the next basic field: setting stitch buffer.");
stitch_set_from_remaining_buf(btr);
btr->state = BTR_STATE_READ_BASIC_CONTINUE;
- status = BT_CTF_BTR_STATUS_EOF;
+ status = BT_BTR_STATUS_EOF;
end:
return status;
}
static inline
-enum bt_ctf_btr_status read_basic_int_type_and_call_begin(
- struct bt_ctf_btr *btr)
+enum bt_btr_status read_basic_int_type_and_call_begin(
+ struct bt_btr *btr)
{
return read_basic_type_and_call_begin(btr, read_basic_int_and_call_cb);
}
static inline
-enum bt_ctf_btr_status read_basic_int_type_and_call_continue(
- struct bt_ctf_btr *btr)
+enum bt_btr_status read_basic_int_type_and_call_continue(
+ struct bt_btr *btr)
{
return read_basic_type_and_call_continue(btr,
read_basic_int_and_call_cb);
}
static inline
-enum bt_ctf_btr_status read_basic_float_type_and_call_begin(
- struct bt_ctf_btr *btr)
+enum bt_btr_status read_basic_float_type_and_call_begin(
+ struct bt_btr *btr)
{
return read_basic_type_and_call_begin(btr,
read_basic_float_and_call_cb);
}
static inline
-enum bt_ctf_btr_status read_basic_float_type_and_call_continue(
- struct bt_ctf_btr *btr)
+enum bt_btr_status read_basic_float_type_and_call_continue(
+ struct bt_btr *btr)
{
return read_basic_type_and_call_continue(btr,
read_basic_float_and_call_cb);
}
static inline
-enum bt_ctf_btr_status read_basic_enum_type_and_call_begin(
- struct bt_ctf_btr *btr)
+enum bt_btr_status read_basic_enum_type_and_call_begin(
+ struct bt_btr *btr)
{
return read_basic_type_and_call_begin(btr,
read_basic_enum_and_call_cb);
}
static inline
-enum bt_ctf_btr_status read_basic_enum_type_and_call_continue(
- struct bt_ctf_btr *btr)
+enum bt_btr_status read_basic_enum_type_and_call_continue(
+ struct bt_btr *btr)
{
return read_basic_type_and_call_continue(btr,
read_basic_enum_and_call_cb);
}
static inline
-enum bt_ctf_btr_status read_basic_string_type_and_call(
- struct bt_ctf_btr *btr, bool begin)
+enum bt_btr_status read_basic_string_type_and_call(
+ struct bt_btr *btr, bool begin)
{
size_t buf_at_bytes;
const uint8_t *result;
size_t available_bytes;
const uint8_t *first_chr;
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
if (!at_least_one_bit_left(btr)) {
BT_LOGV("Reached end of data: btr-addr=%p", btr);
- status = BT_CTF_BTR_STATUS_EOF;
+ status = BT_BTR_STATUS_EOF;
goto end;
}
status = btr->user.cbs.types.string_begin(
btr->cur_basic_field_type, btr->user.data);
BT_LOGV("User function returned: status=%s",
- bt_ctf_btr_status_string(status));
- if (status != BT_CTF_BTR_STATUS_OK) {
+ bt_btr_status_string(status));
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("User function failed: btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
goto end;
}
}
available_bytes, btr->cur_basic_field_type,
btr->user.data);
BT_LOGV("User function returned: status=%s",
- bt_ctf_btr_status_string(status));
- if (status != BT_CTF_BTR_STATUS_OK) {
+ bt_btr_status_string(status));
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("User function failed: "
"btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
goto end;
}
}
consume_bits(btr, BYTES_TO_BITS(available_bytes));
btr->state = BTR_STATE_READ_BASIC_CONTINUE;
- status = BT_CTF_BTR_STATUS_EOF;
+ status = BT_BTR_STATUS_EOF;
} else {
/* Found the null character */
size_t result_len = (size_t) (result - first_chr);
result_len, btr->cur_basic_field_type,
btr->user.data);
BT_LOGV("User function returned: status=%s",
- bt_ctf_btr_status_string(status));
- if (status != BT_CTF_BTR_STATUS_OK) {
+ bt_btr_status_string(status));
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("User function failed: "
"btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
goto end;
}
}
status = btr->user.cbs.types.string_end(
btr->cur_basic_field_type, btr->user.data);
BT_LOGV("User function returned: status=%s",
- bt_ctf_btr_status_string(status));
- if (status != BT_CTF_BTR_STATUS_OK) {
+ bt_btr_status_string(status));
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("User function failed: "
"btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
goto end;
}
}
}
static inline
-enum bt_ctf_btr_status read_basic_begin_state(struct bt_ctf_btr *btr)
+enum bt_btr_status read_basic_begin_state(struct bt_btr *btr)
{
- enum bt_ctf_btr_status status;
+ enum bt_btr_status status;
assert(btr->cur_basic_field_type);
- switch (bt_ctf_field_type_get_type_id(btr->cur_basic_field_type)) {
- case BT_CTF_FIELD_TYPE_ID_INTEGER:
+ switch (bt_field_type_get_type_id(btr->cur_basic_field_type)) {
+ case BT_FIELD_TYPE_ID_INTEGER:
status = read_basic_int_type_and_call_begin(btr);
break;
- case BT_CTF_FIELD_TYPE_ID_FLOAT:
+ case BT_FIELD_TYPE_ID_FLOAT:
status = read_basic_float_type_and_call_begin(btr);
break;
- case BT_CTF_FIELD_TYPE_ID_ENUM:
+ case BT_FIELD_TYPE_ID_ENUM:
status = read_basic_enum_type_and_call_begin(btr);
break;
- case BT_CTF_FIELD_TYPE_ID_STRING:
+ case BT_FIELD_TYPE_ID_STRING:
status = read_basic_string_type_and_call(btr, true);
break;
default:
BT_LOGF("Unknown basic field type ID: "
"btr-addr=%p, ft-addr=%p, ft-id=%s",
btr, btr->cur_basic_field_type,
- bt_ctf_field_type_id_string(
- bt_ctf_field_type_get_type_id(
+ bt_field_type_id_string(
+ bt_field_type_get_type_id(
btr->cur_basic_field_type)));
abort();
}
}
static inline
-enum bt_ctf_btr_status read_basic_continue_state(struct bt_ctf_btr *btr)
+enum bt_btr_status read_basic_continue_state(struct bt_btr *btr)
{
- enum bt_ctf_btr_status status;
+ enum bt_btr_status status;
assert(btr->cur_basic_field_type);
- switch (bt_ctf_field_type_get_type_id(btr->cur_basic_field_type)) {
- case BT_CTF_FIELD_TYPE_ID_INTEGER:
+ switch (bt_field_type_get_type_id(btr->cur_basic_field_type)) {
+ case BT_FIELD_TYPE_ID_INTEGER:
status = read_basic_int_type_and_call_continue(btr);
break;
- case BT_CTF_FIELD_TYPE_ID_FLOAT:
+ case BT_FIELD_TYPE_ID_FLOAT:
status = read_basic_float_type_and_call_continue(btr);
break;
- case BT_CTF_FIELD_TYPE_ID_ENUM:
+ case BT_FIELD_TYPE_ID_ENUM:
status = read_basic_enum_type_and_call_continue(btr);
break;
- case BT_CTF_FIELD_TYPE_ID_STRING:
+ case BT_FIELD_TYPE_ID_STRING:
status = read_basic_string_type_and_call(btr, false);
break;
default:
BT_LOGF("Unknown basic field type ID: "
"btr-addr=%p, ft-addr=%p, ft-id=%s",
btr, btr->cur_basic_field_type,
- bt_ctf_field_type_id_string(
- bt_ctf_field_type_get_type_id(
+ bt_field_type_id_string(
+ bt_field_type_get_type_id(
btr->cur_basic_field_type)));
abort();
}
}
static inline
-size_t bits_to_skip_to_align_to(struct bt_ctf_btr *btr, size_t align)
+size_t bits_to_skip_to_align_to(struct bt_btr *btr, size_t align)
{
size_t aligned_packet_at;
}
static inline
-enum bt_ctf_btr_status align_type_state(struct bt_ctf_btr *btr,
- struct bt_ctf_field_type *field_type, enum btr_state next_state)
+enum bt_btr_status align_type_state(struct bt_btr *btr,
+ struct bt_field_type *field_type, enum btr_state next_state)
{
int field_alignment;
size_t skip_bits;
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
/* Get field's alignment */
- field_alignment = bt_ctf_field_type_get_alignment(field_type);
+ field_alignment = bt_field_type_get_alignment(field_type);
if (field_alignment < 0) {
BT_LOGW("Cannot get field type's alignment: "
"btr-addr=%p, ft-addr=%p, ft-id=%s",
btr, field_type,
- bt_ctf_field_type_id_string(
- bt_ctf_field_type_get_type_id(field_type)));
- status = BT_CTF_BTR_STATUS_ERROR;
+ bt_field_type_id_string(
+ bt_field_type_get_type_id(field_type)));
+ status = BT_BTR_STATUS_ERROR;
goto end;
}
/* Make sure there's at least one bit left */
if (!at_least_one_bit_left(btr)) {
- status = BT_CTF_BTR_STATUS_EOF;
+ status = BT_BTR_STATUS_EOF;
goto end;
}
} else {
/* No: need more data */
BT_LOGV("Reached end of data when aligning: btr-addr=%p", btr);
- status = BT_CTF_BTR_STATUS_EOF;
+ status = BT_BTR_STATUS_EOF;
}
end:
}
static inline
-bool is_compound_type(struct bt_ctf_field_type *field_type)
+bool is_compound_type(struct bt_field_type *field_type)
{
- enum bt_ctf_field_type_id id = bt_ctf_field_type_get_type_id(field_type);
+ enum bt_field_type_id id = bt_field_type_get_type_id(field_type);
- return id == BT_CTF_FIELD_TYPE_ID_STRUCT || id == BT_CTF_FIELD_TYPE_ID_ARRAY ||
- id == BT_CTF_FIELD_TYPE_ID_SEQUENCE || id == BT_CTF_FIELD_TYPE_ID_VARIANT;
+ return id == BT_FIELD_TYPE_ID_STRUCT || id == BT_FIELD_TYPE_ID_ARRAY ||
+ id == BT_FIELD_TYPE_ID_SEQUENCE || id == BT_FIELD_TYPE_ID_VARIANT;
}
static inline
-enum bt_ctf_btr_status next_field_state(struct bt_ctf_btr *btr)
+enum bt_btr_status next_field_state(struct bt_btr *btr)
{
int ret;
struct stack_entry *top;
- struct bt_ctf_field_type *next_field_type = NULL;
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ struct bt_field_type *next_field_type = NULL;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
if (stack_empty(btr->stack)) {
goto end;
status = btr->user.cbs.types.compound_end(
top->base_type, btr->user.data);
BT_LOGV("User function returned: status=%s",
- bt_ctf_btr_status_string(status));
- if (status != BT_CTF_BTR_STATUS_OK) {
+ bt_btr_status_string(status));
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("User function failed: btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
goto end;
}
}
}
/* Get next field's type */
- switch (bt_ctf_field_type_get_type_id(top->base_type)) {
- case BT_CTF_FIELD_TYPE_ID_STRUCT:
- ret = bt_ctf_field_type_structure_get_field(
+ switch (bt_field_type_get_type_id(top->base_type)) {
+ case BT_FIELD_TYPE_ID_STRUCT:
+ ret = bt_field_type_structure_get_field_by_index(
top->base_type, NULL, &next_field_type,
top->index);
if (ret) {
next_field_type = NULL;
}
break;
- case BT_CTF_FIELD_TYPE_ID_ARRAY:
+ case BT_FIELD_TYPE_ID_ARRAY:
next_field_type =
- bt_ctf_field_type_array_get_element_type(
+ bt_field_type_array_get_element_type(
top->base_type);
break;
- case BT_CTF_FIELD_TYPE_ID_SEQUENCE:
+ case BT_FIELD_TYPE_ID_SEQUENCE:
next_field_type =
- bt_ctf_field_type_sequence_get_element_type(
+ bt_field_type_sequence_get_element_type(
top->base_type);
break;
- case BT_CTF_FIELD_TYPE_ID_VARIANT:
+ case BT_FIELD_TYPE_ID_VARIANT:
/* Variant types are dynamic: query the user, he should know! */
next_field_type =
btr->user.cbs.query.get_variant_type(
"btr-addr=%p, base-ft-addr=%p, base-ft-id=%s, "
"index=%" PRId64,
btr, top->base_type,
- bt_ctf_field_type_id_string(
- bt_ctf_field_type_get_type_id(top->base_type)),
+ bt_field_type_id_string(
+ bt_field_type_get_type_id(top->base_type)),
top->index);
- status = BT_CTF_BTR_STATUS_ERROR;
+ status = BT_BTR_STATUS_ERROR;
goto end;
}
status = btr->user.cbs.types.compound_begin(
next_field_type, btr->user.data);
BT_LOGV("User function returned: status=%s",
- bt_ctf_btr_status_string(status));
- if (status != BT_CTF_BTR_STATUS_OK) {
+ bt_btr_status_string(status));
+ if (status != BT_BTR_STATUS_OK) {
BT_LOGW("User function failed: btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
goto end;
}
}
ret = stack_push_with_len(btr, next_field_type);
if (ret) {
/* stack_push_with_len() logs errors */
- status = BT_CTF_BTR_STATUS_ERROR;
+ status = BT_BTR_STATUS_ERROR;
goto end;
}
}
static inline
-enum bt_ctf_btr_status handle_state(struct bt_ctf_btr *btr)
+enum bt_btr_status handle_state(struct bt_btr *btr)
{
- enum bt_ctf_btr_status status = BT_CTF_BTR_STATUS_OK;
+ enum bt_btr_status status = BT_BTR_STATUS_OK;
BT_LOGV("Handling state: btr-addr=%p, state=%s",
btr, btr_state_string(btr->state));
}
BT_LOGV("Handled state: btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(status));
+ btr, bt_btr_status_string(status));
return status;
}
-struct bt_ctf_btr *bt_ctf_btr_create(struct bt_ctf_btr_cbs cbs, void *data)
+struct bt_btr *bt_btr_create(struct bt_btr_cbs cbs, void *data)
{
- struct bt_ctf_btr *btr;
+ struct bt_btr *btr;
BT_LOGD_STR("Creating binary type reader (BTR).");
- btr = g_new0(struct bt_ctf_btr, 1);
+ btr = g_new0(struct bt_btr, 1);
if (!btr) {
BT_LOGE_STR("Failed to allocate one binary type reader.");
goto end;
btr->stack = stack_new();
if (!btr->stack) {
BT_LOGE_STR("Cannot create BTR's stack.");
- bt_ctf_btr_destroy(btr);
+ bt_btr_destroy(btr);
btr = NULL;
goto end;
}
return btr;
}
-void bt_ctf_btr_destroy(struct bt_ctf_btr *btr)
+void bt_btr_destroy(struct bt_btr *btr)
{
if (btr->stack) {
stack_destroy(btr->stack);
}
static
-void reset(struct bt_ctf_btr *btr)
+void reset(struct bt_btr *btr)
{
BT_LOGD("Resetting BTR: addr=%p", btr);
stack_clear(btr->stack);
BT_PUT(btr->cur_basic_field_type);
stitch_reset(btr);
btr->buf.addr = NULL;
- btr->last_bo = BT_CTF_BYTE_ORDER_UNKNOWN;
+ btr->last_bo = BT_BYTE_ORDER_UNKNOWN;
}
static
-void update_packet_offset(struct bt_ctf_btr *btr)
+void update_packet_offset(struct bt_btr *btr)
{
BT_LOGV("Updating packet offset for next call: "
"btr-addr=%p, cur-packet-offset=%zu, next-packet-offset=%zu",
btr->buf.packet_offset += btr->buf.at;
}
-size_t bt_ctf_btr_start(struct bt_ctf_btr *btr,
- struct bt_ctf_field_type *type, const uint8_t *buf,
+size_t bt_btr_start(struct bt_btr *btr,
+ struct bt_field_type *type, const uint8_t *buf,
size_t offset, size_t packet_offset, size_t sz,
- enum bt_ctf_btr_status *status)
+ enum bt_btr_status *status)
{
assert(btr);
assert(buf);
btr->buf.packet_offset = packet_offset;
btr->buf.buf_sz = sz;
btr->buf.sz = BYTES_TO_BITS(sz) - offset;
- *status = BT_CTF_BTR_STATUS_OK;
+ *status = BT_BTR_STATUS_OK;
BT_LOGV("Starting decoding: btr-addr=%p, ft-addr=%p, "
"buf-addr=%p, buf-size=%zu, offset=%zu, "
*status = btr->user.cbs.types.compound_begin(
type, btr->user.data);
BT_LOGV("User function returned: status=%s",
- bt_ctf_btr_status_string(*status));
- if (*status != BT_CTF_BTR_STATUS_OK) {
+ bt_btr_status_string(*status));
+ if (*status != BT_BTR_STATUS_OK) {
BT_LOGW("User function failed: btr-addr=%p, status=%s",
- btr, bt_ctf_btr_status_string(*status));
+ btr, bt_btr_status_string(*status));
goto end;
}
}
stack_ret = stack_push_with_len(btr, type);
if (stack_ret) {
/* stack_push_with_len() logs errors */
- *status = BT_CTF_BTR_STATUS_ERROR;
+ *status = BT_BTR_STATUS_ERROR;
goto end;
}
while (true) {
*status = handle_state(btr);
- if (*status != BT_CTF_BTR_STATUS_OK ||
+ if (*status != BT_BTR_STATUS_OK ||
btr->state == BTR_STATE_DONE) {
break;
}
return btr->buf.at;
}
-size_t bt_ctf_btr_continue(struct bt_ctf_btr *btr,
+size_t bt_btr_continue(struct bt_btr *btr,
const uint8_t *buf, size_t sz,
- enum bt_ctf_btr_status *status)
+ enum bt_btr_status *status)
{
assert(btr);
assert(buf);
btr->buf.at = 0;
btr->buf.buf_sz = sz;
btr->buf.sz = BYTES_TO_BITS(sz);
- *status = BT_CTF_BTR_STATUS_OK;
+ *status = BT_BTR_STATUS_OK;
BT_LOGV("Continuing decoding: btr-addr=%p, buf-addr=%p, buf-size=%zu",
btr, buf, sz);
while (true) {
*status = handle_state(btr);
- if (*status != BT_CTF_BTR_STATUS_OK ||
+ if (*status != BT_BTR_STATUS_OK ||
btr->state == BTR_STATE_DONE) {
break;
}