lib: rename option/var. "selector" to "selector field"

[babeltrace.git] / src / plugins / ctf / common / msg-iter / msg-iter.c

/*
 * Babeltrace - CTF message iterator
 *
 * Copyright (c) 2015-2018 EfficiOS Inc. and Linux Foundation
 * Copyright (c) 2015-2018 Philippe Proulx <pproulx@efficios.com>
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 * SOFTWARE.
 */

#define BT_COMP_LOG_SELF_COMP (notit->self_comp)
#define BT_LOG_OUTPUT_LEVEL (notit->log_level)
#define BT_LOG_TAG "PLUGIN/CTF/MSG-ITER"
#include "logging/comp-logging.h"

#include <stdint.h>
#include <inttypes.h>
#include <stdio.h>
#include <stddef.h>
#include <stdbool.h>
#include "common/assert.h"
#include <string.h>
#include <babeltrace2/babeltrace.h>
#include "common/common.h"
#include <glib.h>
#include <stdlib.h>

#include "msg-iter.h"
#include "../bfcr/bfcr.h"

struct bt_msg_iter;

/* A visit stack entry */
struct stack_entry {
        /*
         * Current base field, one of:
         *
         *   * string
         *   * structure
         *   * array
         *   * sequence
         *   * variant
         *
         * Field is borrowed.
         */
        bt_field *base;

        /* Index of next field to set */
        size_t index;
};

struct bt_msg_iter;

/* Visit stack */
struct stack {
        struct bt_msg_iter *notit;

        /* Entries (struct stack_entry) */
        GArray *entries;

        /* Number of active entries */
        size_t size;
};

/* State */
enum state {
        STATE_INIT,
        STATE_SWITCH_PACKET,
        STATE_DSCOPE_TRACE_PACKET_HEADER_BEGIN,
        STATE_DSCOPE_TRACE_PACKET_HEADER_CONTINUE,
        STATE_AFTER_TRACE_PACKET_HEADER,
        STATE_DSCOPE_STREAM_PACKET_CONTEXT_BEGIN,
        STATE_DSCOPE_STREAM_PACKET_CONTEXT_CONTINUE,
        STATE_AFTER_STREAM_PACKET_CONTEXT,
        STATE_CHECK_EMIT_MSG_STREAM_BEGINNING,
        STATE_EMIT_MSG_STREAM_BEGINNING,
        STATE_CHECK_EMIT_MSG_DISCARDED_EVENTS,
        STATE_CHECK_EMIT_MSG_DISCARDED_PACKETS,
        STATE_EMIT_MSG_DISCARDED_EVENTS,
        STATE_EMIT_MSG_DISCARDED_PACKETS,
        STATE_EMIT_MSG_PACKET_BEGINNING,
        STATE_DSCOPE_EVENT_HEADER_BEGIN,
        STATE_DSCOPE_EVENT_HEADER_CONTINUE,
        STATE_AFTER_EVENT_HEADER,
        STATE_DSCOPE_EVENT_COMMON_CONTEXT_BEGIN,
        STATE_DSCOPE_EVENT_COMMON_CONTEXT_CONTINUE,
        STATE_DSCOPE_EVENT_SPEC_CONTEXT_BEGIN,
        STATE_DSCOPE_EVENT_SPEC_CONTEXT_CONTINUE,
        STATE_DSCOPE_EVENT_PAYLOAD_BEGIN,
        STATE_DSCOPE_EVENT_PAYLOAD_CONTINUE,
        STATE_EMIT_MSG_EVENT,
        STATE_EMIT_QUEUED_MSG_EVENT,
        STATE_SKIP_PACKET_PADDING,
        STATE_EMIT_MSG_PACKET_END_MULTI,
        STATE_EMIT_MSG_PACKET_END_SINGLE,
        STATE_CHECK_EMIT_MSG_STREAM_END,
        STATE_EMIT_QUEUED_MSG_PACKET_END,
        STATE_EMIT_MSG_STREAM_END,
        STATE_DONE,
};

struct end_of_packet_snapshots {
        uint64_t discarded_events;
        uint64_t packets;
        uint64_t beginning_clock;
        uint64_t end_clock;
};

/* CTF message iterator */
struct bt_msg_iter {
        /* Visit stack */
        struct stack *stack;

        /* Current message iterator to create messages (weak) */
        bt_self_message_iterator *msg_iter;

        /* True to emit a stream beginning message. */
        bool emit_stream_begin_msg;

        /* True to emit a stream end message. */
        bool emit_stream_end_msg;

        /*
         * True if library objects are unavailable during the decoding and
         * should not be created/used.
         */
        bool dry_run;

        /* True to set the stream */
        bool set_stream;

        /*
         * Current dynamic scope field pointer.
         *
         * This is set by read_dscope_begin_state() and contains the
         * value of one of the pointers in `dscopes` below.
         */
        bt_field *cur_dscope_field;

        /*
         * True if we're done filling a string field from a text
         * array/sequence payload.
         */
        bool done_filling_string;

        /* Trace and classes */
        /* True to set IR fields */
        bool set_ir_fields;

        struct {
                struct ctf_trace_class *tc;
                struct ctf_stream_class *sc;
                struct ctf_event_class *ec;
        } meta;

        /* Current packet context field wrapper (NULL if not created yet) */
        bt_packet_context_field *packet_context_field;

        /* Current packet (NULL if not created yet) */
        bt_packet *packet;

        /* Current stream (NULL if not set yet) */
        bt_stream *stream;

        /* Current event (NULL if not created yet) */
        bt_event *event;

        /* Current event message (NULL if not created yet) */
        bt_message *event_msg;

        /*
         * True if we need to emit a packet beginning message before we emit
         * the next event message or the packet end message.
         */
        bool emit_delayed_packet_beginning_msg;

        /* Database of current dynamic scopes */
        struct {
                bt_field *stream_packet_context;
                bt_field *event_common_context;
                bt_field *event_spec_context;
                bt_field *event_payload;
        } dscopes;

        /* Current state */
        enum state state;

        /* Current medium buffer data */
        struct {
                /* Last address provided by medium */
                const uint8_t *addr;

                /* Buffer size provided by medium (bytes) */
                size_t sz;

                /* Offset within whole packet of addr (bits) */
                size_t packet_offset;

                /* Current position from addr (bits) */
                size_t at;

                /* Position of the last event header from addr (bits) */
                size_t last_eh_at;
        } buf;

        /* Binary type reader */
        struct bt_bfcr *bfcr;

        /* Current medium data */
        struct {
                struct bt_msg_iter_medium_ops medops;
                size_t max_request_sz;
                void *data;
        } medium;

        /* Current packet size (bits) (-1 if unknown) */
        int64_t cur_exp_packet_total_size;

        /* Current content size (bits) (-1 if unknown) */
        int64_t cur_exp_packet_content_size;

        /* Current stream class ID */
        int64_t cur_stream_class_id;

        /* Current event class ID */
        int64_t cur_event_class_id;

        /* Current data stream ID */
        int64_t cur_data_stream_id;

        /*
         * Offset, in the underlying media, of the current packet's
         * start (-1 if unknown).
         */
        off_t cur_packet_offset;

        /* Default clock's current value */
        uint64_t default_clock_snapshot;

        /* End of current packet snapshots */
        struct end_of_packet_snapshots snapshots;

        /* End of previous packet snapshots */
        struct end_of_packet_snapshots prev_packet_snapshots;

        /* Stored values (for sequence lengths, variant tags) */
        GArray *stored_values;

        /* Iterator's current log level */
        bt_logging_level log_level;

        /* Iterator's owning self component, or `NULL` if none (query) */
        bt_self_component *self_comp;
};

static inline
const char *state_string(enum state state)
{
        switch (state) {
        case STATE_INIT:
                return "INIT";
        case STATE_SWITCH_PACKET:
                return "SWITCH_PACKET";
        case STATE_DSCOPE_TRACE_PACKET_HEADER_BEGIN:
                return "DSCOPE_TRACE_PACKET_HEADER_BEGIN";
        case STATE_DSCOPE_TRACE_PACKET_HEADER_CONTINUE:
                return "DSCOPE_TRACE_PACKET_HEADER_CONTINUE";
        case STATE_AFTER_TRACE_PACKET_HEADER:
                return "AFTER_TRACE_PACKET_HEADER";
        case STATE_DSCOPE_STREAM_PACKET_CONTEXT_BEGIN:
                return "DSCOPE_STREAM_PACKET_CONTEXT_BEGIN";
        case STATE_DSCOPE_STREAM_PACKET_CONTEXT_CONTINUE:
                return "DSCOPE_STREAM_PACKET_CONTEXT_CONTINUE";
        case STATE_AFTER_STREAM_PACKET_CONTEXT:
                return "AFTER_STREAM_PACKET_CONTEXT";
        case STATE_EMIT_MSG_STREAM_BEGINNING:
                return "EMIT_MSG_STREAM_BEGINNING";
        case STATE_EMIT_MSG_PACKET_BEGINNING:
                return "EMIT_MSG_PACKET_BEGINNING";
        case STATE_EMIT_MSG_DISCARDED_EVENTS:
                return "EMIT_MSG_DISCARDED_EVENTS";
        case STATE_EMIT_MSG_DISCARDED_PACKETS:
                return "EMIT_MSG_DISCARDED_PACKETS";
        case STATE_DSCOPE_EVENT_HEADER_BEGIN:
                return "DSCOPE_EVENT_HEADER_BEGIN";
        case STATE_DSCOPE_EVENT_HEADER_CONTINUE:
                return "DSCOPE_EVENT_HEADER_CONTINUE";
        case STATE_AFTER_EVENT_HEADER:
                return "AFTER_EVENT_HEADER";
        case STATE_DSCOPE_EVENT_COMMON_CONTEXT_BEGIN:
                return "DSCOPE_EVENT_COMMON_CONTEXT_BEGIN";
        case STATE_DSCOPE_EVENT_COMMON_CONTEXT_CONTINUE:
                return "DSCOPE_EVENT_COMMON_CONTEXT_CONTINUE";
        case STATE_DSCOPE_EVENT_SPEC_CONTEXT_BEGIN:
                return "DSCOPE_EVENT_SPEC_CONTEXT_BEGIN";
        case STATE_DSCOPE_EVENT_SPEC_CONTEXT_CONTINUE:
                return "DSCOPE_EVENT_SPEC_CONTEXT_CONTINUE";
        case STATE_DSCOPE_EVENT_PAYLOAD_BEGIN:
                return "DSCOPE_EVENT_PAYLOAD_BEGIN";
        case STATE_DSCOPE_EVENT_PAYLOAD_CONTINUE:
                return "DSCOPE_EVENT_PAYLOAD_CONTINUE";
        case STATE_EMIT_MSG_EVENT:
                return "EMIT_MSG_EVENT";
        case STATE_EMIT_QUEUED_MSG_EVENT:
                return "EMIT_QUEUED_MSG_EVENT";
        case STATE_SKIP_PACKET_PADDING:
                return "SKIP_PACKET_PADDING";
        case STATE_EMIT_MSG_PACKET_END_MULTI:
                return "EMIT_MSG_PACKET_END_MULTI";
        case STATE_EMIT_MSG_PACKET_END_SINGLE:
                return "EMIT_MSG_PACKET_END_SINGLE";
        case STATE_EMIT_QUEUED_MSG_PACKET_END:
                return "EMIT_QUEUED_MSG_PACKET_END";
        case STATE_EMIT_MSG_STREAM_END:
                return "EMIT_MSG_STREAM_END";
        case STATE_DONE:
                return "DONE";
        default:
                return "(unknown)";
        }
}

static
struct stack *stack_new(struct bt_msg_iter *notit)
{
        struct stack *stack = NULL;

        stack = g_new0(struct stack, 1);
        if (!stack) {
                BT_COMP_LOGE_STR("Failed to allocate one stack.");
                goto error;
        }

        stack->notit = notit;
        stack->entries = g_array_new(FALSE, TRUE, sizeof(struct stack_entry));
        if (!stack->entries) {
                BT_COMP_LOGE_STR("Failed to allocate a GArray.");
                goto error;
        }

        BT_COMP_LOGD("Created stack: notit-addr=%p, stack-addr=%p", notit, stack);
        goto end;

error:
        g_free(stack);
        stack = NULL;

end:
        return stack;
}

static
void stack_destroy(struct stack *stack)
{
        struct bt_msg_iter *notit;

        BT_ASSERT(stack);
        notit = stack->notit;
        BT_COMP_LOGD("Destroying stack: addr=%p", stack);

        if (stack->entries) {
                g_array_free(stack->entries, TRUE);
        }

        g_free(stack);
}

static
void stack_push(struct stack *stack, bt_field *base)
{
        struct stack_entry *entry;
        struct bt_msg_iter *notit;

        BT_ASSERT(stack);
        notit = stack->notit;
        BT_ASSERT(base);
        BT_COMP_LOGT("Pushing base field on stack: stack-addr=%p, "
                "stack-size-before=%zu, stack-size-after=%zu",
                stack, stack->size, stack->size + 1);

        if (stack->entries->len == stack->size) {
                g_array_set_size(stack->entries, stack->size + 1);
        }

        entry = &g_array_index(stack->entries, struct stack_entry, stack->size);
        entry->base = base;
        entry->index = 0;
        stack->size++;
}

static inline
unsigned int stack_size(struct stack *stack)
{
        BT_ASSERT(stack);
        return stack->size;
}

static
void stack_pop(struct stack *stack)
{
        struct bt_msg_iter *notit;

        BT_ASSERT(stack);
        BT_ASSERT(stack_size(stack));
        notit = stack->notit;
        BT_COMP_LOGT("Popping from stack: "
                "stack-addr=%p, stack-size-before=%zu, stack-size-after=%zu",
                stack, stack->size, stack->size - 1);
        stack->size--;
}

static inline
struct stack_entry *stack_top(struct stack *stack)
{
        BT_ASSERT(stack);
        BT_ASSERT(stack_size(stack));
        return &g_array_index(stack->entries, struct stack_entry,
                stack->size - 1);
}

static inline
bool stack_empty(struct stack *stack)
{
        return stack_size(stack) == 0;
}

static
void stack_clear(struct stack *stack)
{
        BT_ASSERT(stack);
        stack->size = 0;
}

static inline
enum bt_msg_iter_status msg_iter_status_from_m_status(
                enum bt_msg_iter_medium_status m_status)
{
        /* They are the same */
        return (int) m_status;
}

static inline
size_t buf_size_bits(struct bt_msg_iter *notit)
{
        return notit->buf.sz * 8;
}

static inline
size_t buf_available_bits(struct bt_msg_iter *notit)
{
        return buf_size_bits(notit) - notit->buf.at;
}

static inline
size_t packet_at(struct bt_msg_iter *notit)
{
        return notit->buf.packet_offset + notit->buf.at;
}

static inline
void buf_consume_bits(struct bt_msg_iter *notit, size_t incr)
{
        BT_COMP_LOGT("Advancing cursor: notit-addr=%p, cur-before=%zu, cur-after=%zu",
                notit, notit->buf.at, notit->buf.at + incr);
        notit->buf.at += incr;
}

static
enum bt_msg_iter_status request_medium_bytes(
                struct bt_msg_iter *notit)
{
        uint8_t *buffer_addr = NULL;
        size_t buffer_sz = 0;
        enum bt_msg_iter_medium_status m_status;

        BT_COMP_LOGD("Calling user function (request bytes): notit-addr=%p, "
                "request-size=%zu", notit, notit->medium.max_request_sz);
        m_status = notit->medium.medops.request_bytes(
                notit->medium.max_request_sz, &buffer_addr,
                &buffer_sz, notit->medium.data);
        BT_COMP_LOGD("User function returned: status=%s, buf-addr=%p, buf-size=%zu",
                bt_msg_iter_medium_status_string(m_status),
                buffer_addr, buffer_sz);
        if (m_status == BT_MSG_ITER_MEDIUM_STATUS_OK) {
                BT_ASSERT(buffer_sz != 0);

                /* New packet offset is old one + old size (in bits) */
                notit->buf.packet_offset += buf_size_bits(notit);

                /* Restart at the beginning of the new medium buffer */
                notit->buf.at = 0;
                notit->buf.last_eh_at = SIZE_MAX;

                /* New medium buffer size */
                notit->buf.sz = buffer_sz;

                /* New medium buffer address */
                notit->buf.addr = buffer_addr;

                BT_COMP_LOGD("User function returned new bytes: "
                        "packet-offset=%zu, cur=%zu, size=%zu, addr=%p",
                        notit->buf.packet_offset, notit->buf.at,
                        notit->buf.sz, notit->buf.addr);
                BT_COMP_LOGD_MEM(buffer_addr, buffer_sz, "Returned bytes at %p:",
                        buffer_addr);
        } else if (m_status == BT_MSG_ITER_MEDIUM_STATUS_EOF) {
                /*
                 * User returned end of stream: validate that we're not
                 * in the middle of a packet header, packet context, or
                 * event.
                 */
                if (notit->cur_exp_packet_total_size >= 0) {
                        if (packet_at(notit) ==
                                        notit->cur_exp_packet_total_size) {
                                goto end;
                        }
                } else {
                        if (packet_at(notit) == 0) {
                                goto end;
                        }

                        if (notit->buf.last_eh_at != SIZE_MAX &&
                                        notit->buf.at == notit->buf.last_eh_at) {
                                goto end;
                        }
                }

                /* All other states are invalid */
                BT_COMP_LOGW("User function returned %s, but message iterator is in an unexpected state: "
                        "state=%s, cur-packet-size=%" PRId64 ", cur=%zu, "
                        "packet-cur=%zu, last-eh-at=%zu",
                        bt_msg_iter_medium_status_string(m_status),
                        state_string(notit->state),
                        notit->cur_exp_packet_total_size,
                        notit->buf.at, packet_at(notit),
                        notit->buf.last_eh_at);
                m_status = BT_MSG_ITER_MEDIUM_STATUS_ERROR;
        } else if (m_status < 0) {
                BT_COMP_LOGW("User function failed: status=%s",
                        bt_msg_iter_medium_status_string(m_status));
        }

end:
        return msg_iter_status_from_m_status(m_status);
}

static inline
enum bt_msg_iter_status buf_ensure_available_bits(
                struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;

        if (G_UNLIKELY(buf_available_bits(notit) == 0)) {
                /*
                 * This _cannot_ return BT_MSG_ITER_STATUS_OK
                 * _and_ no bits.
                 */
                status = request_medium_bytes(notit);
        }

        return status;
}

static
enum bt_msg_iter_status read_dscope_begin_state(
                struct bt_msg_iter *notit,
                struct ctf_field_class *dscope_fc,
                enum state done_state, enum state continue_state,
                bt_field *dscope_field)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        enum bt_bfcr_status bfcr_status;
        size_t consumed_bits;

        notit->cur_dscope_field = dscope_field;
        BT_COMP_LOGT("Starting BFCR: notit-addr=%p, bfcr-addr=%p, fc-addr=%p",
                notit, notit->bfcr, dscope_fc);
        consumed_bits = bt_bfcr_start(notit->bfcr, dscope_fc,
                notit->buf.addr, notit->buf.at, packet_at(notit),
                notit->buf.sz, &bfcr_status);
        BT_COMP_LOGT("BFCR consumed bits: size=%zu", consumed_bits);

        switch (bfcr_status) {
        case BT_BFCR_STATUS_OK:
                /* Field class was read completely */
                BT_COMP_LOGT_STR("Field was completely decoded.");
                notit->state = done_state;
                break;
        case BT_BFCR_STATUS_EOF:
                BT_COMP_LOGT_STR("BFCR needs more data to decode field completely.");
                notit->state = continue_state;
                break;
        default:
                BT_COMP_LOGW("BFCR failed to start: notit-addr=%p, bfcr-addr=%p, "
                        "status=%s", notit, notit->bfcr,
                        bt_bfcr_status_string(bfcr_status));
                status = BT_MSG_ITER_STATUS_ERROR;
                goto end;
        }

        /* Consume bits now since we know we're not in an error state */
        buf_consume_bits(notit, consumed_bits);

end:
        return status;
}

static
enum bt_msg_iter_status read_dscope_continue_state(
                struct bt_msg_iter *notit, enum state done_state)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        enum bt_bfcr_status bfcr_status;
        size_t consumed_bits;

        BT_COMP_LOGT("Continuing BFCR: notit-addr=%p, bfcr-addr=%p",
                notit, notit->bfcr);

        status = buf_ensure_available_bits(notit);
        if (status != BT_MSG_ITER_STATUS_OK) {
                if (status < 0) {
                        BT_COMP_LOGW("Cannot ensure that buffer has at least one byte: "
                                "msg-addr=%p, status=%s",
                                notit, bt_msg_iter_status_string(status));
                } else {
                        BT_COMP_LOGT("Cannot ensure that buffer has at least one byte: "
                                "msg-addr=%p, status=%s",
                                notit, bt_msg_iter_status_string(status));
                }

                goto end;
        }

        consumed_bits = bt_bfcr_continue(notit->bfcr, notit->buf.addr,
                notit->buf.sz, &bfcr_status);
        BT_COMP_LOGT("BFCR consumed bits: size=%zu", consumed_bits);

        switch (bfcr_status) {
        case BT_BFCR_STATUS_OK:
                /* Type was read completely. */
                BT_COMP_LOGT_STR("Field was completely decoded.");
                notit->state = done_state;
                break;
        case BT_BFCR_STATUS_EOF:
                /* Stay in this continue state. */
                BT_COMP_LOGT_STR("BFCR needs more data to decode field completely.");
                break;
        default:
                BT_COMP_LOGW("BFCR failed to continue: notit-addr=%p, bfcr-addr=%p, "
                        "status=%s", notit, notit->bfcr,
                        bt_bfcr_status_string(bfcr_status));
                status = BT_MSG_ITER_STATUS_ERROR;
                goto end;
        }

        /* Consume bits now since we know we're not in an error state. */
        buf_consume_bits(notit, consumed_bits);
end:
        return status;
}

static
void release_event_dscopes(struct bt_msg_iter *notit)
{
        notit->dscopes.event_common_context = NULL;
        notit->dscopes.event_spec_context = NULL;
        notit->dscopes.event_payload = NULL;
}

static
void release_all_dscopes(struct bt_msg_iter *notit)
{
        notit->dscopes.stream_packet_context = NULL;

        if (notit->packet_context_field) {
                bt_packet_context_field_release(notit->packet_context_field);
                notit->packet_context_field = NULL;
        }

        release_event_dscopes(notit);
}

static
enum bt_msg_iter_status switch_packet_state(struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;

        /*
         * We don't put the stream class here because we need to make
         * sure that all the packets processed by the same message
         * iterator refer to the same stream class (the first one).
         */
        BT_ASSERT(notit);

        if (notit->cur_exp_packet_total_size != -1) {
                notit->cur_packet_offset += notit->cur_exp_packet_total_size;
        }

        BT_COMP_LOGD("Switching packet: notit-addr=%p, cur=%zu, "
                "packet-offset=%" PRId64, notit, notit->buf.at,
                notit->cur_packet_offset);
        stack_clear(notit->stack);
        notit->meta.ec = NULL;
        BT_PACKET_PUT_REF_AND_RESET(notit->packet);
        BT_MESSAGE_PUT_REF_AND_RESET(notit->event_msg);
        release_all_dscopes(notit);
        notit->cur_dscope_field = NULL;

        /*
         * Adjust current buffer so that addr points to the beginning of the new
         * packet.
         */
        if (notit->buf.addr) {
                size_t consumed_bytes = (size_t) (notit->buf.at / CHAR_BIT);

                /* Packets are assumed to start on a byte frontier. */
                if (notit->buf.at % CHAR_BIT) {
                        BT_COMP_LOGW("Cannot switch packet: current position is not a multiple of 8: "
                                "notit-addr=%p, cur=%zu", notit, notit->buf.at);
                        status = BT_MSG_ITER_STATUS_ERROR;
                        goto end;
                }

                notit->buf.addr += consumed_bytes;
                notit->buf.sz -= consumed_bytes;
                notit->buf.at = 0;
                notit->buf.packet_offset = 0;
                BT_COMP_LOGD("Adjusted buffer: addr=%p, size=%zu",
                        notit->buf.addr, notit->buf.sz);
        }

        notit->cur_exp_packet_content_size = -1;
        notit->cur_exp_packet_total_size = -1;
        notit->cur_stream_class_id = -1;
        notit->cur_event_class_id = -1;
        notit->cur_data_stream_id = -1;
        notit->prev_packet_snapshots = notit->snapshots;
        notit->snapshots.discarded_events = UINT64_C(-1);
        notit->snapshots.packets = UINT64_C(-1);
        notit->snapshots.beginning_clock = UINT64_C(-1);
        notit->snapshots.end_clock = UINT64_C(-1);
        notit->state = STATE_DSCOPE_TRACE_PACKET_HEADER_BEGIN;

end:
        return status;
}

static
enum bt_msg_iter_status read_packet_header_begin_state(
                struct bt_msg_iter *notit)
{
        struct ctf_field_class *packet_header_fc = NULL;
        enum bt_msg_iter_status ret = BT_MSG_ITER_STATUS_OK;

        /*
         * Make sure at least one bit is available for this packet. An
         * empty packet is impossible. If we reach the end of the medium
         * at this point, then it's considered the end of the stream.
         */
        ret = buf_ensure_available_bits(notit);
        switch (ret) {
        case BT_MSG_ITER_STATUS_OK:
                break;
        case BT_MSG_ITER_STATUS_EOF:
                ret = BT_MSG_ITER_STATUS_OK;
                notit->state = STATE_CHECK_EMIT_MSG_STREAM_END;
                goto end;
        default:
                goto end;
        }

        /* Packet header class is common to the whole trace class. */
        packet_header_fc = notit->meta.tc->packet_header_fc;
        if (!packet_header_fc) {
                notit->state = STATE_AFTER_TRACE_PACKET_HEADER;
                goto end;
        }

        notit->cur_stream_class_id = -1;
        notit->cur_event_class_id = -1;
        notit->cur_data_stream_id = -1;
        BT_COMP_LOGD("Decoding packet header field:"
                "notit-addr=%p, trace-class-addr=%p, fc-addr=%p",
                notit, notit->meta.tc, packet_header_fc);
        ret = read_dscope_begin_state(notit, packet_header_fc,
                STATE_AFTER_TRACE_PACKET_HEADER,
                STATE_DSCOPE_TRACE_PACKET_HEADER_CONTINUE, NULL);
        if (ret < 0) {
                BT_COMP_LOGW("Cannot decode packet header field: "
                        "notit-addr=%p, trace-class-addr=%p, "
                        "fc-addr=%p",
                        notit, notit->meta.tc, packet_header_fc);
        }

end:
        return ret;
}

static
enum bt_msg_iter_status read_packet_header_continue_state(
                struct bt_msg_iter *notit)
{
        return read_dscope_continue_state(notit,
                STATE_AFTER_TRACE_PACKET_HEADER);
}

static inline
enum bt_msg_iter_status set_current_stream_class(struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        struct ctf_stream_class *new_stream_class = NULL;

        if (notit->cur_stream_class_id == -1) {
                /*
                 * No current stream class ID field, therefore only one
                 * stream class.
                 */
                if (notit->meta.tc->stream_classes->len != 1) {
                        BT_COMP_LOGW("Need exactly one stream class since there's "
                                "no stream class ID field: "
                                "notit-addr=%p", notit);
                        status = BT_MSG_ITER_STATUS_ERROR;
                        goto end;
                }

                new_stream_class = notit->meta.tc->stream_classes->pdata[0];
                notit->cur_stream_class_id = new_stream_class->id;
        }

        new_stream_class = ctf_trace_class_borrow_stream_class_by_id(
                notit->meta.tc, notit->cur_stream_class_id);
        if (!new_stream_class) {
                BT_COMP_LOGW("No stream class with ID of stream class ID to use in trace class: "
                        "notit-addr=%p, stream-class-id=%" PRIu64 ", "
                        "trace-class-addr=%p",
                        notit, notit->cur_stream_class_id, notit->meta.tc);
                status = BT_MSG_ITER_STATUS_ERROR;
                goto end;
        }

        if (notit->meta.sc) {
                if (new_stream_class != notit->meta.sc) {
                        BT_COMP_LOGW("Two packets refer to two different stream classes within the same packet sequence: "
                                "notit-addr=%p, prev-stream-class-addr=%p, "
                                "prev-stream-class-id=%" PRId64 ", "
                                "next-stream-class-addr=%p, "
                                "next-stream-class-id=%" PRId64 ", "
                                "trace-addr=%p",
                                notit, notit->meta.sc,
                                notit->meta.sc->id,
                                new_stream_class,
                                new_stream_class->id,
                                notit->meta.tc);
                        status = BT_MSG_ITER_STATUS_ERROR;
                        goto end;
                }
        } else {
                notit->meta.sc = new_stream_class;
        }

        BT_COMP_LOGD("Set current stream class: "
                "notit-addr=%p, stream-class-addr=%p, "
                "stream-class-id=%" PRId64,
                notit, notit->meta.sc, notit->meta.sc->id);

end:
        return status;
}

static inline
enum bt_msg_iter_status set_current_stream(struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        bt_stream *stream = NULL;

        BT_COMP_LOGD("Calling user function (get stream): notit-addr=%p, "
                "stream-class-addr=%p, stream-class-id=%" PRId64,
                notit, notit->meta.sc,
                notit->meta.sc->id);
        stream = notit->medium.medops.borrow_stream(
                notit->meta.sc->ir_sc, notit->cur_data_stream_id,
                notit->medium.data);
        bt_stream_get_ref(stream);
        BT_COMP_LOGD("User function returned: stream-addr=%p", stream);
        if (!stream) {
                BT_COMP_LOGW_STR("User function failed to return a stream object "
                        "for the given stream class.");
                status = BT_MSG_ITER_STATUS_ERROR;
                goto end;
        }

        if (notit->stream && stream != notit->stream) {
                BT_COMP_LOGW("User function returned a different stream than the "
                        "previous one for the same sequence of packets.");
                status = BT_MSG_ITER_STATUS_ERROR;
                goto end;
        }

        BT_STREAM_MOVE_REF(notit->stream, stream);

end:
        bt_stream_put_ref(stream);
        return status;
}

static inline
enum bt_msg_iter_status set_current_packet(struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        bt_packet *packet = NULL;

        BT_COMP_LOGD("Creating packet for packet message: "
                "notit-addr=%p", notit);
        BT_COMP_LOGD("Creating packet from stream: "
                "notit-addr=%p, stream-addr=%p, "
                "stream-class-addr=%p, "
                "stream-class-id=%" PRId64,
                notit, notit->stream, notit->meta.sc,
                notit->meta.sc->id);

        /* Create packet */
        BT_ASSERT(notit->stream);
        packet = bt_packet_create(notit->stream);
        if (!packet) {
                BT_COMP_LOGE("Cannot create packet from stream: "
                        "notit-addr=%p, stream-addr=%p, "
                        "stream-class-addr=%p, "
                        "stream-class-id=%" PRId64,
                        notit, notit->stream, notit->meta.sc,
                        notit->meta.sc->id);
                goto error;
        }

        goto end;

error:
        BT_PACKET_PUT_REF_AND_RESET(packet);
        status = BT_MSG_ITER_STATUS_ERROR;

end:
        BT_PACKET_MOVE_REF(notit->packet, packet);
        return status;
}

static
enum bt_msg_iter_status after_packet_header_state(
                struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status;

        status = set_current_stream_class(notit);
        if (status != BT_MSG_ITER_STATUS_OK) {
                goto end;
        }

        notit->state = STATE_DSCOPE_STREAM_PACKET_CONTEXT_BEGIN;

end:
        return status;
}

static
enum bt_msg_iter_status read_packet_context_begin_state(
                struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        struct ctf_field_class *packet_context_fc;

        BT_ASSERT(notit->meta.sc);
        packet_context_fc = notit->meta.sc->packet_context_fc;
        if (!packet_context_fc) {
                BT_COMP_LOGD("No packet packet context field class in stream class: continuing: "
                        "notit-addr=%p, stream-class-addr=%p, "
                        "stream-class-id=%" PRId64,
                        notit, notit->meta.sc,
                        notit->meta.sc->id);
                notit->state = STATE_AFTER_STREAM_PACKET_CONTEXT;
                goto end;
        }

        BT_ASSERT(!notit->packet_context_field);

        if (packet_context_fc->in_ir && !notit->dry_run) {
                /*
                 * Create free packet context field from stream class.
                 * This field is going to be moved to the packet once we
                 * create it. We cannot create the packet now because a
                 * packet is created from a stream, and this API must be
                 * able to return the packet context properties without
                 * creating a stream
                 * (bt_msg_iter_get_packet_properties()).
                 */
                notit->packet_context_field =
                        bt_packet_context_field_create(
                                notit->meta.sc->ir_sc);
                if (!notit->packet_context_field) {
                        BT_COMP_LOGE_STR("Cannot create packet context field wrapper from stream class.");
                        status = BT_MSG_ITER_STATUS_ERROR;
                        goto end;
                }

                notit->dscopes.stream_packet_context =
                        bt_packet_context_field_borrow_field(
                                notit->packet_context_field);
                BT_ASSERT(notit->dscopes.stream_packet_context);
        }

        BT_COMP_LOGD("Decoding packet context field: "
                "notit-addr=%p, stream-class-addr=%p, "
                "stream-class-id=%" PRId64 ", fc-addr=%p",
                notit, notit->meta.sc,
                notit->meta.sc->id, packet_context_fc);
        status = read_dscope_begin_state(notit, packet_context_fc,
                STATE_AFTER_STREAM_PACKET_CONTEXT,
                STATE_DSCOPE_STREAM_PACKET_CONTEXT_CONTINUE,
                notit->dscopes.stream_packet_context);
        if (status < 0) {
                BT_COMP_LOGW("Cannot decode packet context field: "
                        "notit-addr=%p, stream-class-addr=%p, "
                        "stream-class-id=%" PRId64 ", fc-addr=%p",
                        notit, notit->meta.sc,
                        notit->meta.sc->id,
                        packet_context_fc);
        }

end:
        return status;
}

static
enum bt_msg_iter_status read_packet_context_continue_state(
                struct bt_msg_iter *notit)
{
        return read_dscope_continue_state(notit,
                        STATE_AFTER_STREAM_PACKET_CONTEXT);
}

static
enum bt_msg_iter_status set_current_packet_content_sizes(
                struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;

        if (notit->cur_exp_packet_total_size == -1) {
                if (notit->cur_exp_packet_content_size != -1) {
                        notit->cur_exp_packet_total_size =
                                notit->cur_exp_packet_content_size;
                }
        } else {
                if (notit->cur_exp_packet_content_size == -1) {
                        notit->cur_exp_packet_content_size =
                                notit->cur_exp_packet_total_size;
                }
        }

        BT_ASSERT((notit->cur_exp_packet_total_size >= 0 &&
                notit->cur_exp_packet_content_size >= 0) ||
                (notit->cur_exp_packet_total_size < 0 &&
                notit->cur_exp_packet_content_size < 0));

        if (notit->cur_exp_packet_content_size >
                        notit->cur_exp_packet_total_size) {
                BT_COMP_LOGW("Invalid packet or content size: "
                        "content size is greater than packet size: "
                        "notit-addr=%p, packet-context-field-addr=%p, "
                        "packet-size=%" PRId64 ", content-size=%" PRId64,
                        notit, notit->dscopes.stream_packet_context,
                        notit->cur_exp_packet_total_size,
                        notit->cur_exp_packet_content_size);
                status = BT_MSG_ITER_STATUS_ERROR;
                goto end;
        }

        BT_COMP_LOGD("Set current packet and content sizes: "
                "notit-addr=%p, packet-size=%" PRIu64 ", content-size=%" PRIu64,
                notit, notit->cur_exp_packet_total_size,
                notit->cur_exp_packet_content_size);

end:
        return status;
}

static
enum bt_msg_iter_status after_packet_context_state(struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status;

        status = set_current_packet_content_sizes(notit);
        if (status != BT_MSG_ITER_STATUS_OK) {
                goto end;
        }

        if (notit->stream) {
                /*
                 * Stream exists, which means we already emitted at
                 * least one packet beginning message, so the initial
                 * stream beginning message was also emitted.
                 */
                notit->state = STATE_CHECK_EMIT_MSG_DISCARDED_EVENTS;
        } else {
                notit->state = STATE_CHECK_EMIT_MSG_STREAM_BEGINNING;
        }

end:
        return status;
}

static
enum bt_msg_iter_status read_event_header_begin_state(struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        struct ctf_field_class *event_header_fc = NULL;

        /* Reset the position of the last event header */
        notit->buf.last_eh_at = notit->buf.at;
        notit->cur_event_class_id = -1;

        /* Check if we have some content left */
        if (notit->cur_exp_packet_content_size >= 0) {
                if (G_UNLIKELY(packet_at(notit) ==
                                notit->cur_exp_packet_content_size)) {
                        /* No more events! */
                        BT_COMP_LOGD("Reached end of packet: notit-addr=%p, "
                                "cur=%zu", notit, packet_at(notit));
                        notit->state = STATE_EMIT_MSG_PACKET_END_MULTI;
                        goto end;
                } else if (G_UNLIKELY(packet_at(notit) >
                                notit->cur_exp_packet_content_size)) {
                        /* That's not supposed to happen */
                        BT_COMP_LOGD("Before decoding event header field: cursor is passed the packet's content: "
                                "notit-addr=%p, content-size=%" PRId64 ", "
                                "cur=%zu", notit,
                                notit->cur_exp_packet_content_size,
                                packet_at(notit));
                        status = BT_MSG_ITER_STATUS_ERROR;
                        goto end;
                }
        } else {
                /*
                 * "Infinite" content: we're done when the medium has
                 * nothing else for us.
                 */
                status = buf_ensure_available_bits(notit);
                switch (status) {
                case BT_MSG_ITER_STATUS_OK:
                        break;
                case BT_MSG_ITER_STATUS_EOF:
                        status = BT_MSG_ITER_STATUS_OK;
                        notit->state = STATE_EMIT_MSG_PACKET_END_SINGLE;
                        goto end;
                default:
                        goto end;
                }
        }

        release_event_dscopes(notit);
        BT_ASSERT(notit->meta.sc);
        event_header_fc = notit->meta.sc->event_header_fc;
        if (!event_header_fc) {
                notit->state = STATE_AFTER_EVENT_HEADER;
                goto end;
        }

        BT_COMP_LOGD("Decoding event header field: "
                "notit-addr=%p, stream-class-addr=%p, "
                "stream-class-id=%" PRId64 ", "
                "fc-addr=%p",
                notit, notit->meta.sc,
                notit->meta.sc->id,
                event_header_fc);
        status = read_dscope_begin_state(notit, event_header_fc,
                STATE_AFTER_EVENT_HEADER,
                STATE_DSCOPE_EVENT_HEADER_CONTINUE, NULL);
        if (status < 0) {
                BT_COMP_LOGW("Cannot decode event header field: "
                        "notit-addr=%p, stream-class-addr=%p, "
                        "stream-class-id=%" PRId64 ", fc-addr=%p",
                        notit, notit->meta.sc,
                        notit->meta.sc->id,
                        event_header_fc);
        }

end:
        return status;
}

static
enum bt_msg_iter_status read_event_header_continue_state(
                struct bt_msg_iter *notit)
{
        return read_dscope_continue_state(notit,
                STATE_AFTER_EVENT_HEADER);
}

static inline
enum bt_msg_iter_status set_current_event_class(struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;

        struct ctf_event_class *new_event_class = NULL;

        if (notit->cur_event_class_id == -1) {
                /*
                 * No current event class ID field, therefore only one
                 * event class.
                 */
                if (notit->meta.sc->event_classes->len != 1) {
                        BT_COMP_LOGW("Need exactly one event class since there's "
                                "no event class ID field: "
                                "notit-addr=%p", notit);
                        status = BT_MSG_ITER_STATUS_ERROR;
                        goto end;
                }

                new_event_class = notit->meta.sc->event_classes->pdata[0];
                notit->cur_event_class_id = new_event_class->id;
        }

        new_event_class = ctf_stream_class_borrow_event_class_by_id(
                notit->meta.sc, notit->cur_event_class_id);
        if (!new_event_class) {
                BT_COMP_LOGW("No event class with ID of event class ID to use in stream class: "
                        "notit-addr=%p, stream-class-id=%" PRIu64 ", "
                        "event-class-id=%" PRIu64 ", "
                        "trace-class-addr=%p",
                        notit, notit->meta.sc->id, notit->cur_event_class_id,
                        notit->meta.tc);
                status = BT_MSG_ITER_STATUS_ERROR;
                goto end;
        }

        notit->meta.ec = new_event_class;
        BT_COMP_LOGD("Set current event class: "
                "notit-addr=%p, event-class-addr=%p, "
                "event-class-id=%" PRId64 ", "
                "event-class-name=\"%s\"",
                notit, notit->meta.ec, notit->meta.ec->id,
                notit->meta.ec->name->str);

end:
        return status;
}

static inline
enum bt_msg_iter_status set_current_event_message(
                struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        bt_message *msg = NULL;

        BT_ASSERT(notit->meta.ec);
        BT_ASSERT(notit->packet);
        BT_COMP_LOGD("Creating event message from event class and packet: "
                "notit-addr=%p, ec-addr=%p, ec-name=\"%s\", packet-addr=%p",
                notit, notit->meta.ec,
                notit->meta.ec->name->str,
                notit->packet);
        BT_ASSERT(notit->msg_iter);
        BT_ASSERT(notit->meta.sc);

        if (bt_stream_class_borrow_default_clock_class(notit->meta.sc->ir_sc)) {
                msg = bt_message_event_create_with_packet_and_default_clock_snapshot(
                        notit->msg_iter, notit->meta.ec->ir_ec,
                        notit->packet, notit->default_clock_snapshot);
        } else {
                msg = bt_message_event_create_with_packet(notit->msg_iter,
                        notit->meta.ec->ir_ec, notit->packet);
        }

        if (!msg) {
                BT_COMP_LOGE("Cannot create event message: "
                        "notit-addr=%p, ec-addr=%p, ec-name=\"%s\", "
                        "packet-addr=%p",
                        notit, notit->meta.ec,
                        notit->meta.ec->name->str,
                        notit->packet);
                goto error;
        }

        goto end;

error:
        BT_MESSAGE_PUT_REF_AND_RESET(msg);
        status = BT_MSG_ITER_STATUS_ERROR;

end:
        BT_MESSAGE_MOVE_REF(notit->event_msg, msg);
        return status;
}

static
enum bt_msg_iter_status after_event_header_state(
                struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status;

        status = set_current_event_class(notit);
        if (status != BT_MSG_ITER_STATUS_OK) {
                goto end;
        }

        if (G_UNLIKELY(notit->dry_run)) {
                goto next_state;
        }

        status = set_current_event_message(notit);
        if (status != BT_MSG_ITER_STATUS_OK) {
                goto end;
        }

        notit->event = bt_message_event_borrow_event(
                notit->event_msg);
        BT_ASSERT(notit->event);

next_state:
        notit->state = STATE_DSCOPE_EVENT_COMMON_CONTEXT_BEGIN;

end:
        return status;
}

static
enum bt_msg_iter_status read_event_common_context_begin_state(
                struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        struct ctf_field_class *event_common_context_fc;

        event_common_context_fc = notit->meta.sc->event_common_context_fc;
        if (!event_common_context_fc) {
                notit->state = STATE_DSCOPE_EVENT_SPEC_CONTEXT_BEGIN;
                goto end;
        }

        if (event_common_context_fc->in_ir && !notit->dry_run) {
                BT_ASSERT(!notit->dscopes.event_common_context);
                notit->dscopes.event_common_context =
                        bt_event_borrow_common_context_field(
                                notit->event);
                BT_ASSERT(notit->dscopes.event_common_context);
        }

        BT_COMP_LOGT("Decoding event common context field: "
                "notit-addr=%p, stream-class-addr=%p, "
                "stream-class-id=%" PRId64 ", "
                "fc-addr=%p",
                notit, notit->meta.sc,
                notit->meta.sc->id,
                event_common_context_fc);
        status = read_dscope_begin_state(notit, event_common_context_fc,
                STATE_DSCOPE_EVENT_SPEC_CONTEXT_BEGIN,
                STATE_DSCOPE_EVENT_COMMON_CONTEXT_CONTINUE,
                notit->dscopes.event_common_context);
        if (status < 0) {
                BT_COMP_LOGW("Cannot decode event common context field: "
                        "notit-addr=%p, stream-class-addr=%p, "
                        "stream-class-id=%" PRId64 ", fc-addr=%p",
                        notit, notit->meta.sc,
                        notit->meta.sc->id,
                        event_common_context_fc);
        }

end:
        return status;
}

static
enum bt_msg_iter_status read_event_common_context_continue_state(
                struct bt_msg_iter *notit)
{
        return read_dscope_continue_state(notit,
                STATE_DSCOPE_EVENT_SPEC_CONTEXT_BEGIN);
}

static
enum bt_msg_iter_status read_event_spec_context_begin_state(
                struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        struct ctf_field_class *event_spec_context_fc;

        event_spec_context_fc = notit->meta.ec->spec_context_fc;
        if (!event_spec_context_fc) {
                notit->state = STATE_DSCOPE_EVENT_PAYLOAD_BEGIN;
                goto end;
        }

        if (event_spec_context_fc->in_ir && !notit->dry_run) {
                BT_ASSERT(!notit->dscopes.event_spec_context);
                notit->dscopes.event_spec_context =
                        bt_event_borrow_specific_context_field(
                                notit->event);
                BT_ASSERT(notit->dscopes.event_spec_context);
        }

        BT_COMP_LOGT("Decoding event specific context field: "
                "notit-addr=%p, event-class-addr=%p, "
                "event-class-name=\"%s\", event-class-id=%" PRId64 ", "
                "fc-addr=%p",
                notit, notit->meta.ec,
                notit->meta.ec->name->str,
                notit->meta.ec->id,
                event_spec_context_fc);
        status = read_dscope_begin_state(notit, event_spec_context_fc,
                STATE_DSCOPE_EVENT_PAYLOAD_BEGIN,
                STATE_DSCOPE_EVENT_SPEC_CONTEXT_CONTINUE,
                notit->dscopes.event_spec_context);
        if (status < 0) {
                BT_COMP_LOGW("Cannot decode event specific context field: "
                        "notit-addr=%p, event-class-addr=%p, "
                        "event-class-name=\"%s\", "
                        "event-class-id=%" PRId64 ", fc-addr=%p",
                        notit, notit->meta.ec,
                        notit->meta.ec->name->str,
                        notit->meta.ec->id,
                        event_spec_context_fc);
        }

end:
        return status;
}

static
enum bt_msg_iter_status read_event_spec_context_continue_state(
                struct bt_msg_iter *notit)
{
        return read_dscope_continue_state(notit,
                STATE_DSCOPE_EVENT_PAYLOAD_BEGIN);
}

static
enum bt_msg_iter_status read_event_payload_begin_state(
                struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        struct ctf_field_class *event_payload_fc;

        event_payload_fc = notit->meta.ec->payload_fc;
        if (!event_payload_fc) {
                notit->state = STATE_EMIT_MSG_EVENT;
                goto end;
        }

        if (event_payload_fc->in_ir && !notit->dry_run) {
                BT_ASSERT(!notit->dscopes.event_payload);
                notit->dscopes.event_payload =
                        bt_event_borrow_payload_field(
                                notit->event);
                BT_ASSERT(notit->dscopes.event_payload);
        }

        BT_COMP_LOGT("Decoding event payload field: "
                "notit-addr=%p, event-class-addr=%p, "
                "event-class-name=\"%s\", event-class-id=%" PRId64 ", "
                "fc-addr=%p",
                notit, notit->meta.ec,
                notit->meta.ec->name->str,
                notit->meta.ec->id,
                event_payload_fc);
        status = read_dscope_begin_state(notit, event_payload_fc,
                STATE_EMIT_MSG_EVENT,
                STATE_DSCOPE_EVENT_PAYLOAD_CONTINUE,
                notit->dscopes.event_payload);
        if (status < 0) {
                BT_COMP_LOGW("Cannot decode event payload field: "
                        "notit-addr=%p, event-class-addr=%p, "
                        "event-class-name=\"%s\", "
                        "event-class-id=%" PRId64 ", fc-addr=%p",
                        notit, notit->meta.ec,
                        notit->meta.ec->name->str,
                        notit->meta.ec->id,
                        event_payload_fc);
        }

end:
        return status;
}

static
enum bt_msg_iter_status read_event_payload_continue_state(
                struct bt_msg_iter *notit)
{
        return read_dscope_continue_state(notit, STATE_EMIT_MSG_EVENT);
}

static
enum bt_msg_iter_status skip_packet_padding_state(struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        size_t bits_to_skip;
        const enum state next_state = STATE_SWITCH_PACKET;

        BT_ASSERT(notit->cur_exp_packet_total_size > 0);
        bits_to_skip = notit->cur_exp_packet_total_size - packet_at(notit);
        if (bits_to_skip == 0) {
                notit->state = next_state;
                goto end;
        } else {
                size_t bits_to_consume;

                BT_COMP_LOGD("Trying to skip %zu bits of padding: notit-addr=%p, size=%zu",
                        bits_to_skip, notit, bits_to_skip);
                status = buf_ensure_available_bits(notit);
                if (status != BT_MSG_ITER_STATUS_OK) {
                        goto end;
                }

                bits_to_consume = MIN(buf_available_bits(notit), bits_to_skip);
                BT_COMP_LOGD("Skipping %zu bits of padding: notit-addr=%p, size=%zu",
                        bits_to_consume, notit, bits_to_consume);
                buf_consume_bits(notit, bits_to_consume);
                bits_to_skip = notit->cur_exp_packet_total_size -
                        packet_at(notit);
                if (bits_to_skip == 0) {
                        notit->state = next_state;
                        goto end;
                }
        }

end:
        return status;
}

static
enum bt_msg_iter_status check_emit_msg_stream_beginning_state(
                struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;

        if (notit->set_stream) {
                status = set_current_stream(notit);
                if (status != BT_MSG_ITER_STATUS_OK) {
                        goto end;
                }
        }

        if (notit->emit_stream_begin_msg) {
                notit->state = STATE_EMIT_MSG_STREAM_BEGINNING;
        } else {
                /* Stream's first packet */
                notit->state = STATE_CHECK_EMIT_MSG_DISCARDED_EVENTS;
        }

end:
        return status;
}

static
enum bt_msg_iter_status check_emit_msg_discarded_events(
                struct bt_msg_iter *notit)
{
        notit->state = STATE_EMIT_MSG_DISCARDED_EVENTS;

        if (!notit->meta.sc->has_discarded_events) {
                notit->state = STATE_CHECK_EMIT_MSG_DISCARDED_PACKETS;
                goto end;
        }

        if (notit->prev_packet_snapshots.discarded_events == UINT64_C(-1)) {
                if (notit->snapshots.discarded_events == 0 ||
                                notit->snapshots.discarded_events == UINT64_C(-1)) {
                        /*
                         * Stream's first packet with no discarded
                         * events or no information about discarded
                         * events: do not emit.
                         */
                        notit->state = STATE_CHECK_EMIT_MSG_DISCARDED_PACKETS;
                }
        } else {
                /*
                 * If the previous packet has a value for this counter,
                 * then this counter is defined for the whole stream.
                 */
                BT_ASSERT(notit->snapshots.discarded_events != UINT64_C(-1));

                if (notit->snapshots.discarded_events -
                                notit->prev_packet_snapshots.discarded_events == 0) {
                        /*
                         * No discarded events since previous packet: do
                         * not emit.
                         */
                        notit->state = STATE_CHECK_EMIT_MSG_DISCARDED_PACKETS;
                }
        }

end:
        return BT_MSG_ITER_STATUS_OK;
}

static
enum bt_msg_iter_status check_emit_msg_discarded_packets(
                struct bt_msg_iter *notit)
{
        notit->state = STATE_EMIT_MSG_DISCARDED_PACKETS;

        if (!notit->meta.sc->has_discarded_packets) {
                notit->state = STATE_EMIT_MSG_PACKET_BEGINNING;
                goto end;
        }

        if (notit->prev_packet_snapshots.packets == UINT64_C(-1)) {
                /*
                 * Stream's first packet or no information about
                 * discarded packets: do not emit. In other words, if
                 * this is the first packet and its sequence number is
                 * not 0, do not consider that packets were previously
                 * lost: we might be reading a partial stream (LTTng
                 * snapshot for example).
                 */
                notit->state = STATE_EMIT_MSG_PACKET_BEGINNING;
        } else {
                /*
                 * If the previous packet has a value for this counter,
                 * then this counter is defined for the whole stream.
                 */
                BT_ASSERT(notit->snapshots.packets != UINT64_C(-1));

                if (notit->snapshots.packets -
                                notit->prev_packet_snapshots.packets <= 1) {
                        /*
                         * No discarded packets since previous packet:
                         * do not emit.
                         */
                        notit->state = STATE_EMIT_MSG_PACKET_BEGINNING;
                }
        }

end:
        return BT_MSG_ITER_STATUS_OK;
}

static
enum bt_msg_iter_status check_emit_msg_stream_end(
                struct bt_msg_iter *notit)
{
        if (notit->emit_stream_end_msg) {
                notit->state = STATE_EMIT_MSG_STREAM_END;
        } else {
                notit->state = STATE_DONE;
        }

        return BT_MSG_ITER_STATUS_OK;
}

static inline
enum bt_msg_iter_status handle_state(struct bt_msg_iter *notit)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;
        const enum state state = notit->state;

        BT_COMP_LOGT("Handling state: notit-addr=%p, state=%s",
                notit, state_string(state));

        // TODO: optimalize!
        switch (state) {
        case STATE_INIT:
                notit->state = STATE_SWITCH_PACKET;
                break;
        case STATE_SWITCH_PACKET:
                status = switch_packet_state(notit);
                break;
        case STATE_DSCOPE_TRACE_PACKET_HEADER_BEGIN:
                status = read_packet_header_begin_state(notit);
                break;
        case STATE_DSCOPE_TRACE_PACKET_HEADER_CONTINUE:
                status = read_packet_header_continue_state(notit);
                break;
        case STATE_AFTER_TRACE_PACKET_HEADER:
                status = after_packet_header_state(notit);
                break;
        case STATE_DSCOPE_STREAM_PACKET_CONTEXT_BEGIN:
                status = read_packet_context_begin_state(notit);
                break;
        case STATE_DSCOPE_STREAM_PACKET_CONTEXT_CONTINUE:
                status = read_packet_context_continue_state(notit);
                break;
        case STATE_AFTER_STREAM_PACKET_CONTEXT:
                status = after_packet_context_state(notit);
                break;
        case STATE_CHECK_EMIT_MSG_STREAM_BEGINNING:
                status = check_emit_msg_stream_beginning_state(notit);
                break;
        case STATE_EMIT_MSG_STREAM_BEGINNING:
                notit->state = STATE_CHECK_EMIT_MSG_DISCARDED_EVENTS;
                break;
        case STATE_CHECK_EMIT_MSG_DISCARDED_EVENTS:
                status = check_emit_msg_discarded_events(notit);
                break;
        case STATE_EMIT_MSG_DISCARDED_EVENTS:
                notit->state = STATE_CHECK_EMIT_MSG_DISCARDED_PACKETS;
                break;
        case STATE_CHECK_EMIT_MSG_DISCARDED_PACKETS:
                status = check_emit_msg_discarded_packets(notit);
                break;
        case STATE_EMIT_MSG_DISCARDED_PACKETS:
                notit->state = STATE_EMIT_MSG_PACKET_BEGINNING;
                break;
        case STATE_EMIT_MSG_PACKET_BEGINNING:
                notit->state = STATE_DSCOPE_EVENT_HEADER_BEGIN;
                break;
        case STATE_DSCOPE_EVENT_HEADER_BEGIN:
                status = read_event_header_begin_state(notit);
                break;
        case STATE_DSCOPE_EVENT_HEADER_CONTINUE:
                status = read_event_header_continue_state(notit);
                break;
        case STATE_AFTER_EVENT_HEADER:
                status = after_event_header_state(notit);
                break;
        case STATE_DSCOPE_EVENT_COMMON_CONTEXT_BEGIN:
                status = read_event_common_context_begin_state(notit);
                break;
        case STATE_DSCOPE_EVENT_COMMON_CONTEXT_CONTINUE:
                status = read_event_common_context_continue_state(notit);
                break;
        case STATE_DSCOPE_EVENT_SPEC_CONTEXT_BEGIN:
                status = read_event_spec_context_begin_state(notit);
                break;
        case STATE_DSCOPE_EVENT_SPEC_CONTEXT_CONTINUE:
                status = read_event_spec_context_continue_state(notit);
                break;
        case STATE_DSCOPE_EVENT_PAYLOAD_BEGIN:
                status = read_event_payload_begin_state(notit);
                break;
        case STATE_DSCOPE_EVENT_PAYLOAD_CONTINUE:
                status = read_event_payload_continue_state(notit);
                break;
        case STATE_EMIT_MSG_EVENT:
                notit->state = STATE_DSCOPE_EVENT_HEADER_BEGIN;
                break;
        case STATE_EMIT_QUEUED_MSG_EVENT:
                notit->state = STATE_EMIT_MSG_EVENT;
                break;
        case STATE_SKIP_PACKET_PADDING:
                status = skip_packet_padding_state(notit);
                break;
        case STATE_EMIT_MSG_PACKET_END_MULTI:
                notit->state = STATE_SKIP_PACKET_PADDING;
                break;
        case STATE_EMIT_MSG_PACKET_END_SINGLE:
                notit->state = STATE_CHECK_EMIT_MSG_STREAM_END;
                break;
        case STATE_CHECK_EMIT_MSG_STREAM_END:
                status = check_emit_msg_stream_end(notit);
                break;
        case STATE_EMIT_QUEUED_MSG_PACKET_END:
                notit->state = STATE_EMIT_MSG_PACKET_END_SINGLE;
                break;
        case STATE_EMIT_MSG_STREAM_END:
                notit->state = STATE_DONE;
                break;
        case STATE_DONE:
                break;
        default:
                BT_COMP_LOGF("Unknown CTF plugin message iterator state: "
                        "notit-addr=%p, state=%d", notit, notit->state);
                abort();
        }

        BT_COMP_LOGT("Handled state: notit-addr=%p, status=%s, "
                "prev-state=%s, cur-state=%s",
                notit, bt_msg_iter_status_string(status),
                state_string(state), state_string(notit->state));
        return status;
}

BT_HIDDEN
void bt_msg_iter_reset_for_next_stream_file(struct bt_msg_iter *notit)
{
        BT_ASSERT(notit);
        BT_COMP_LOGD("Resetting message iterator: addr=%p", notit);
        stack_clear(notit->stack);
        notit->meta.sc = NULL;
        notit->meta.ec = NULL;
        BT_PACKET_PUT_REF_AND_RESET(notit->packet);
        BT_STREAM_PUT_REF_AND_RESET(notit->stream);
        BT_MESSAGE_PUT_REF_AND_RESET(notit->event_msg);
        release_all_dscopes(notit);
        notit->cur_dscope_field = NULL;

        if (notit->packet_context_field) {
                bt_packet_context_field_release(notit->packet_context_field);
                notit->packet_context_field = NULL;
        }

        notit->buf.addr = NULL;
        notit->buf.sz = 0;
        notit->buf.at = 0;
        notit->buf.last_eh_at = SIZE_MAX;
        notit->buf.packet_offset = 0;
        notit->state = STATE_INIT;
        notit->cur_exp_packet_content_size = -1;
        notit->cur_exp_packet_total_size = -1;
        notit->cur_packet_offset = -1;
        notit->cur_event_class_id = -1;
        notit->snapshots.beginning_clock = UINT64_C(-1);
        notit->snapshots.end_clock = UINT64_C(-1);
}

/**
 * Resets the internal state of a CTF message iterator.
 */
BT_HIDDEN
void bt_msg_iter_reset(struct bt_msg_iter *notit)
{
        bt_msg_iter_reset_for_next_stream_file(notit);
        notit->cur_stream_class_id = -1;
        notit->cur_data_stream_id = -1;
        notit->snapshots.discarded_events = UINT64_C(-1);
        notit->snapshots.packets = UINT64_C(-1);
        notit->prev_packet_snapshots.discarded_events = UINT64_C(-1);
        notit->prev_packet_snapshots.packets = UINT64_C(-1);
        notit->prev_packet_snapshots.beginning_clock = UINT64_C(-1);
        notit->prev_packet_snapshots.end_clock = UINT64_C(-1);
}

static
bt_field *borrow_next_field(struct bt_msg_iter *notit)
{
        bt_field *next_field = NULL;
        bt_field *base_field;
        const bt_field_class *base_fc;
        size_t index;

        BT_ASSERT(!stack_empty(notit->stack));
        index = stack_top(notit->stack)->index;
        base_field = stack_top(notit->stack)->base;
        BT_ASSERT(base_field);
        base_fc = bt_field_borrow_class_const(base_field);
        BT_ASSERT(base_fc);

        switch (bt_field_class_get_type(base_fc)) {
        case BT_FIELD_CLASS_TYPE_STRUCTURE:
        {
                BT_ASSERT(index <
                        bt_field_class_structure_get_member_count(
                                bt_field_borrow_class_const(
                                                base_field)));
                next_field =
                        bt_field_structure_borrow_member_field_by_index(
                                base_field, index);
                break;
        }
        case BT_FIELD_CLASS_TYPE_STATIC_ARRAY:
        case BT_FIELD_CLASS_TYPE_DYNAMIC_ARRAY_WITHOUT_LENGTH_FIELD:
        case BT_FIELD_CLASS_TYPE_DYNAMIC_ARRAY_WITH_LENGTH_FIELD:
                BT_ASSERT(index < bt_field_array_get_length(base_field));
                next_field = bt_field_array_borrow_element_field_by_index(
                        base_field, index);
                break;
        case BT_FIELD_CLASS_TYPE_VARIANT_WITHOUT_SELECTOR_FIELD:
        case BT_FIELD_CLASS_TYPE_VARIANT_WITH_UNSIGNED_INTEGER_SELECTOR_FIELD:
        case BT_FIELD_CLASS_TYPE_VARIANT_WITH_SIGNED_INTEGER_SELECTOR_FIELD:
                BT_ASSERT(index == 0);
                next_field = bt_field_variant_borrow_selected_option_field(
                        base_field);
                break;
        default:
                abort();
        }

        BT_ASSERT(next_field);
        return next_field;
}

static
void update_default_clock(struct bt_msg_iter *notit, uint64_t new_val,
                uint64_t new_val_size)
{
        uint64_t new_val_mask;
        uint64_t cur_value_masked;

        BT_ASSERT(new_val_size > 0);

        /*
         * Special case for a 64-bit new value, which is the limit
         * of a clock value as of this version: overwrite the
         * current value directly.
         */
        if (new_val_size == 64) {
                notit->default_clock_snapshot = new_val;
                goto end;
        }

        new_val_mask = (1ULL << new_val_size) - 1;
        cur_value_masked = notit->default_clock_snapshot & new_val_mask;

        if (new_val < cur_value_masked) {
                /*
                 * It looks like a wrap happened on the number of bits
                 * of the requested new value. Assume that the clock
                 * value wrapped only one time.
                 */
                notit->default_clock_snapshot += new_val_mask + 1;
        }

        /* Clear the low bits of the current clock value. */
        notit->default_clock_snapshot &= ~new_val_mask;

        /* Set the low bits of the current clock value. */
        notit->default_clock_snapshot |= new_val;

end:
        BT_COMP_LOGT("Updated default clock's value from integer field's value: "
                "value=%" PRIu64, notit->default_clock_snapshot);
}

static
enum bt_bfcr_status bfcr_unsigned_int_cb(uint64_t value,
                struct ctf_field_class *fc, void *data)
{
        struct bt_msg_iter *notit = data;
        enum bt_bfcr_status status = BT_BFCR_STATUS_OK;
        bt_field *field = NULL;
        struct ctf_field_class_int *int_fc = (void *) fc;

        BT_COMP_LOGT("Unsigned integer function called from BFCR: "
                "notit-addr=%p, bfcr-addr=%p, fc-addr=%p, "
                "fc-type=%d, fc-in-ir=%d, value=%" PRIu64,
                notit, notit->bfcr, fc, fc->type, fc->in_ir, value);

        if (G_LIKELY(int_fc->meaning == CTF_FIELD_CLASS_MEANING_NONE)) {
                goto update_def_clock;
        }

        switch (int_fc->meaning) {
        case CTF_FIELD_CLASS_MEANING_EVENT_CLASS_ID:
                notit->cur_event_class_id = value;
                break;
        case CTF_FIELD_CLASS_MEANING_DATA_STREAM_ID:
                notit->cur_data_stream_id = value;
                break;
        case CTF_FIELD_CLASS_MEANING_PACKET_BEGINNING_TIME:
                notit->snapshots.beginning_clock = value;
                break;
        case CTF_FIELD_CLASS_MEANING_PACKET_END_TIME:
                notit->snapshots.end_clock = value;
                break;
        case CTF_FIELD_CLASS_MEANING_STREAM_CLASS_ID:
                notit->cur_stream_class_id = value;
                break;
        case CTF_FIELD_CLASS_MEANING_MAGIC:
                if (value != 0xc1fc1fc1) {
                        BT_COMP_LOGW("Invalid CTF magic number: notit-addr=%p, "
                                "magic=%" PRIx64, notit, value);
                        status = BT_BFCR_STATUS_ERROR;
                        goto end;
                }

                break;
        case CTF_FIELD_CLASS_MEANING_PACKET_COUNTER_SNAPSHOT:
                notit->snapshots.packets = value;
                break;
        case CTF_FIELD_CLASS_MEANING_DISC_EV_REC_COUNTER_SNAPSHOT:
                notit->snapshots.discarded_events = value;
                break;
        case CTF_FIELD_CLASS_MEANING_EXP_PACKET_TOTAL_SIZE:
                notit->cur_exp_packet_total_size = value;
                break;
        case CTF_FIELD_CLASS_MEANING_EXP_PACKET_CONTENT_SIZE:
                notit->cur_exp_packet_content_size = value;
                break;
        default:
                abort();
        }

update_def_clock:
        if (G_UNLIKELY(int_fc->mapped_clock_class)) {
                update_default_clock(notit, value, int_fc->base.size);
        }

        if (G_UNLIKELY(int_fc->storing_index >= 0)) {
                g_array_index(notit->stored_values, uint64_t,
                        (uint64_t) int_fc->storing_index) = value;
        }

        if (G_UNLIKELY(!fc->in_ir || notit->dry_run)) {
                goto end;
        }

        field = borrow_next_field(notit);
        BT_ASSERT(field);
        BT_ASSERT(bt_field_borrow_class_const(field) == fc->ir_fc);
        BT_ASSERT(bt_field_get_class_type(field) ==
                  BT_FIELD_CLASS_TYPE_UNSIGNED_INTEGER ||
                  bt_field_get_class_type(field) ==
                  BT_FIELD_CLASS_TYPE_UNSIGNED_ENUMERATION);
        bt_field_integer_unsigned_set_value(field, value);
        stack_top(notit->stack)->index++;

end:
        return status;
}

static
enum bt_bfcr_status bfcr_unsigned_int_char_cb(uint64_t value,
                struct ctf_field_class *fc, void *data)
{
        int ret;
        struct bt_msg_iter *notit = data;
        enum bt_bfcr_status status = BT_BFCR_STATUS_OK;
        bt_field *string_field = NULL;
        struct ctf_field_class_int *int_fc = (void *) fc;
        char str[2] = {'\0', '\0'};

        BT_COMP_LOGT("Unsigned integer character function called from BFCR: "
                "notit-addr=%p, bfcr-addr=%p, fc-addr=%p, "
                "fc-type=%d, fc-in-ir=%d, value=%" PRIu64,
                notit, notit->bfcr, fc, fc->type, fc->in_ir, value);
        BT_ASSERT(int_fc->meaning == CTF_FIELD_CLASS_MEANING_NONE);
        BT_ASSERT(!int_fc->mapped_clock_class);
        BT_ASSERT(int_fc->storing_index < 0);

        if (G_UNLIKELY(!fc->in_ir || notit->dry_run)) {
                goto end;
        }

        if (notit->done_filling_string) {
                goto end;
        }

        if (value == 0) {
                notit->done_filling_string = true;
                goto end;
        }

        string_field = stack_top(notit->stack)->base;
        BT_ASSERT(bt_field_get_class_type(string_field) ==
                  BT_FIELD_CLASS_TYPE_STRING);

        /* Append character */
        str[0] = (char) value;
        ret = bt_field_string_append_with_length(string_field, str, 1);
        if (ret) {
                BT_COMP_LOGE("Cannot append character to string field's value: "
                        "notit-addr=%p, field-addr=%p, ret=%d",
                        notit, string_field, ret);
                status = BT_BFCR_STATUS_ERROR;
                goto end;
        }

end:
        return status;
}

static
enum bt_bfcr_status bfcr_signed_int_cb(int64_t value,
                struct ctf_field_class *fc, void *data)
{
        enum bt_bfcr_status status = BT_BFCR_STATUS_OK;
        bt_field *field = NULL;
        struct bt_msg_iter *notit = data;
        struct ctf_field_class_int *int_fc = (void *) fc;

        BT_COMP_LOGT("Signed integer function called from BFCR: "
                "notit-addr=%p, bfcr-addr=%p, fc-addr=%p, "
                "fc-type=%d, fc-in-ir=%d, value=%" PRId64,
                notit, notit->bfcr, fc, fc->type, fc->in_ir, value);
        BT_ASSERT(int_fc->meaning == CTF_FIELD_CLASS_MEANING_NONE);

        if (G_UNLIKELY(int_fc->storing_index >= 0)) {
                g_array_index(notit->stored_values, uint64_t,
                        (uint64_t) int_fc->storing_index) = (uint64_t) value;
        }

        if (G_UNLIKELY(!fc->in_ir || notit->dry_run)) {
                goto end;
        }

        field = borrow_next_field(notit);
        BT_ASSERT(field);
        BT_ASSERT(bt_field_borrow_class_const(field) == fc->ir_fc);
        BT_ASSERT(bt_field_get_class_type(field) ==
                  BT_FIELD_CLASS_TYPE_SIGNED_INTEGER ||
                  bt_field_get_class_type(field) ==
                  BT_FIELD_CLASS_TYPE_SIGNED_ENUMERATION);
        bt_field_integer_signed_set_value(field, value);
        stack_top(notit->stack)->index++;

end:
        return status;
}

static
enum bt_bfcr_status bfcr_floating_point_cb(double value,
                struct ctf_field_class *fc, void *data)
{
        enum bt_bfcr_status status = BT_BFCR_STATUS_OK;
        bt_field *field = NULL;
        struct bt_msg_iter *notit = data;

        BT_COMP_LOGT("Floating point number function called from BFCR: "
                "notit-addr=%p, bfcr-addr=%p, fc-addr=%p, "
                "fc-type=%d, fc-in-ir=%d, value=%f",
                notit, notit->bfcr, fc, fc->type, fc->in_ir, value);

        if (G_UNLIKELY(!fc->in_ir || notit->dry_run)) {
                goto end;
        }

        field = borrow_next_field(notit);
        bt_field_class_type type = bt_field_get_class_type(field);
        BT_ASSERT(field);
        BT_ASSERT(bt_field_borrow_class_const(field) == fc->ir_fc);
        BT_ASSERT(type == BT_FIELD_CLASS_TYPE_DOUBLE_PRECISION_REAL ||
                  type == BT_FIELD_CLASS_TYPE_SINGLE_PRECISION_REAL);

        if (type == BT_FIELD_CLASS_TYPE_SINGLE_PRECISION_REAL) {
                bt_field_real_single_precision_set_value(field, (float) value);
        } else {
                bt_field_real_double_precision_set_value(field, value);
        }
        stack_top(notit->stack)->index++;

end:
        return status;
}

static
enum bt_bfcr_status bfcr_string_begin_cb(
                struct ctf_field_class *fc, void *data)
{
        bt_field *field = NULL;
        struct bt_msg_iter *notit = data;

        BT_COMP_LOGT("String (beginning) function called from BFCR: "
                "notit-addr=%p, bfcr-addr=%p, fc-addr=%p, "
                "fc-type=%d, fc-in-ir=%d",
                notit, notit->bfcr, fc, fc->type, fc->in_ir);

        if (G_UNLIKELY(!fc->in_ir || notit->dry_run)) {
                goto end;
        }

        field = borrow_next_field(notit);
        BT_ASSERT(field);
        BT_ASSERT(bt_field_borrow_class_const(field) == fc->ir_fc);
        BT_ASSERT(bt_field_get_class_type(field) ==
                  BT_FIELD_CLASS_TYPE_STRING);
        bt_field_string_clear(field);

        /*
         * Push on stack. Not a compound class per se, but we know that
         * only bfcr_string_cb() may be called between this call and a
         * subsequent call to bfcr_string_end_cb().
         */
        stack_push(notit->stack, field);

end:
        return BT_BFCR_STATUS_OK;
}

static
enum bt_bfcr_status bfcr_string_cb(const char *value,
                size_t len, struct ctf_field_class *fc, void *data)
{
        enum bt_bfcr_status status = BT_BFCR_STATUS_OK;
        bt_field *field = NULL;
        struct bt_msg_iter *notit = data;
        int ret;

        BT_COMP_LOGT("String (substring) function called from BFCR: "
                "notit-addr=%p, bfcr-addr=%p, fc-addr=%p, "
                "fc-type=%d, fc-in-ir=%d, string-length=%zu",
                notit, notit->bfcr, fc, fc->type, fc->in_ir,
                len);

        if (G_UNLIKELY(!fc->in_ir || notit->dry_run)) {
                goto end;
        }

        field = stack_top(notit->stack)->base;
        BT_ASSERT(field);

        /* Append current substring */
        ret = bt_field_string_append_with_length(field, value, len);
        if (ret) {
                BT_COMP_LOGE("Cannot append substring to string field's value: "
                        "notit-addr=%p, field-addr=%p, string-length=%zu, "
                        "ret=%d", notit, field, len, ret);
                status = BT_BFCR_STATUS_ERROR;
                goto end;
        }

end:
        return status;
}

static
enum bt_bfcr_status bfcr_string_end_cb(
                struct ctf_field_class *fc, void *data)
{
        struct bt_msg_iter *notit = data;

        BT_COMP_LOGT("String (end) function called from BFCR: "
                "notit-addr=%p, bfcr-addr=%p, fc-addr=%p, "
                "fc-type=%d, fc-in-ir=%d",
                notit, notit->bfcr, fc, fc->type, fc->in_ir);

        if (G_UNLIKELY(!fc->in_ir || notit->dry_run)) {
                goto end;
        }

        /* Pop string field */
        stack_pop(notit->stack);

        /* Go to next field */
        stack_top(notit->stack)->index++;

end:
        return BT_BFCR_STATUS_OK;
}

enum bt_bfcr_status bfcr_compound_begin_cb(
                struct ctf_field_class *fc, void *data)
{
        struct bt_msg_iter *notit = data;
        bt_field *field;

        BT_COMP_LOGT("Compound (beginning) function called from BFCR: "
                "notit-addr=%p, bfcr-addr=%p, fc-addr=%p, "
                "fc-type=%d, fc-in-ir=%d",
                notit, notit->bfcr, fc, fc->type, fc->in_ir);

        if (G_UNLIKELY(!fc->in_ir || notit->dry_run)) {
                goto end;
        }

        /* Borrow field */
        if (stack_empty(notit->stack)) {
                /* Root: already set by read_dscope_begin_state() */
                field = notit->cur_dscope_field;
        } else {
                field = borrow_next_field(notit);
                BT_ASSERT(field);
        }

        /* Push field */
        BT_ASSERT(field);
        BT_ASSERT(bt_field_borrow_class_const(field) == fc->ir_fc);
        stack_push(notit->stack, field);

        /*
         * Change BFCR "unsigned int" callback if it's a text
         * array/sequence.
         */
        if (fc->type == CTF_FIELD_CLASS_TYPE_ARRAY ||
                        fc->type == CTF_FIELD_CLASS_TYPE_SEQUENCE) {
                struct ctf_field_class_array_base *array_fc = (void *) fc;

                if (array_fc->is_text) {
                        BT_ASSERT(bt_field_get_class_type(field) ==
                                  BT_FIELD_CLASS_TYPE_STRING);
                        notit->done_filling_string = false;
                        bt_field_string_clear(field);
                        bt_bfcr_set_unsigned_int_cb(notit->bfcr,
                                bfcr_unsigned_int_char_cb);
                }
        }

end:
        return BT_BFCR_STATUS_OK;
}

enum bt_bfcr_status bfcr_compound_end_cb(
                struct ctf_field_class *fc, void *data)
{
        struct bt_msg_iter *notit = data;

        BT_COMP_LOGT("Compound (end) function called from BFCR: "
                "notit-addr=%p, bfcr-addr=%p, fc-addr=%p, "
                "fc-type=%d, fc-in-ir=%d",
                notit, notit->bfcr, fc, fc->type, fc->in_ir);

        if (G_UNLIKELY(!fc->in_ir || notit->dry_run)) {
                goto end;
        }

        BT_ASSERT(!stack_empty(notit->stack));
        BT_ASSERT(bt_field_borrow_class_const(stack_top(notit->stack)->base) ==
                fc->ir_fc);

        /*
         * Reset BFCR "unsigned int" callback if it's a text
         * array/sequence.
         */
        if (fc->type == CTF_FIELD_CLASS_TYPE_ARRAY ||
                        fc->type == CTF_FIELD_CLASS_TYPE_SEQUENCE) {
                struct ctf_field_class_array_base *array_fc = (void *) fc;

                if (array_fc->is_text) {
                        BT_ASSERT(bt_field_get_class_type(
                                stack_top(notit->stack)->base) ==
                                BT_FIELD_CLASS_TYPE_STRING);
                        bt_bfcr_set_unsigned_int_cb(notit->bfcr,
                                bfcr_unsigned_int_cb);
                }
        }

        /* Pop stack */
        stack_pop(notit->stack);

        /* If the stack is not empty, increment the base's index */
        if (!stack_empty(notit->stack)) {
                stack_top(notit->stack)->index++;
        }

end:
        return BT_BFCR_STATUS_OK;
}

static
int64_t bfcr_get_sequence_length_cb(struct ctf_field_class *fc, void *data)
{
        bt_field *seq_field;
        struct bt_msg_iter *notit = data;
        struct ctf_field_class_sequence *seq_fc = (void *) fc;
        int64_t length = -1;
        int ret;

        length = (uint64_t) g_array_index(notit->stored_values, uint64_t,
                seq_fc->stored_length_index);

        if (G_UNLIKELY(notit->dry_run)){
                goto end;
        }

        seq_field = stack_top(notit->stack)->base;
        BT_ASSERT(seq_field);

        /*
         * bfcr_get_sequence_length_cb() also gets called back for a
         * text sequence, but the destination field is a string field.
         * Only set the field's sequence length if the destination field
         * is a sequence field.
         */
        if (!seq_fc->base.is_text) {
                BT_ASSERT(bt_field_get_class_type(seq_field) ==
                        BT_FIELD_CLASS_TYPE_DYNAMIC_ARRAY_WITHOUT_LENGTH_FIELD ||
                        bt_field_get_class_type(seq_field) ==
                        BT_FIELD_CLASS_TYPE_DYNAMIC_ARRAY_WITH_LENGTH_FIELD);
                ret = bt_field_array_dynamic_set_length(seq_field,
                        (uint64_t) length);
                if (ret) {
                        BT_COMP_LOGE("Cannot set dynamic array field's length field: "
                                "notit-addr=%p, field-addr=%p, "
                                "length=%" PRIu64, notit, seq_field, length);
                }
        }

end:
        return length;
}

static
struct ctf_field_class *bfcr_borrow_variant_selected_field_class_cb(
                struct ctf_field_class *fc, void *data)
{
        int ret;
        uint64_t i;
        int64_t option_index = -1;
        struct bt_msg_iter *notit = data;
        struct ctf_field_class_variant *var_fc = (void *) fc;
        struct ctf_named_field_class *selected_option = NULL;
        struct ctf_field_class *ret_fc = NULL;
        union {
                uint64_t u;
                int64_t i;
        } tag;

        /* Get variant's tag */
        tag.u = g_array_index(notit->stored_values, uint64_t,
                var_fc->stored_tag_index);

        /*
         * Check each range to find the selected option's index.
         */
        if (var_fc->tag_fc->base.is_signed) {
                for (i = 0; i < var_fc->ranges->len; i++) {
                        struct ctf_field_class_variant_range *range =
                                ctf_field_class_variant_borrow_range_by_index(
                                        var_fc, i);

                        if (tag.i >= range->range.lower.i &&
                                        tag.i <= range->range.upper.i) {
                                option_index = (int64_t) range->option_index;
                                break;
                        }
                }
        } else {
                for (i = 0; i < var_fc->ranges->len; i++) {
                        struct ctf_field_class_variant_range *range =
                                ctf_field_class_variant_borrow_range_by_index(
                                        var_fc, i);

                        if (tag.u >= range->range.lower.u &&
                                        tag.u <= range->range.upper.u) {
                                option_index = (int64_t) range->option_index;
                                break;
                        }
                }
        }

        if (option_index < 0) {
                BT_COMP_LOGW("Cannot find variant field class's option: "
                        "notit-addr=%p, var-fc-addr=%p, u-tag=%" PRIu64 ", "
                        "i-tag=%" PRId64, notit, var_fc, tag.u, tag.i);
                goto end;
        }

        selected_option = ctf_field_class_variant_borrow_option_by_index(
                var_fc, (uint64_t) option_index);

        if (selected_option->fc->in_ir && !notit->dry_run) {
                bt_field *var_field = stack_top(notit->stack)->base;

                ret = bt_field_variant_select_option_field_by_index(
                        var_field, option_index);
                if (ret) {
                        BT_COMP_LOGW("Cannot select variant field's option field: "
                                "notit-addr=%p, var-field-addr=%p, "
                                "opt-index=%" PRId64, notit, var_field,
                                option_index);
                        goto end;
                }
        }

        ret_fc = selected_option->fc;

end:
        return ret_fc;
}

static
void create_msg_stream_beginning(struct bt_msg_iter *notit,
                bt_message **message)
{
        bt_message *ret = NULL;

        BT_ASSERT(notit->stream);
        BT_ASSERT(notit->msg_iter);
        ret = bt_message_stream_beginning_create(notit->msg_iter,
                notit->stream);
        if (!ret) {
                BT_COMP_LOGE("Cannot create stream beginning message: "
                        "notit-addr=%p, stream-addr=%p",
                        notit, notit->stream);
                return;
        }

        *message = ret;
}

static
void create_msg_stream_end(struct bt_msg_iter *notit, bt_message **message)
{
        bt_message *ret;

        if (!notit->stream) {
                BT_COMP_LOGE("Cannot create stream for stream message: "
                        "notit-addr=%p", notit);
                return;
        }

        BT_ASSERT(notit->msg_iter);
        ret = bt_message_stream_end_create(notit->msg_iter,
                notit->stream);
        if (!ret) {
                BT_COMP_LOGE("Cannot create stream end message: "
                        "notit-addr=%p, stream-addr=%p",
                        notit, notit->stream);
                return;
        }

        *message = ret;
}

static
void create_msg_packet_beginning(struct bt_msg_iter *notit,
                bt_message **message, bool use_default_cs)
{
        int ret;
        bt_message *msg = NULL;
        const bt_stream_class *sc = notit->meta.sc->ir_sc;

        BT_ASSERT(notit->packet);
        BT_ASSERT(sc);

        if (notit->packet_context_field) {
                ret = bt_packet_move_context_field(
                        notit->packet, notit->packet_context_field);
                if (ret) {
                        goto end;
                }

                notit->packet_context_field = NULL;

                /*
                 * At this point notit->dscopes.stream_packet_context
                 * has the same value as the packet context field within
                 * notit->packet.
                 */
                BT_ASSERT(bt_packet_borrow_context_field(
                        notit->packet) ==
                        notit->dscopes.stream_packet_context);
        }

        BT_ASSERT(notit->msg_iter);

        if (notit->meta.sc->packets_have_ts_begin) {
                BT_ASSERT(notit->snapshots.beginning_clock != UINT64_C(-1));
                uint64_t raw_cs_value;

                /*
                 * Either use the decoded packet `timestamp_begin` field or the
                 * current stream's default clock_snapshot.
                 */
                if (use_default_cs) {
                        raw_cs_value = notit->default_clock_snapshot;
                } else {
                        raw_cs_value = notit->snapshots.beginning_clock;
                }

                msg = bt_message_packet_beginning_create_with_default_clock_snapshot(
                        notit->msg_iter, notit->packet,
                        raw_cs_value);
        } else {
                msg = bt_message_packet_beginning_create(notit->msg_iter,
                        notit->packet);
        }

        if (!msg) {
                BT_COMP_LOGE("Cannot create packet beginning message: "
                        "notit-addr=%p, packet-addr=%p",
                        notit, notit->packet);
                goto end;
        }

        *message = msg;

end:
        return;
}

static
void emit_delayed_packet_beg_msg(struct bt_msg_iter *notit,
                bt_message **message)
{
        bool packet_beg_ts_need_fix_up;

        notit->emit_delayed_packet_beginning_msg = false;

        /*
         * Only fix the packet's timestamp_begin if it's larger than the first
         * event of the packet. If there was no event in the packet, the
         * `default_clock_snapshot` field will be either equal or greater than
         * `snapshots.beginning_clock` so there is not fix needed.
         */
        packet_beg_ts_need_fix_up =
                notit->default_clock_snapshot < notit->snapshots.beginning_clock;

        /* create_msg_packet_beginning() logs errors */
        create_msg_packet_beginning(notit, message, packet_beg_ts_need_fix_up);

        return;
}


static
void create_msg_packet_end(struct bt_msg_iter *notit, bt_message **message)
{
        bt_message *msg;
        bool update_default_cs = true;

        if (!notit->packet) {
                return;
        }

        /*
         * Check if we need to emit the delayed packet
         * beginning message instead of the packet end message.
         */
        if (G_UNLIKELY(notit->emit_delayed_packet_beginning_msg)) {
                emit_delayed_packet_beg_msg(notit, message);
                /* Don't forget to emit the packet end message. */
                notit->state = STATE_EMIT_QUEUED_MSG_PACKET_END;
                return;
        }

        /* Check if may be affected by lttng-crash timestamp_end quirk. */
        if (G_UNLIKELY(notit->meta.tc->quirks.lttng_crash)) {
                /*
                 * Check if the `timestamp_begin` field is non-zero but
                 * `timestamp_end` is zero. It means the trace is affected by
                 * the lttng-crash packet `timestamp_end` quirk and must be
                 * fixed up by omitting to update the default clock snapshot to
                 * the `timestamp_end` as is typically done.
                 */
                if (notit->snapshots.beginning_clock != 0 &&
                                notit->snapshots.end_clock == 0) {
                        update_default_cs = false;
                }
        }

        /*
         * Check if may be affected by lttng event-after-packet `timestamp_end`
         * quirk.
         */
        if (notit->meta.tc->quirks.lttng_event_after_packet) {
                /*
                 * Check if `timestamp_end` is smaller then the current
                 * default_clock_snapshot (which is set to the last event
                 * decoded). It means the trace is affected by the lttng
                 * `event-after-packet` packet `timestamp_end` quirk and must
                 * be fixed up by omitting to update the default clock snapshot
                 * to the `timestamp_end` as is typically done.
                 */
                if (notit->snapshots.end_clock < notit->default_clock_snapshot) {
                        update_default_cs = false;
                }
        }

        /* Update default clock from packet's end time. */
        if (notit->snapshots.end_clock != UINT64_C(-1) && update_default_cs) {
                notit->default_clock_snapshot = notit->snapshots.end_clock;
        }

        BT_ASSERT(notit->msg_iter);

        if (notit->meta.sc->packets_have_ts_end) {
                BT_ASSERT(notit->snapshots.end_clock != UINT64_C(-1));
                msg = bt_message_packet_end_create_with_default_clock_snapshot(
                        notit->msg_iter, notit->packet,
                        notit->default_clock_snapshot);
        } else {
                msg = bt_message_packet_end_create(notit->msg_iter,
                        notit->packet);
        }

        if (!msg) {
                BT_COMP_LOGE("Cannot create packet end message: "
                        "notit-addr=%p, packet-addr=%p",
                        notit, notit->packet);
                return;

        }

        BT_PACKET_PUT_REF_AND_RESET(notit->packet);
        *message = msg;
}

static
void create_msg_discarded_events(struct bt_msg_iter *notit,
                bt_message **message)
{
        bt_message *msg;
        uint64_t beginning_raw_value = UINT64_C(-1);
        uint64_t end_raw_value = UINT64_C(-1);

        BT_ASSERT(notit->msg_iter);
        BT_ASSERT(notit->stream);
        BT_ASSERT(notit->meta.sc->has_discarded_events);

        if (notit->meta.sc->discarded_events_have_default_cs) {
                if (notit->prev_packet_snapshots.discarded_events == UINT64_C(-1)) {
                        /*
                         * We discarded events, but before (and possibly
                         * including) the current packet: use this packet's time
                         * range, and do not have a specific count.
                         */
                        beginning_raw_value = notit->snapshots.beginning_clock;
                        end_raw_value = notit->snapshots.end_clock;
                } else {
                        beginning_raw_value = notit->prev_packet_snapshots.end_clock;
                        end_raw_value = notit->snapshots.end_clock;
                }

                BT_ASSERT(beginning_raw_value != UINT64_C(-1));
                BT_ASSERT(end_raw_value != UINT64_C(-1));
                msg = bt_message_discarded_events_create_with_default_clock_snapshots(
                        notit->msg_iter, notit->stream, beginning_raw_value,
                        end_raw_value);
        } else {
                msg = bt_message_discarded_events_create(notit->msg_iter,
                        notit->stream);
        }

        if (!msg) {
                BT_COMP_LOGE("Cannot create discarded events message: "
                        "notit-addr=%p, stream-addr=%p",
                        notit, notit->stream);
                return;
        }

        if (notit->prev_packet_snapshots.discarded_events != UINT64_C(-1)) {
                bt_message_discarded_events_set_count(msg,
                        notit->snapshots.discarded_events -
                        notit->prev_packet_snapshots.discarded_events);
        }

        *message = msg;
}

static
void create_msg_discarded_packets(struct bt_msg_iter *notit,
                bt_message **message)
{
        bt_message *msg;

        BT_ASSERT(notit->msg_iter);
        BT_ASSERT(notit->stream);
        BT_ASSERT(notit->meta.sc->has_discarded_packets);
        BT_ASSERT(notit->prev_packet_snapshots.packets !=
                UINT64_C(-1));

        if (notit->meta.sc->discarded_packets_have_default_cs) {
                BT_ASSERT(notit->prev_packet_snapshots.end_clock != UINT64_C(-1));
                BT_ASSERT(notit->snapshots.beginning_clock != UINT64_C(-1));
                msg = bt_message_discarded_packets_create_with_default_clock_snapshots(
                        notit->msg_iter, notit->stream,
                        notit->prev_packet_snapshots.end_clock,
                        notit->snapshots.beginning_clock);
        } else {
                msg = bt_message_discarded_packets_create(notit->msg_iter,
                        notit->stream);
        }

        if (!msg) {
                BT_COMP_LOGE("Cannot create discarded packets message: "
                        "notit-addr=%p, stream-addr=%p",
                        notit, notit->stream);
                return;
        }

        bt_message_discarded_packets_set_count(msg,
                notit->snapshots.packets -
                        notit->prev_packet_snapshots.packets - 1);
        *message = msg;
}

BT_HIDDEN
struct bt_msg_iter *bt_msg_iter_create(struct ctf_trace_class *tc,
                size_t max_request_sz,
                struct bt_msg_iter_medium_ops medops, void *data,
                bt_logging_level log_level, bt_self_component *self_comp)
{
        struct bt_msg_iter *notit = NULL;
        struct bt_bfcr_cbs cbs = {
                .classes = {
                        .signed_int = bfcr_signed_int_cb,
                        .unsigned_int = bfcr_unsigned_int_cb,
                        .floating_point = bfcr_floating_point_cb,
                        .string_begin = bfcr_string_begin_cb,
                        .string = bfcr_string_cb,
                        .string_end = bfcr_string_end_cb,
                        .compound_begin = bfcr_compound_begin_cb,
                        .compound_end = bfcr_compound_end_cb,
                },
                .query = {
                        .get_sequence_length = bfcr_get_sequence_length_cb,
                        .borrow_variant_selected_field_class = bfcr_borrow_variant_selected_field_class_cb,
                },
        };

        BT_ASSERT(tc);
        BT_ASSERT(medops.request_bytes);
        BT_ASSERT(medops.borrow_stream);
        BT_COMP_LOG_CUR_LVL(BT_LOG_DEBUG, log_level, self_comp,
                "Creating CTF plugin message iterator: "
                "trace-addr=%p, max-request-size=%zu, "
                "data=%p, log-level=%s", tc, max_request_sz, data,
                bt_common_logging_level_string(log_level));
        notit = g_new0(struct bt_msg_iter, 1);
        if (!notit) {
                BT_COMP_LOG_CUR_LVL(BT_LOG_ERROR, log_level, self_comp,
                        "Failed to allocate one CTF plugin message iterator.");
                goto end;
        }
        notit->self_comp = self_comp;
        notit->log_level = log_level;
        notit->meta.tc = tc;
        notit->medium.medops = medops;
        notit->medium.max_request_sz = max_request_sz;
        notit->medium.data = data;
        notit->stack = stack_new(notit);
        notit->stored_values = g_array_new(FALSE, TRUE, sizeof(uint64_t));
        g_array_set_size(notit->stored_values, tc->stored_value_count);

        if (!notit->stack) {
                BT_COMP_LOGE_STR("Failed to create field stack.");
                goto error;
        }

        notit->bfcr = bt_bfcr_create(cbs, notit, log_level, NULL);
        if (!notit->bfcr) {
                BT_COMP_LOGE_STR("Failed to create binary class reader (BFCR).");
                goto error;
        }

        bt_msg_iter_reset(notit);
        BT_COMP_LOGD("Created CTF plugin message iterator: "
                "trace-addr=%p, max-request-size=%zu, "
                "data=%p, notit-addr=%p, log-level=%s",
                tc, max_request_sz, data, notit,
                bt_common_logging_level_string(log_level));
        notit->cur_packet_offset = 0;

end:
        return notit;

error:
        bt_msg_iter_destroy(notit);
        notit = NULL;
        goto end;
}

void bt_msg_iter_destroy(struct bt_msg_iter *notit)
{
        BT_PACKET_PUT_REF_AND_RESET(notit->packet);
        BT_STREAM_PUT_REF_AND_RESET(notit->stream);
        release_all_dscopes(notit);

        BT_COMP_LOGD("Destroying CTF plugin message iterator: addr=%p", notit);

        if (notit->stack) {
                BT_COMP_LOGD_STR("Destroying field stack.");
                stack_destroy(notit->stack);
        }

        if (notit->bfcr) {
                BT_COMP_LOGD("Destroying BFCR: bfcr-addr=%p", notit->bfcr);
                bt_bfcr_destroy(notit->bfcr);
        }

        if (notit->stored_values) {
                g_array_free(notit->stored_values, TRUE);
        }

        g_free(notit);
}

enum bt_msg_iter_status bt_msg_iter_get_next_message(
                struct bt_msg_iter *notit,
                bt_self_message_iterator *msg_iter, bt_message **message)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;

        BT_ASSERT(notit);
        BT_ASSERT(message);
        notit->msg_iter = msg_iter;
        notit->set_stream = true;
        BT_COMP_LOGD("Getting next message: notit-addr=%p", notit);

        while (true) {
                status = handle_state(notit);
                if (G_UNLIKELY(status == BT_MSG_ITER_STATUS_AGAIN)) {
                        BT_COMP_LOGD_STR("Medium returned BT_MSG_ITER_STATUS_AGAIN.");
                        goto end;
                } else if (G_UNLIKELY(status != BT_MSG_ITER_STATUS_OK)) {
                        BT_COMP_LOGW("Cannot handle state: notit-addr=%p, state=%s",
                                notit, state_string(notit->state));
                        goto end;
                }

                switch (notit->state) {
                case STATE_EMIT_MSG_EVENT:
                        BT_ASSERT(notit->event_msg);

                        /*
                         * Check if we need to emit the delayed packet
                         * beginning message instead of the event message.
                         */
                        if (G_UNLIKELY(notit->emit_delayed_packet_beginning_msg)) {
                                emit_delayed_packet_beg_msg(notit, message);
                                if (!*message) {
                                        status = BT_MSG_ITER_STATUS_ERROR;
                                }

                                /*
                                 * Don't forget to emit the event message of
                                 * the event record that was just decoded.
                                 */
                                notit->state = STATE_EMIT_QUEUED_MSG_EVENT;

                        } else {
                                *message = notit->event_msg;
                                notit->event_msg = NULL;
                        }
                        goto end;
                case STATE_EMIT_MSG_DISCARDED_EVENTS:
                        /* create_msg_discared_events() logs errors */
                        create_msg_discarded_events(notit, message);

                        if (!*message) {
                                status = BT_MSG_ITER_STATUS_ERROR;
                        }

                        goto end;
                case STATE_EMIT_MSG_DISCARDED_PACKETS:
                        /* create_msg_discared_packets() logs errors */
                        create_msg_discarded_packets(notit, message);

                        if (!*message) {
                                status = BT_MSG_ITER_STATUS_ERROR;
                        }

                        goto end;
                case STATE_EMIT_MSG_PACKET_BEGINNING:
                        status = set_current_packet(notit);
                        if (status != BT_MSG_ITER_STATUS_OK) {
                                goto end;
                        }

                        if (G_UNLIKELY(notit->meta.tc->quirks.barectf_event_before_packet)) {
                                notit->emit_delayed_packet_beginning_msg = true;
                                /*
                                 * There is no message to return yet as this
                                 * packet beginning message is delayed until we
                                 * decode the first event message of the
                                 * packet.
                                 */
                                break;
                        } else {
                                /* create_msg_packet_beginning() logs errors */
                                create_msg_packet_beginning(notit, message, false);
                                if (!*message) {
                                        status = BT_MSG_ITER_STATUS_ERROR;
                                }
                        }

                        goto end;
                case STATE_EMIT_MSG_PACKET_END_SINGLE:
                case STATE_EMIT_MSG_PACKET_END_MULTI:
                        /* create_msg_packet_end() logs errors */
                        create_msg_packet_end(notit, message);

                        if (!*message) {
                                status = BT_MSG_ITER_STATUS_ERROR;
                        }

                        goto end;
                case STATE_EMIT_MSG_STREAM_BEGINNING:
                        /* create_msg_stream_beginning() logs errors */
                        create_msg_stream_beginning(notit, message);

                        if (!*message) {
                                status = BT_MSG_ITER_STATUS_ERROR;
                        }

                        goto end;
                case STATE_EMIT_MSG_STREAM_END:
                        /* create_msg_stream_end() logs errors */
                        create_msg_stream_end(notit, message);

                        if (!*message) {
                                status = BT_MSG_ITER_STATUS_ERROR;
                        }

                        goto end;
                case STATE_DONE:
                        status = BT_MSG_ITER_STATUS_EOF;
                        goto end;
                default:
                        /* Non-emitting state: continue */
                        break;
                }
        }

end:
        return status;
}

static
enum bt_msg_iter_status decode_until_state( struct bt_msg_iter *notit,
                enum state target_state_1, enum state target_state_2)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;

        BT_ASSERT(notit);
        notit->set_stream = false;

        do {
                /*
                 * Check if we reached the state at which we want to stop
                 * decoding.
                 */
                if (notit->state == target_state_1 ||
                                notit->state == target_state_2) {
                        goto end;
                }

                status = handle_state(notit);
                if (G_UNLIKELY(status == BT_MSG_ITER_STATUS_AGAIN)) {
                        BT_COMP_LOGD_STR("Medium returned BT_MSG_ITER_STATUS_AGAIN.");
                        goto end;
                } else if (G_UNLIKELY(status != BT_MSG_ITER_STATUS_OK)) {
                        BT_COMP_LOGW("Cannot handle state: notit-addr=%p, state=%s",
                                notit, state_string(notit->state));
                        goto end;
                }

                switch (notit->state) {
                case STATE_INIT:
                case STATE_SWITCH_PACKET:
                case STATE_DSCOPE_TRACE_PACKET_HEADER_BEGIN:
                case STATE_DSCOPE_TRACE_PACKET_HEADER_CONTINUE:
                case STATE_AFTER_TRACE_PACKET_HEADER:
                case STATE_DSCOPE_STREAM_PACKET_CONTEXT_BEGIN:
                case STATE_DSCOPE_STREAM_PACKET_CONTEXT_CONTINUE:
                case STATE_AFTER_STREAM_PACKET_CONTEXT:
                case STATE_CHECK_EMIT_MSG_STREAM_BEGINNING:
                case STATE_EMIT_MSG_STREAM_BEGINNING:
                case STATE_CHECK_EMIT_MSG_DISCARDED_EVENTS:
                case STATE_EMIT_MSG_DISCARDED_EVENTS:
                case STATE_CHECK_EMIT_MSG_DISCARDED_PACKETS:
                case STATE_EMIT_MSG_DISCARDED_PACKETS:
                case STATE_EMIT_MSG_PACKET_BEGINNING:
                case STATE_DSCOPE_EVENT_HEADER_BEGIN:
                case STATE_DSCOPE_EVENT_HEADER_CONTINUE:
                case STATE_AFTER_EVENT_HEADER:
                case STATE_DSCOPE_EVENT_COMMON_CONTEXT_BEGIN:
                case STATE_DSCOPE_EVENT_COMMON_CONTEXT_CONTINUE:
                case STATE_DSCOPE_EVENT_SPEC_CONTEXT_BEGIN:
                case STATE_DSCOPE_EVENT_SPEC_CONTEXT_CONTINUE:
                case STATE_DSCOPE_EVENT_PAYLOAD_BEGIN:
                case STATE_DSCOPE_EVENT_PAYLOAD_CONTINUE:
                case STATE_EMIT_MSG_EVENT:
                case STATE_EMIT_QUEUED_MSG_EVENT:
                case STATE_SKIP_PACKET_PADDING:
                case STATE_EMIT_MSG_PACKET_END_MULTI:
                case STATE_EMIT_MSG_PACKET_END_SINGLE:
                case STATE_EMIT_QUEUED_MSG_PACKET_END:
                case STATE_CHECK_EMIT_MSG_STREAM_END:
                case STATE_EMIT_MSG_STREAM_END:
                        break;
                case STATE_DONE:
                        /* fall-through */
                default:
                        /* We should never get to the STATE_DONE state. */
                        BT_COMP_LOGF("Unexpected state: notit-addr=%p, state=%s",
                                notit, state_string(notit->state));
                        abort();
                }
        } while (true);

end:
        return status;
}

static
enum bt_msg_iter_status read_packet_header_context_fields(
                struct bt_msg_iter *notit)
{
        int ret;
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;

        status = decode_until_state(notit, STATE_EMIT_MSG_PACKET_BEGINNING, -1);
        if (status != BT_MSG_ITER_STATUS_OK) {
                goto end;
        }

        ret = set_current_packet_content_sizes(notit);
        if (ret) {
                status = BT_MSG_ITER_STATUS_ERROR;
                goto end;
        }

end:
        return status;
}

BT_HIDDEN
void bt_msg_iter_set_medops_data(struct bt_msg_iter *notit,
                void *medops_data)
{
        BT_ASSERT(notit);
        notit->medium.data = medops_data;
}

BT_HIDDEN
enum bt_msg_iter_status bt_msg_iter_seek(struct bt_msg_iter *notit,
                off_t offset)
{
        enum bt_msg_iter_status ret = BT_MSG_ITER_STATUS_OK;
        enum bt_msg_iter_medium_status medium_status;

        BT_ASSERT(notit);
        if (offset < 0) {
                BT_COMP_LOGE("Cannot seek to negative offset: offset=%jd", (intmax_t) offset);
                ret = BT_MSG_ITER_STATUS_INVAL;
                goto end;
        }

        if (!notit->medium.medops.seek) {
                ret = BT_MSG_ITER_STATUS_UNSUPPORTED;
                BT_COMP_LOGD("Aborting seek as the iterator's underlying media does not implement seek support.");
                goto end;
        }

        medium_status = notit->medium.medops.seek(
                BT_MSG_ITER_SEEK_WHENCE_SET, offset, notit->medium.data);
        if (medium_status != BT_MSG_ITER_MEDIUM_STATUS_OK) {
                if (medium_status == BT_MSG_ITER_MEDIUM_STATUS_EOF) {
                        ret = BT_MSG_ITER_STATUS_EOF;
                } else {
                        ret = BT_MSG_ITER_STATUS_ERROR;
                        goto end;
                }
        }

        bt_msg_iter_reset(notit);
        notit->cur_packet_offset = offset;

end:
        return ret;
}

static
enum bt_msg_iter_status clock_snapshot_at_msg_iter_state(
                struct bt_msg_iter *notit, enum state target_state_1,
                enum state target_state_2, uint64_t *clock_snapshot)
{
        enum bt_msg_iter_status status = BT_MSG_ITER_STATUS_OK;

        BT_ASSERT(notit);
        BT_ASSERT(clock_snapshot);
        status = decode_until_state(notit, target_state_1, target_state_2);
        if (status != BT_MSG_ITER_STATUS_OK) {
                goto end;
        }

        *clock_snapshot = notit->default_clock_snapshot;
end:
        return status;
}

BT_HIDDEN
enum bt_msg_iter_status bt_msg_iter_curr_packet_first_event_clock_snapshot(
                struct bt_msg_iter *notit, uint64_t *first_clock_snapshot)
{
        return clock_snapshot_at_msg_iter_state(notit,
                STATE_AFTER_EVENT_HEADER, -1, first_clock_snapshot);
}

BT_HIDDEN
enum bt_msg_iter_status bt_msg_iter_curr_packet_last_event_clock_snapshot(
                struct bt_msg_iter *notit, uint64_t *last_clock_snapshot)
{
        return clock_snapshot_at_msg_iter_state(notit,
                STATE_EMIT_MSG_PACKET_END_SINGLE,
                STATE_EMIT_MSG_PACKET_END_MULTI, last_clock_snapshot);
}

BT_HIDDEN
enum bt_msg_iter_status bt_msg_iter_get_packet_properties(
                struct bt_msg_iter *notit,
                struct bt_msg_iter_packet_properties *props)
{
        enum bt_msg_iter_status status;

        BT_ASSERT(notit);
        BT_ASSERT(props);
        status = read_packet_header_context_fields(notit);
        if (status != BT_MSG_ITER_STATUS_OK) {
                goto end;
        }

        props->exp_packet_total_size = notit->cur_exp_packet_total_size;
        props->exp_packet_content_size = notit->cur_exp_packet_content_size;
        props->stream_class_id = (uint64_t) notit->cur_stream_class_id;
        props->data_stream_id = notit->cur_data_stream_id;
        props->snapshots.discarded_events = notit->snapshots.discarded_events;
        props->snapshots.packets = notit->snapshots.packets;
        props->snapshots.beginning_clock = notit->snapshots.beginning_clock;
        props->snapshots.end_clock = notit->snapshots.end_clock;

end:
        return status;
}

BT_HIDDEN
void bt_msg_iter_set_emit_stream_beginning_message(struct bt_msg_iter *notit,
                bool val)
{
        notit->emit_stream_begin_msg = val;
}

BT_HIDDEN
void bt_msg_iter_set_emit_stream_end_message(struct bt_msg_iter *notit,
                bool val)
{
        notit->emit_stream_end_msg = val;
}

BT_HIDDEN
void bt_msg_iter_set_dry_run(struct bt_msg_iter *notit,
                bool val)
{
        notit->dry_run = val;
}