rmw_cyclonedds/rmw_cyclonedds_cpp/src/rmw_node.cpp

// Copyright 2018 ADLINK Technology Limited.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

/* TODO:

   - topic names (should use the same as other RMW layers)

   - type names (make a copy of the generic type descriptor, modify the name and pass that)

   - should serialize straight into serdata_t, instead of into a FastBuffer that then gets copied

   - topic creation: shouldn't leak topics

   - hash set of writer handles should be thread safe: no guarantee that no writers get
     added/deleted in parallel to each other or to takes

   - should use cdds read conditions, triggers & waitsets rather the local thing done here

   - introspection stuff not done yet (probably requires additions to cdds)

   - check / make sure a node remains valid while one of its subscriptions exists

   - writecdr/takecdr interface abuse is beyond redemption

   - service/client simply use the instance handle of its publisher as its GUID -- yikes! but it is
     actually only kinda wrong because the instance handles allocated by different instance of cdds
     are actually taken from uncorrelated (close to uncorrelated anyway) permutations of 64-bit
     unsigned integers

   - ... and many more things ...
*/

#include <algorithm>
#include <array>
#include <atomic>
#include <cassert>
#include <condition_variable>
#include <limits>
#include <list>
#include <map>
#include <mutex>
#include <set>
#include <string>
#include <string>
#include <utility>
#include <vector>
#include <thread>
#include <unordered_set>

#include "rcutils/allocator.h"
#include "rcutils/filesystem.h"
#include "rcutils/logging_macros.h"
#include "rcutils/strdup.h"
#include "rcutils/types.h"

#include "rmw/allocators.h"
#include "rmw/convert_rcutils_ret_to_rmw_ret.h"
#include "rmw/error_handling.h"
#include "rmw/names_and_types.h"
#include "rmw/rmw.h"
#include "rmw/sanity_checks.h"

#include "rmw/impl/cpp/macros.hpp"

#include "namespace_prefix.hpp"
#include "fastcdr/FastBuffer.h"

#include "rmw_cyclonedds_cpp/MessageTypeSupport.hpp"
#include "rmw_cyclonedds_cpp/ServiceTypeSupport.hpp"

#include "ddsc/dds.h"
extern "C" {
    extern void ddsi_serdata_getblob (void **raw, size_t *sz, struct serdata *serdata);
    extern void ddsi_serdata_unref (struct serdata *serdata);
}

#include "rmw_cyclonedds_topic.h"

#define RET_ERR_X(msg, code) do { RMW_SET_ERROR_MSG(msg); code; } while(0)
#define RET_NULL_X(var, code) do { if (!var) RET_ERR_X(#var " is null", code); } while(0)
#define RET_ALLOC_X(var, code) do { if (!var) RET_ERR_X("failed to allocate " #var, code); } while(0)
#define RET_WRONG_IMPLID_X(var, code) do {                              \
        RET_NULL_X(var, code);                                          \
        if ((var)->implementation_identifier != adlink_cyclonedds_identifier) { \
            RET_ERR_X(#var " not from this implementation", code);      \
        }                                                               \
    } while(0)
#define RET_NULL_OR_EMPTYSTR_X(var, code) do {                  \
        if(!var || strlen(var) == 0) {                          \
            RET_ERR_X(#var " is null or empty string", code);   \
        }                                                       \
    } while(0)
#define RET_ERR(msg) RET_ERR_X(msg, return RMW_RET_ERROR)
#define RET_NULL(var) RET_NULL_X(var, return RMW_RET_ERROR)
#define RET_ALLOC(var) RET_ALLOC_X(var, return RMW_RET_ERROR)
#define RET_WRONG_IMPLID(var) RET_WRONG_IMPLID_X(var, return RMW_RET_ERROR)
#define RET_NULL_OR_EMPTYSTR(var) RET_NULL_OR_EMPTYSTR_X(var, return RMW_RET_ERROR)

const char *const adlink_cyclonedds_identifier = "rmw_cyclonedds_cpp";

struct CddsTypeSupport {
    void *type_support_;
    const char *typesupport_identifier_;
};

/* instance handles are unsigned 64-bit integers carefully constructed to be as close to uniformly
   distributed as possible for no other reason than making them near-perfect hash keys, hence we can
   improve over the default hash function */
struct dds_instance_handle_hash {
public:
    std::size_t operator()(dds_instance_handle_t const& x) const noexcept {
        return static_cast<std::size_t>(x);
    }
};

struct CddsNode {
    rmw_guard_condition_t *graph_guard_condition;
    std::unordered_set<dds_instance_handle_t, dds_instance_handle_hash> own_writers;
};

struct CddsPublisher {
    dds_entity_t pubh;
    dds_instance_handle_t pubiid;
    CddsTypeSupport ts;
};

struct CddsSubscription {
    typedef rmw_subscription_t rmw_type;
    typedef rmw_subscriptions_t rmw_set_type;
    dds_entity_t subh;
    dds_entity_t rdcondh;
    CddsNode *node;
    bool ignore_local_publications;
    CddsTypeSupport ts;
};

struct CddsCS {
    CddsPublisher *pub;
    CddsSubscription *sub;
};

struct CddsClient {
    typedef rmw_client_t rmw_type;
    typedef rmw_clients_t rmw_set_type;
    CddsCS client;
};

struct CddsService {
    typedef rmw_service_t rmw_type;
    typedef rmw_services_t rmw_set_type;
    CddsCS service;
};

struct CddsGuardCondition {
    dds_entity_t gcondh;
};

struct Cdds {
    std::mutex lock;
    uint32_t refcount;
    dds_entity_t ppant;
    Cdds() : refcount(0), ppant(0) {}
};

typedef struct cdds_request_header {
    uint64_t guid;
    int64_t seq;
} cdds_request_header_t;

static Cdds gcdds;

using MessageTypeSupport_c = rmw_cyclonedds_cpp::MessageTypeSupport<rosidl_typesupport_introspection_c__MessageMembers>;
using MessageTypeSupport_cpp = rmw_cyclonedds_cpp::MessageTypeSupport<rosidl_typesupport_introspection_cpp::MessageMembers>;
using RequestTypeSupport_c = rmw_cyclonedds_cpp::RequestTypeSupport<rosidl_typesupport_introspection_c__ServiceMembers, rosidl_typesupport_introspection_c__MessageMembers>;
using RequestTypeSupport_cpp = rmw_cyclonedds_cpp::RequestTypeSupport<rosidl_typesupport_introspection_cpp::ServiceMembers, rosidl_typesupport_introspection_cpp::MessageMembers>;
using ResponseTypeSupport_c = rmw_cyclonedds_cpp::ResponseTypeSupport<rosidl_typesupport_introspection_c__ServiceMembers, rosidl_typesupport_introspection_c__MessageMembers>;
using ResponseTypeSupport_cpp = rmw_cyclonedds_cpp::ResponseTypeSupport<rosidl_typesupport_introspection_cpp::ServiceMembers, rosidl_typesupport_introspection_cpp::MessageMembers>;

static bool using_introspection_c_typesupport(const char *typesupport_identifier)
{
    return typesupport_identifier == rosidl_typesupport_introspection_c__identifier;
}

static bool using_introspection_cpp_typesupport(const char *typesupport_identifier)
{
    return typesupport_identifier == rosidl_typesupport_introspection_cpp::typesupport_identifier;
}

static void *create_message_type_support(const void *untyped_members, const char *typesupport_identifier)
{
    if (using_introspection_c_typesupport(typesupport_identifier)) {
        auto members = static_cast<const rosidl_typesupport_introspection_c__MessageMembers *>(untyped_members);
        return new MessageTypeSupport_c(members);
    } else if (using_introspection_cpp_typesupport(typesupport_identifier)) {
        auto members = static_cast<const rosidl_typesupport_introspection_cpp::MessageMembers *>(untyped_members);
        return new MessageTypeSupport_cpp(members);
    }
    RMW_SET_ERROR_MSG("Unknown typesupport identifier");
    return nullptr;
}

static void *create_request_type_support(const void *untyped_members, const char *typesupport_identifier)
{
    if (using_introspection_c_typesupport(typesupport_identifier)) {
        auto members = static_cast<const rosidl_typesupport_introspection_c__ServiceMembers *>(untyped_members);
        return new RequestTypeSupport_c(members);
    } else if (using_introspection_cpp_typesupport(typesupport_identifier)) {
        auto members = static_cast<const rosidl_typesupport_introspection_cpp::ServiceMembers *>(untyped_members);
        return new RequestTypeSupport_cpp(members);
    }
    RMW_SET_ERROR_MSG("Unknown typesupport identifier");
    return nullptr;
}

static void *create_response_type_support(const void *untyped_members, const char *typesupport_identifier)
{
    if (using_introspection_c_typesupport(typesupport_identifier)) {
        auto members = static_cast<const rosidl_typesupport_introspection_c__ServiceMembers *>(untyped_members);
        return new ResponseTypeSupport_c(members);
    } else if (using_introspection_cpp_typesupport(typesupport_identifier)) {
        auto members = static_cast<const rosidl_typesupport_introspection_cpp::ServiceMembers *>(untyped_members);
        return new ResponseTypeSupport_cpp(members);
    }
    RMW_SET_ERROR_MSG("Unknown typesupport identifier");
    return nullptr;
}

template<typename ServiceType> const void *get_request_ptr(const void *untyped_service_members)
{
    auto service_members = static_cast<const ServiceType *>(untyped_service_members);
    RET_NULL_X(service_members, return nullptr);
    return service_members->request_members_;
}

template<typename ServiceType> const void *get_response_ptr(const void *untyped_service_members)
{
    auto service_members = static_cast<const ServiceType *>(untyped_service_members);
    RET_NULL_X(service_members, return nullptr);
    return service_members->response_members_;
}

static bool sermsg(const void *ros_message, eprosima::fastcdr::Cdr& ser, std::function<void(eprosima::fastcdr::Cdr&)> prefix, const CddsTypeSupport& ts)
{
    if (using_introspection_c_typesupport(ts.typesupport_identifier_)) {
        auto typed_typesupport = static_cast<MessageTypeSupport_c *>(ts.type_support_);
        return typed_typesupport->serializeROSmessage(ros_message, ser, prefix);
    } else if (using_introspection_cpp_typesupport(ts.typesupport_identifier_)) {
        auto typed_typesupport = static_cast<MessageTypeSupport_cpp *>(ts.type_support_);
        return typed_typesupport->serializeROSmessage(ros_message, ser, prefix);
    }
    RMW_SET_ERROR_MSG("Unknown typesupport identifier");
    return false;
}

static bool desermsg(eprosima::fastcdr::Cdr& deser, void *ros_message, std::function<void(eprosima::fastcdr::Cdr&)> prefix, const CddsTypeSupport& ts)
{
    if (using_introspection_c_typesupport(ts.typesupport_identifier_)) {
        auto typed_typesupport = static_cast<MessageTypeSupport_c *>(ts.type_support_);
        return typed_typesupport->deserializeROSmessage(deser, ros_message, prefix);
    } else if (using_introspection_cpp_typesupport(ts.typesupport_identifier_)) {
        auto typed_typesupport = static_cast<MessageTypeSupport_cpp *>(ts.type_support_);
        return typed_typesupport->deserializeROSmessage(deser, ros_message, prefix);
    }
    RMW_SET_ERROR_MSG("Unknown typesupport identifier");
    return false;
}

#pragma GCC visibility push(default)

extern "C" const char *rmw_get_implementation_identifier()
{
    return adlink_cyclonedds_identifier;
}

extern "C" rmw_ret_t rmw_init()
{
    return RMW_RET_OK;
}

static dds_entity_t ref_ppant()
{
    std::lock_guard<std::mutex> lock(gcdds.lock);
    if (gcdds.refcount == 0) {
        if ((gcdds.ppant = dds_create_participant(DDS_DOMAIN_DEFAULT, nullptr, nullptr)) < 0) {
            RMW_SET_ERROR_MSG("failed to create participant");
            return gcdds.ppant;
        }
    }
    gcdds.refcount++;
    return gcdds.ppant;
}

static void unref_ppant()
{
    std::lock_guard<std::mutex> lock(gcdds.lock);
    if (--gcdds.refcount == 0) {
        dds_delete(gcdds.ppant);
        gcdds.ppant = 0;
    }
}

/////////////////////////////////////////////////////////////////////////////////////////
///////////                                                                   ///////////
///////////    NODES                                                          ///////////
///////////                                                                   ///////////
/////////////////////////////////////////////////////////////////////////////////////////
  
extern "C" rmw_node_t *rmw_create_node(const char *name, const char *namespace_, size_t domain_id, const rmw_node_security_options_t *security_options)
{
    RET_NULL_X(name, return nullptr);
    RET_NULL_X(namespace_, return nullptr);
    (void)domain_id;
    (void)security_options;

    dds_entity_t pp = ref_ppant();
    if (pp < 0) {
        return nullptr;
    }
    auto *node_impl = new CddsNode();
    rmw_node_t *node_handle = nullptr;
    RET_ALLOC_X(node_impl, goto fail_node_impl);
    rmw_guard_condition_t *graph_guard_condition;
    if (!(graph_guard_condition = rmw_create_guard_condition())) {
        goto fail_ggc;
    }
    node_impl->graph_guard_condition = graph_guard_condition;

    node_handle = rmw_node_allocate();
    RET_ALLOC_X(node_handle, goto fail_node_handle);
    node_handle->implementation_identifier = adlink_cyclonedds_identifier;
    node_handle->data = node_impl;
    
    node_handle->name = static_cast<const char *>(rmw_allocate(sizeof(char) * strlen(name) + 1));
    RET_ALLOC_X(node_handle->name, goto fail_node_handle_name);
    memcpy(const_cast<char *>(node_handle->name), name, strlen(name) + 1);
    
    node_handle->namespace_ = static_cast<const char *>(rmw_allocate(sizeof(char) * strlen(namespace_) + 1));
    RET_ALLOC_X(node_handle->namespace_, goto fail_node_handle_namespace);
    memcpy(const_cast<char *>(node_handle->namespace_), namespace_, strlen(namespace_) + 1);
    return node_handle;

#if 0
 fail_add_node:
    rmw_free(const_cast<char *>(node_handle->namespace_));
#endif
 fail_node_handle_namespace:
    rmw_free(const_cast<char *>(node_handle->name));
 fail_node_handle_name:
    rmw_node_free(node_handle);
 fail_node_handle:
    if (RMW_RET_OK != rmw_destroy_guard_condition(graph_guard_condition)) {
        RCUTILS_LOG_ERROR_NAMED("rmw_cyclonedds_cpp", "failed to destroy guard condition during error handling");
    }
 fail_ggc:
    delete node_impl;
 fail_node_impl:
    unref_ppant();
    return nullptr;
}

extern "C" rmw_ret_t rmw_destroy_node(rmw_node_t *node)
{
    rmw_ret_t result_ret = RMW_RET_OK;
    RET_WRONG_IMPLID(node);
    auto node_impl = static_cast<CddsNode *>(node->data);
    RET_NULL(node_impl);
    rmw_free(const_cast<char *>(node->name));
    rmw_free(const_cast<char *>(node->namespace_));
    rmw_node_free(node);
    if (RMW_RET_OK != rmw_destroy_guard_condition(node_impl->graph_guard_condition)) {
        RMW_SET_ERROR_MSG("failed to destroy graph guard condition");
        result_ret = RMW_RET_ERROR;
    }
    delete node_impl;
    unref_ppant();
    return result_ret;
}

extern "C" const rmw_guard_condition_t *rmw_node_get_graph_guard_condition(const rmw_node_t *node)
{
    RET_WRONG_IMPLID_X(node, return nullptr);
    auto node_impl = static_cast<CddsNode *>(node->data);
    RET_NULL_X(node_impl, return nullptr);
    return node_impl->graph_guard_condition;
}

/////////////////////////////////////////////////////////////////////////////////////////
///////////                                                                   ///////////
///////////    PUBLICATIONS                                                   ///////////
///////////                                                                   ///////////
/////////////////////////////////////////////////////////////////////////////////////////
  
static rmw_ret_t rmw_write_ser(dds_entity_t pubh, eprosima::fastcdr::Cdr& ser)
{
    const size_t sz = ser.getSerializedDataLength();
    const void *raw = static_cast<void *>(ser.getBufferPointer());
    /* shifting by 4 bytes skips the CDR header -- it should be identical and the entire
       writecdr is a hack at the moment anyway */
    if (dds_writecdr(pubh, (char *)raw + 4, sz) >= 0) {
        return RMW_RET_OK;
    } else {
        /* FIXME: what is the expected behavior when it times out? */
        RMW_SET_ERROR_MSG("cannot publish data");
        //return RMW_RET_ERROR;
        return RMW_RET_OK;
    }
}
    
extern "C" rmw_ret_t rmw_publish(const rmw_publisher_t *publisher, const void *ros_message)
{
    RET_WRONG_IMPLID(publisher);
    RET_NULL(ros_message);
    auto pub = static_cast<CddsPublisher *>(publisher->data);
    assert(pub);
    eprosima::fastcdr::FastBuffer buffer;
    eprosima::fastcdr::Cdr ser(buffer, eprosima::fastcdr::Cdr::DEFAULT_ENDIAN, eprosima::fastcdr::Cdr::DDS_CDR);
    if (sermsg(ros_message, ser, nullptr, pub->ts)) {
        return rmw_write_ser(pub->pubh, ser);
    } else {
        RMW_SET_ERROR_MSG("cannot serialize data");
        return RMW_RET_ERROR;
    }
}

static const rosidl_message_type_support_t *get_typesupport(const rosidl_message_type_support_t *type_supports)
{
    const rosidl_message_type_support_t *ts;
    if ((ts = get_message_typesupport_handle(type_supports, rosidl_typesupport_introspection_c__identifier)) != nullptr) {
        return ts;
    } else if ((ts = get_message_typesupport_handle(type_supports, rosidl_typesupport_introspection_cpp::typesupport_identifier)) != nullptr) {
        return ts;
    } else {
        RMW_SET_ERROR_MSG("type support not from this implementation");
        return nullptr;
    }
}

static std::string make_fqtopic(const char *prefix, const char *topic_name, const char *suffix, bool avoid_ros_namespace_conventions)
{
    if (avoid_ros_namespace_conventions) {
        return std::string(topic_name) + "__" + std::string(suffix);
    } else {
        return std::string(prefix) + "/" + make_fqtopic(prefix, topic_name, suffix, true);
    }
}

static std::string make_fqtopic(const char *prefix, const char *topic_name, const char *suffix, const rmw_qos_profile_t *qos_policies)
{
    return make_fqtopic(prefix, topic_name, suffix, qos_policies->avoid_ros_namespace_conventions);
}

static dds_qos_t *create_readwrite_qos(const rmw_qos_profile_t *qos_policies)
{
    dds_qos_t *qos = dds_qos_create();
    switch (qos_policies->history) {
        case RMW_QOS_POLICY_HISTORY_SYSTEM_DEFAULT:
        case RMW_QOS_POLICY_HISTORY_KEEP_LAST:
            if (qos_policies->depth > INT32_MAX) {
                RMW_SET_ERROR_MSG("unsupported history depth");
                dds_qos_delete(qos);
                return nullptr;
            }
            dds_qset_history(qos, DDS_HISTORY_KEEP_LAST, static_cast<uint32_t>(qos_policies->depth));
            break;
        case RMW_QOS_POLICY_HISTORY_KEEP_ALL:
            dds_qset_history(qos, DDS_HISTORY_KEEP_ALL, DDS_LENGTH_UNLIMITED);
            break;
    }
    switch (qos_policies->reliability) {
        case RMW_QOS_POLICY_RELIABILITY_SYSTEM_DEFAULT:
        case RMW_QOS_POLICY_RELIABILITY_RELIABLE:
            dds_qset_reliability(qos, DDS_RELIABILITY_RELIABLE, DDS_SECS(1));
            break;
        case RMW_QOS_POLICY_RELIABILITY_BEST_EFFORT:
            dds_qset_reliability(qos, DDS_RELIABILITY_BEST_EFFORT, 0);
            break;
    }
    switch (qos_policies->durability) {
        case RMW_QOS_POLICY_DURABILITY_SYSTEM_DEFAULT:
        case RMW_QOS_POLICY_DURABILITY_VOLATILE:
            dds_qset_durability(qos, DDS_DURABILITY_VOLATILE);
            break;
        case RMW_QOS_POLICY_DURABILITY_TRANSIENT_LOCAL:
            dds_qset_durability(qos, DDS_DURABILITY_TRANSIENT_LOCAL);
            break;
    }
    return qos;
}        
    
static CddsPublisher *create_cdds_publisher(const rmw_node_t *node, const rosidl_message_type_support_t *type_supports, const char *topic_name, const rmw_qos_profile_t *qos_policies)
{
    RET_WRONG_IMPLID_X(node, return nullptr);
    RET_NULL_OR_EMPTYSTR_X(topic_name, return nullptr);
    RET_NULL_X(qos_policies, return nullptr);
    auto node_impl = static_cast<CddsNode *>(node->data);
    RET_NULL_X(node_impl, return nullptr);
    const rosidl_message_type_support_t *type_support = get_typesupport(type_supports);
    RET_NULL_X(type_support, return nullptr);
    CddsPublisher *pub = new CddsPublisher();
    dds_entity_t topic;
    dds_qos_t *qos;

    pub->ts.typesupport_identifier_ = type_support->typesupport_identifier;
    pub->ts.type_support_ = create_message_type_support(type_support->data, pub->ts.typesupport_identifier_);
    std::string fqtopic_name = make_fqtopic(ros_topic_prefix, topic_name, "", qos_policies);

    if ((topic = dds_create_topic(gcdds.ppant, &rmw_cyclonedds_topic_desc, fqtopic_name.c_str(), nullptr, nullptr)) < 0) {
      RMW_SET_ERROR_MSG("failed to create topic");
      goto fail_topic;
    }
    if ((qos = create_readwrite_qos(qos_policies)) == nullptr) {
        goto fail_qos;
    }
    if ((pub->pubh = dds_create_writer(gcdds.ppant, topic, qos, nullptr)) < 0) {
        RMW_SET_ERROR_MSG("failed to create writer");
        goto fail_writer;
    }
    dds_qos_delete(qos);
    if (dds_get_instance_handle(pub->pubh, &pub->pubiid) < 0) {
        RMW_SET_ERROR_MSG("failed to get instance handle for writer");
        goto fail_instance_handle;
    }
    node_impl->own_writers.insert(pub->pubiid);
    /* FIXME: leak the topic for now */
    return pub;

 fail_instance_handle:
    if (dds_delete(pub->pubh) < 0) {
        RCUTILS_LOG_ERROR_NAMED("rmw_cyclonedds_cpp", "failed to destroy writer during error handling");
    }
 fail_writer:
    dds_qos_delete(qos);
 fail_qos:
    /* not deleting topic -- have to sort out proper topic handling & that requires fixing a few
       things in cyclone as well */
 fail_topic:
    delete pub;
    return nullptr;
}

extern "C" rmw_publisher_t *rmw_create_publisher(const rmw_node_t *node, const rosidl_message_type_support_t *type_supports, const char *topic_name, const rmw_qos_profile_t *qos_policies)
{
    CddsPublisher *pub;
    rmw_publisher_t *rmw_publisher;
    auto node_impl = static_cast<CddsNode *>(node->data);
    if ((pub = create_cdds_publisher(node, type_supports, topic_name, qos_policies)) == nullptr) {
        goto fail_common_init;
    }
    rmw_publisher = rmw_publisher_allocate();
    RET_ALLOC_X(rmw_publisher, goto fail_publisher);
    rmw_publisher->implementation_identifier = adlink_cyclonedds_identifier;
    rmw_publisher->data = pub;
    rmw_publisher->topic_name = reinterpret_cast<char *>(rmw_allocate(strlen(topic_name) + 1));
    RET_ALLOC_X(rmw_publisher->topic_name, goto fail_topic_name);
    memcpy(const_cast<char *>(rmw_publisher->topic_name), topic_name, strlen(topic_name) + 1);
    return rmw_publisher;
 fail_topic_name:
    rmw_publisher_free(rmw_publisher);
 fail_publisher:
    node_impl->own_writers.erase(pub->pubiid);
    if (dds_delete(pub->pubh) < 0) {
        RCUTILS_LOG_ERROR_NAMED("rmw_cyclonedds_cpp", "failed to delete writer during error handling");
    }
    delete pub;
 fail_common_init:
    return nullptr;
}

extern "C" rmw_ret_t rmw_get_gid_for_publisher(const rmw_publisher_t *publisher, rmw_gid_t *gid)
{
    RET_WRONG_IMPLID(publisher);
    RET_NULL(gid);
    auto pub = static_cast<const CddsPublisher *>(publisher->data);
    RET_NULL(pub);
    gid->implementation_identifier = adlink_cyclonedds_identifier;
    memset(gid->data, 0, sizeof(gid->data));
    assert(sizeof(pub->pubiid) <= sizeof(gid->data));
    memcpy(gid->data, &pub->pubiid, sizeof(pub->pubiid));
    return RMW_RET_OK;
}

extern "C" rmw_ret_t rmw_compare_gids_equal(const rmw_gid_t *gid1, const rmw_gid_t *gid2, bool *result)
{
    RET_WRONG_IMPLID(gid1);
    RET_WRONG_IMPLID(gid2);
    RET_NULL(result);
    /* alignment is potentially lost because of the translation to an array of bytes, so use
       memcmp instead of a simple integer comparison */
    *result = memcmp(gid1->data, gid2->data, sizeof(gid1->data)) == 0;
    return RMW_RET_OK;
}

extern "C" rmw_ret_t rmw_destroy_publisher(rmw_node_t *node, rmw_publisher_t *publisher)
{
    RET_WRONG_IMPLID(node);
    RET_WRONG_IMPLID(publisher);
    auto node_impl = static_cast<CddsNode *>(node->data);
    auto pub = static_cast<CddsPublisher *>(publisher->data);
    if (pub != nullptr) {
        node_impl->own_writers.erase(pub->pubiid);
        if (dds_delete(pub->pubh) < 0) {
            RMW_SET_ERROR_MSG("failed to delete writer");
        }
        delete pub;
    }
    rmw_free(const_cast<char *>(publisher->topic_name));
    publisher->topic_name = nullptr;
    rmw_publisher_free(publisher);
    return RMW_RET_OK;
}

/////////////////////////////////////////////////////////////////////////////////////////
///////////                                                                   ///////////
///////////    SUBSCRIPTIONS                                                  ///////////
///////////                                                                   ///////////
/////////////////////////////////////////////////////////////////////////////////////////

static CddsSubscription *create_cdds_subscription(const rmw_node_t *node, const rosidl_message_type_support_t *type_supports, const char *topic_name, const rmw_qos_profile_t *qos_policies, bool ignore_local_publications)
{
    RET_WRONG_IMPLID_X(node, return nullptr);
    RET_NULL_OR_EMPTYSTR_X(topic_name, return nullptr);
    RET_NULL_X(qos_policies, return nullptr);
    auto node_impl = static_cast<CddsNode *>(node->data);
    RET_NULL_X(node_impl, return nullptr);
    const rosidl_message_type_support_t *type_support = get_typesupport(type_supports);
    RET_NULL_X(type_support, return nullptr);
    CddsSubscription *sub = new CddsSubscription();
    dds_entity_t topic;
    dds_qos_t *qos;

    sub->node = node_impl;
    sub->ignore_local_publications = ignore_local_publications;
    sub->ts.typesupport_identifier_ = type_support->typesupport_identifier;
    sub->ts.type_support_ = create_message_type_support(type_support->data, sub->ts.typesupport_identifier_);
    std::string fqtopic_name = make_fqtopic(ros_topic_prefix, topic_name, "", qos_policies);

    if ((topic = dds_create_topic(gcdds.ppant, &rmw_cyclonedds_topic_desc, fqtopic_name.c_str(), nullptr, nullptr)) < 0) {
        RMW_SET_ERROR_MSG("failed to create topic");
        goto fail_topic;
    }
    if ((qos = create_readwrite_qos(qos_policies)) == nullptr) {
        goto fail_qos;
    }
    if ((sub->subh = dds_create_reader(gcdds.ppant, topic, qos, nullptr)) < 0) {
        RMW_SET_ERROR_MSG("failed to create reader");
        goto fail_reader;
    }
    if ((sub->rdcondh = dds_create_readcondition(sub->subh, DDS_ANY_STATE)) < 0) {
        RMW_SET_ERROR_MSG("failed to create readcondition");
        goto fail_readcond;
    }
    dds_qos_delete(qos);
    return sub;
 fail_readcond:
    if (dds_delete(sub->subh) < 0) {
        RCUTILS_LOG_ERROR_NAMED("rmw_cyclonedds_cpp", "failed to delete reader during error handling");
    }
 fail_reader:
    dds_qos_delete(qos);
 fail_qos:
    /* FIXME: leak topic */
 fail_topic:
    delete sub;
    return nullptr;
}

extern "C" rmw_subscription_t *rmw_create_subscription(const rmw_node_t *node, const rosidl_message_type_support_t *type_supports, const char *topic_name, const rmw_qos_profile_t *qos_policies, bool ignore_local_publications)
{
    CddsSubscription *sub;
    rmw_subscription_t *rmw_subscription;
    if ((sub = create_cdds_subscription(node, type_supports, topic_name, qos_policies, ignore_local_publications)) == nullptr) {
        goto fail_common_init;
    }
    rmw_subscription = rmw_subscription_allocate();
    RET_ALLOC_X(rmw_subscription, goto fail_subscription);
    rmw_subscription->implementation_identifier = adlink_cyclonedds_identifier;
    rmw_subscription->data = sub;
    rmw_subscription->topic_name = reinterpret_cast<const char *>(rmw_allocate(strlen(topic_name) + 1));
    RET_ALLOC_X(rmw_subscription->topic_name, goto fail_topic_name);
    memcpy(const_cast<char *>(rmw_subscription->topic_name), topic_name, strlen(topic_name) + 1);
    return rmw_subscription;
 fail_topic_name:
    rmw_subscription_free(rmw_subscription);
 fail_subscription:
    if (dds_delete(sub->rdcondh) < 0) {
        RCUTILS_LOG_ERROR_NAMED("rmw_cyclonedds_cpp", "failed to delete readcondition during error handling");
    }
    if (dds_delete(sub->subh) < 0) {
        RCUTILS_LOG_ERROR_NAMED("rmw_cyclonedds_cpp", "failed to delete reader during error handling");
    }
    delete sub;
 fail_common_init:
    return nullptr;
}

extern "C" rmw_ret_t rmw_destroy_subscription(rmw_node_t *node, rmw_subscription_t *subscription)
{
    RET_WRONG_IMPLID(node);
    RET_WRONG_IMPLID(subscription);
    auto sub = static_cast<CddsSubscription *>(subscription->data);
    if (sub != nullptr) {
        if (dds_delete(sub->rdcondh) < 0) {
            RMW_SET_ERROR_MSG("failed to delete readcondition");
        }
        if (dds_delete(sub->subh) < 0) {
            RMW_SET_ERROR_MSG("failed to delete reader");
        }
        delete sub;
    }
    rmw_free(const_cast<char *>(subscription->topic_name));
    subscription->topic_name = nullptr;
    rmw_subscription_free(subscription);
    return RMW_RET_OK;
}

static rmw_ret_t rmw_take_int(const rmw_subscription_t *subscription, void *ros_message, bool *taken, rmw_message_info_t *message_info)
{
    RET_NULL(taken);
    RET_NULL(ros_message);
    RET_WRONG_IMPLID(subscription);
    CddsSubscription *sub = static_cast<CddsSubscription *>(subscription->data);
    RET_NULL(sub);
    struct serdata *sd;
    dds_sample_info_t info;
    while (dds_takecdr(sub->subh, &sd, 1, &info, DDS_ANY_SAMPLE_STATE | DDS_ANY_VIEW_STATE | DDS_ANY_INSTANCE_STATE) == 1) {
        if (info.valid_data && !(sub->ignore_local_publications && sub->node->own_writers.count(info.publication_handle))) {
            size_t sz;
            void *raw;
            ddsi_serdata_getblob(&raw, &sz, sd);
            eprosima::fastcdr::FastBuffer buffer(static_cast<char *>(raw), sz);
            eprosima::fastcdr::Cdr deser(buffer, eprosima::fastcdr::Cdr::DEFAULT_ENDIAN, eprosima::fastcdr::Cdr::DDS_CDR);
            desermsg(deser, ros_message, nullptr, sub->ts);
            ddsi_serdata_unref(sd);
            if (message_info) {
                message_info->publisher_gid.implementation_identifier = adlink_cyclonedds_identifier;
                memset(message_info->publisher_gid.data, 0, sizeof(message_info->publisher_gid.data));
                assert(sizeof(info.publication_handle) <= sizeof(message_info->publisher_gid.data));
                memcpy(message_info->publisher_gid.data, &info.publication_handle, sizeof(info.publication_handle));
            }
            *taken = true;
            return RMW_RET_OK;
        } else {
            ddsi_serdata_unref(sd);
        }
    }
    *taken = false;
    return RMW_RET_OK;
}

extern "C" rmw_ret_t rmw_take(const rmw_subscription_t *subscription, void *ros_message, bool *taken)
{
    return rmw_take_int(subscription, ros_message, taken, nullptr);
}

extern "C" rmw_ret_t rmw_take_with_info(const rmw_subscription_t *subscription, void *ros_message, bool *taken, rmw_message_info_t *message_info)
{
    return rmw_take_int(subscription, ros_message, taken, message_info);
}

/////////////////////////////////////////////////////////////////////////////////////////
///////////                                                                   ///////////
///////////    GUARDS AND WAITSETS                                            ///////////
///////////                                                                   ///////////
/////////////////////////////////////////////////////////////////////////////////////////

struct CddsWaitset {
    dds_entity_t waitseth;
};

extern "C" rmw_guard_condition_t *rmw_create_guard_condition()
{
    rmw_guard_condition_t *guard_condition_handle;
    auto *gcond_impl = new CddsGuardCondition();
    if (ref_ppant() < 0) {
        goto fail_ppant;
    }
    if ((gcond_impl->gcondh = dds_create_guardcondition(gcdds.ppant)) < 0) {
        RMW_SET_ERROR_MSG("failed to create guardcondition");
        goto fail_guardcond;
    }
    guard_condition_handle = new rmw_guard_condition_t;
    guard_condition_handle->implementation_identifier = adlink_cyclonedds_identifier;
    guard_condition_handle->data = gcond_impl;
    return guard_condition_handle;
    
 fail_guardcond:
    unref_ppant();
 fail_ppant:
    delete(gcond_impl);
    return nullptr;
}

extern "C" rmw_ret_t rmw_destroy_guard_condition(rmw_guard_condition_t *guard_condition_handle)
{
    RET_NULL(guard_condition_handle);
    auto *gcond_impl = static_cast<CddsGuardCondition *>(guard_condition_handle->data);
    dds_delete(gcond_impl->gcondh);
    unref_ppant();
    delete gcond_impl;
    delete guard_condition_handle;
    return RMW_RET_OK;
}

extern "C" rmw_ret_t rmw_trigger_guard_condition(const rmw_guard_condition_t *guard_condition_handle)
{
    RET_WRONG_IMPLID(guard_condition_handle);
    auto *gcond_impl = static_cast<CddsGuardCondition *>(guard_condition_handle->data);
    dds_set_guardcondition(gcond_impl->gcondh, true);
    return RMW_RET_OK;
}

extern "C" rmw_wait_set_t *rmw_create_wait_set(size_t max_conditions)
{
    (void)max_conditions;
    rmw_wait_set_t *wait_set = rmw_wait_set_allocate();
    CddsWaitset *ws = nullptr;
    RET_ALLOC_X(wait_set, goto fail_alloc_wait_set);
    wait_set->implementation_identifier = adlink_cyclonedds_identifier;
    wait_set->data = rmw_allocate(sizeof(CddsWaitset));
    RET_ALLOC_X(wait_set->data, goto fail_alloc_wait_set_data);
    // This should default-construct the fields of CddsWaitset
    ws = static_cast<CddsWaitset *>(wait_set->data);
    RMW_TRY_PLACEMENT_NEW(ws, ws, goto fail_placement_new, CddsWaitset, );
    if (!ws) {
        RMW_SET_ERROR_MSG("failed to construct wait set info struct");
        goto fail_ws;
    }
    if ((ws->waitseth = dds_create_waitset(gcdds.ppant)) < 0) {
        RMW_SET_ERROR_MSG("failed to create waitset");
        goto fail_waitset;
    }
    return wait_set;
    
 fail_waitset:    
 fail_ws:
    RMW_TRY_DESTRUCTOR_FROM_WITHIN_FAILURE(ws->~CddsWaitset(), ws);
 fail_placement_new:
    rmw_free(wait_set->data);
 fail_alloc_wait_set_data:
    rmw_wait_set_free(wait_set);
 fail_alloc_wait_set:
    return nullptr;
}

extern "C" rmw_ret_t rmw_destroy_wait_set(rmw_wait_set_t *wait_set)
{
    RET_WRONG_IMPLID(wait_set);
    auto result = RMW_RET_OK;
    auto ws = static_cast<CddsWaitset *>(wait_set->data);
    RET_NULL(ws);
    dds_delete(ws->waitseth);
    RMW_TRY_DESTRUCTOR(ws->~CddsWaitset(), ws, result = RMW_RET_ERROR);
    rmw_free(wait_set->data);
    rmw_wait_set_free(wait_set);
    return result;
}

extern "C" rmw_ret_t rmw_wait(rmw_subscriptions_t *subs, rmw_guard_conditions_t *gcs, rmw_services_t *srvs, rmw_clients_t *cls, rmw_wait_set_t *wait_set, const rmw_time_t *wait_timeout)
{
    RET_NULL(wait_set);
    CddsWaitset *ws = static_cast<CddsWaitset *>(wait_set->data);
    RET_NULL(ws);
    size_t nelems;
    dds_return_t ntrig;

    nelems = 0;
#define ATTACH(type, var, name, condname) do {                          \
        if (var) {                                                      \
            for (size_t i = 0; i < var->name##_count; i++) {            \
                auto x = static_cast<type *>(var->name##s[i]);          \
                dds_waitset_attach(ws->waitseth, x->condname, nelems);  \
                nelems++;                                               \
            }                                                           \
        }                                                               \
    } while (0)
    ATTACH(CddsSubscription, subs, subscriber, rdcondh);
    ATTACH(CddsClient, cls, client, client.sub->rdcondh);
    ATTACH(CddsService, srvs, service, service.sub->rdcondh);
    ATTACH(CddsGuardCondition, gcs, guard_condition, gcondh);
#undef ATTACH

    std::vector<dds_attach_t> trigs;
    dds_duration_t timeout;
    if (wait_timeout == NULL) {
        timeout = DDS_NEVER;
    } else {
        timeout = (dds_duration_t)wait_timeout->sec * 1000000000 + wait_timeout->nsec;
    }
    trigs.reserve(nelems + 1);
    ntrig = dds_waitset_wait(ws->waitseth, &trigs[0], nelems, timeout);
    std::sort(trigs.begin(), trigs.end());
    trigs[ntrig] = (dds_attach_t)-1;

    long trig_idx = 0;
    bool dummy;
    nelems = 0;
#define DETACH(type, var, name, condname, on_triggered) do {            \
        if (var) {                                                      \
            for (size_t i = 0; i < var->name##_count; i++) {            \
                auto x = static_cast<type *>(var->name##s[i]);          \
                dds_waitset_detach(ws->waitseth, x->condname);          \
                if (trigs[trig_idx] == (long)nelems) {                  \
                    on_triggered                                        \
                    trig_idx++;                                         \
                } else {                                                \
                    var->name##s[i] = nullptr;                          \
                }                                                       \
                nelems++;                                               \
            }                                                           \
        }                                                               \
    } while (0)
    DETACH(CddsSubscription, subs, subscriber, rdcondh, ;);
    DETACH(CddsClient, cls, client, client.sub->rdcondh, ;);
    DETACH(CddsService, srvs, service, service.sub->rdcondh, ;);
    DETACH(CddsGuardCondition, gcs, guard_condition, gcondh, dds_take_guardcondition(x->gcondh, &dummy););
#undef DETACH

    return (ntrig == 0) ? RMW_RET_TIMEOUT : RMW_RET_OK;
}

/////////////////////////////////////////////////////////////////////////////////////////
///////////                                                                   ///////////
///////////    CLIENTS AND SERVERS                                            ///////////
///////////                                                                   ///////////
/////////////////////////////////////////////////////////////////////////////////////////

static rmw_ret_t rmw_take_response_request(CddsCS *cs, rmw_request_id_t *request_header, void *ros_data, bool *taken, dds_instance_handle_t srcfilter)
{
    RET_NULL(taken);
    RET_NULL(ros_data);
    RET_NULL(request_header);
    struct serdata *sd;
    dds_sample_info_t info;
    while (dds_takecdr(cs->sub->subh, &sd, 1, &info, DDS_ANY_SAMPLE_STATE | DDS_ANY_VIEW_STATE | DDS_ANY_INSTANCE_STATE) == 1) {
        if (info.valid_data) {
            size_t sz;
            void *raw;
            ddsi_serdata_getblob(&raw, &sz, sd);
            eprosima::fastcdr::FastBuffer buffer(static_cast<char *>(raw), sz);
            eprosima::fastcdr::Cdr deser(buffer, eprosima::fastcdr::Cdr::DEFAULT_ENDIAN, eprosima::fastcdr::Cdr::DDS_CDR);
            cdds_request_header_t header;
            desermsg(deser, ros_data, [&header](eprosima::fastcdr::Cdr& ser) { ser >> header.guid; ser >> header.seq; }, cs->sub->ts);
            ddsi_serdata_unref(sd);
            memset(request_header, 0, sizeof(*request_header));
            assert(sizeof(header.guid) < sizeof(request_header->writer_guid));
            memcpy(request_header->writer_guid, &header.guid, sizeof(header.guid));
            request_header->sequence_number = header.seq;
            if (srcfilter == 0 || srcfilter == header.guid) {
                *taken = true;
                return RMW_RET_OK;
            }
        } else {
            ddsi_serdata_unref(sd);
        }
    }
    *taken = false;
    return RMW_RET_OK;
}
    
extern "C" rmw_ret_t rmw_take_response(const rmw_client_t *client, rmw_request_id_t *request_header, void *ros_response, bool *taken)
{
    RET_WRONG_IMPLID(client);
    auto info = static_cast<CddsClient *>(client->data);
    return rmw_take_response_request(&info->client, request_header, ros_response, taken, info->client.pub->pubiid);
}
    
extern "C" rmw_ret_t rmw_take_request(const rmw_service_t *service, rmw_request_id_t *request_header, void *ros_request, bool *taken)
{
    RET_WRONG_IMPLID(service);
    auto info = static_cast<CddsService *>(service->data);
    return rmw_take_response_request(&info->service, request_header, ros_request, taken, 0);
}

static rmw_ret_t rmw_send_response_request(CddsCS *cs, cdds_request_header_t *header, const void *ros_data)
{
    eprosima::fastcdr::FastBuffer buffer;
    eprosima::fastcdr::Cdr ser(buffer, eprosima::fastcdr::Cdr::DEFAULT_ENDIAN, eprosima::fastcdr::Cdr::DDS_CDR);
    if (sermsg(ros_data, ser, [&header](eprosima::fastcdr::Cdr& ser) { ser << header->guid; ser << header->seq; }, cs->pub->ts)) {
        return rmw_write_ser(cs->pub->pubh, ser);
    } else {
        RMW_SET_ERROR_MSG("cannot serialize data");
        return RMW_RET_ERROR;
    }
}

extern "C" rmw_ret_t rmw_send_response(const rmw_service_t *service, rmw_request_id_t *request_header, void *ros_response)
{
    RET_WRONG_IMPLID(service);
    RET_NULL(request_header);
    RET_NULL(ros_response);
    CddsService *info = static_cast<CddsService *>(service->data);
    cdds_request_header_t header;
    memcpy(&header.guid, request_header->writer_guid, sizeof(header.guid));
    header.seq = request_header->sequence_number;
    return rmw_send_response_request(&info->service, &header, ros_response);
}

extern "C" rmw_ret_t rmw_send_request(const rmw_client_t *client, const void *ros_request, int64_t *sequence_id)
{
    static std::atomic_uint next_request_id;
    RET_WRONG_IMPLID(client);
    RET_NULL(ros_request);
    RET_NULL(sequence_id);
    auto info = static_cast<CddsClient *>(client->data);
    cdds_request_header_t header;
    header.guid = info->client.pub->pubiid;
    header.seq = *sequence_id = next_request_id++;
    return rmw_send_response_request(&info->client, &header, ros_request);
}

static const rosidl_service_type_support_t *get_service_typesupport(const rosidl_service_type_support_t *type_supports)
{
    const rosidl_service_type_support_t *ts;
    if ((ts = get_service_typesupport_handle(type_supports, rosidl_typesupport_introspection_c__identifier)) != nullptr) {
        return ts;
    } else if ((ts = get_service_typesupport_handle(type_supports, rosidl_typesupport_introspection_cpp::typesupport_identifier)) != nullptr) {
        return ts;
    } else {
        RMW_SET_ERROR_MSG("service type support not from this implementation");
        return nullptr;
    }
}
    
static rmw_ret_t rmw_init_cs(CddsCS *cs, const rmw_node_t *node, const rosidl_service_type_support_t *type_supports, const char *service_name, const rmw_qos_profile_t *qos_policies, bool is_service)
{
    RET_WRONG_IMPLID(node);
    RET_NULL_OR_EMPTYSTR(service_name);
    RET_NULL(qos_policies);
    auto node_impl = static_cast<CddsNode *>(node->data);
    RET_NULL(node_impl);
    const rosidl_service_type_support_t *type_support = get_service_typesupport(type_supports);
    RET_NULL(type_support);

    auto pub = new CddsPublisher();
    auto sub = new CddsSubscription();
    std::string subtopic_name, pubtopic_name;
    pub->ts.typesupport_identifier_ = type_support->typesupport_identifier;
    sub->ts.typesupport_identifier_ = type_support->typesupport_identifier;
    if (is_service) {
        sub->ts.type_support_ = create_request_type_support(type_support->data, type_support->typesupport_identifier);
        pub->ts.type_support_ = create_response_type_support(type_support->data, type_support->typesupport_identifier);
        subtopic_name = make_fqtopic(ros_service_requester_prefix, service_name, "_request", qos_policies);
        pubtopic_name = make_fqtopic(ros_service_response_prefix, service_name, "_reply", qos_policies);
    } else {
        pub->ts.type_support_ = create_request_type_support(type_support->data, type_support->typesupport_identifier);
        sub->ts.type_support_ = create_response_type_support(type_support->data, type_support->typesupport_identifier);
        pubtopic_name = make_fqtopic(ros_service_requester_prefix, service_name, "_request", qos_policies);
        subtopic_name = make_fqtopic(ros_service_response_prefix, service_name, "_reply", qos_policies);
    }

    RCUTILS_LOG_DEBUG_NAMED("rmw_cyclonedds_cpp", "************ %s Details *********", is_service ? "Service" : "Client")
        RCUTILS_LOG_DEBUG_NAMED("rmw_cyclonedds_cpp", "Sub Topic %s", subtopic_name.c_str())
        RCUTILS_LOG_DEBUG_NAMED("rmw_cyclonedds_cpp", "Pub Topic %s", pubtopic_name.c_str())
        RCUTILS_LOG_DEBUG_NAMED("rmw_cyclonedds_cpp", "***********")

        dds_entity_t pubtopic, subtopic;
    dds_qos_t *qos;
    if ((pubtopic = dds_create_topic(gcdds.ppant, &rmw_cyclonedds_topic_desc, pubtopic_name.c_str(), nullptr, nullptr)) < 0) {
        RMW_SET_ERROR_MSG("failed to create topic");
        goto fail_pubtopic;
    }
    if ((subtopic = dds_create_topic(gcdds.ppant, &rmw_cyclonedds_topic_desc, subtopic_name.c_str(), nullptr, nullptr)) < 0) {
        RMW_SET_ERROR_MSG("failed to create topic");
        goto fail_subtopic;
    }
    if ((qos = dds_qos_create()) == nullptr) {
        goto fail_qos;
    }
    dds_qset_reliability(qos, DDS_RELIABILITY_RELIABLE, DDS_SECS(1));
    dds_qset_history(qos, DDS_HISTORY_KEEP_ALL, DDS_LENGTH_UNLIMITED);
    if ((pub->pubh = dds_create_writer(gcdds.ppant, pubtopic, qos, nullptr)) < 0) {
        RMW_SET_ERROR_MSG("failed to create writer");
        goto fail_writer;
    }
    sub->node = node_impl;
    if ((sub->subh = dds_create_reader(gcdds.ppant, subtopic, qos, nullptr)) < 0) {
        RMW_SET_ERROR_MSG("failed to create reader");
        goto fail_reader;
    }
    if ((sub->rdcondh = dds_create_readcondition(sub->subh, DDS_ANY_STATE)) < 0) {
        RMW_SET_ERROR_MSG("failed to create readcondition");
        goto fail_readcond;
    }
    if (dds_get_instance_handle(pub->pubh, &pub->pubiid) < 0) {
        RMW_SET_ERROR_MSG("failed to get instance handle for writer");
        goto fail_instance_handle;
    }
    dds_qos_delete(qos);
    node_impl->own_writers.insert(pub->pubiid);

    cs->pub = pub;
    cs->sub = sub;
    return RMW_RET_OK;

 fail_instance_handle:
    dds_delete(sub->rdcondh);
 fail_readcond:
    dds_delete(sub->subh);
 fail_reader:
    dds_delete(pub->pubh);
 fail_writer:
    dds_qos_delete(qos);
 fail_qos:
    /* leak subtopic */
 fail_subtopic:
    /* leak pubtopic */
 fail_pubtopic:
    return RMW_RET_ERROR;
}

static void rmw_fini_cs(CddsCS *cs)
{
    dds_delete(cs->sub->rdcondh);
    dds_delete(cs->sub->subh);
    dds_delete(cs->pub->pubh);
    cs->sub->node->own_writers.erase(cs->pub->pubiid);        
}

extern "C" rmw_client_t *rmw_create_client(const rmw_node_t *node, const rosidl_service_type_support_t *type_supports, const char *service_name, const rmw_qos_profile_t *qos_policies)
{
    CddsClient *info = new CddsClient();
    if (rmw_init_cs(&info->client, node, type_supports, service_name, qos_policies, false) != RMW_RET_OK) {
        delete(info);
        return nullptr;
    }
    rmw_client_t *rmw_client = rmw_client_allocate();
    RET_NULL_X(rmw_client, goto fail_client);
    rmw_client->implementation_identifier = adlink_cyclonedds_identifier;
    rmw_client->data = info;
    rmw_client->service_name = reinterpret_cast<const char *>(rmw_allocate(strlen(service_name) + 1));
    RET_NULL_X(rmw_client->service_name, goto fail_service_name);
    memcpy(const_cast<char *>(rmw_client->service_name), service_name, strlen(service_name) + 1);
    return rmw_client;
 fail_service_name:
    rmw_client_free(rmw_client);
 fail_client:
    rmw_fini_cs(&info->client);
    return nullptr;
}

extern "C" rmw_ret_t rmw_destroy_client(rmw_node_t *node, rmw_client_t *client)
{
    RET_WRONG_IMPLID(node);
    RET_WRONG_IMPLID(client);
    auto info = static_cast<CddsClient *>(client->data);
    rmw_fini_cs(&info->client);
    rmw_free(const_cast<char *>(client->service_name));
    rmw_client_free(client);
    return RMW_RET_OK;
}

extern "C" rmw_service_t *rmw_create_service(const rmw_node_t *node, const rosidl_service_type_support_t *type_supports, const char *service_name, const rmw_qos_profile_t *qos_policies)
{
    CddsService *info = new CddsService();
    if (rmw_init_cs(&info->service, node, type_supports, service_name, qos_policies, true) != RMW_RET_OK) {
        delete(info);
        return nullptr;
    }
    rmw_service_t *rmw_service = rmw_service_allocate();
    RET_NULL_X(rmw_service, goto fail_service);
    rmw_service->implementation_identifier = adlink_cyclonedds_identifier;
    rmw_service->data = info;
    rmw_service->service_name = reinterpret_cast<const char *>(rmw_allocate(strlen(service_name) + 1));
    RET_NULL_X(rmw_service->service_name, goto fail_service_name);
    memcpy(const_cast<char *>(rmw_service->service_name), service_name, strlen(service_name) + 1);
    return rmw_service;
 fail_service_name:
    rmw_service_free(rmw_service);
 fail_service:
    rmw_fini_cs(&info->service);
    return nullptr;
}

extern "C" rmw_ret_t rmw_destroy_service(rmw_node_t *node, rmw_service_t *service)
{
    RET_WRONG_IMPLID(node);
    RET_WRONG_IMPLID(service);
    auto info = static_cast<CddsService *>(service->data);
    rmw_fini_cs(&info->service);
    rmw_free(const_cast<char *>(service->service_name));
    rmw_service_free(service);
    return RMW_RET_OK;
}

/////////////////////////////////////////////////////////////////////////////////////////
///////////                                                                   ///////////
///////////    INTROSPECTION                                                  ///////////
///////////                                                                   ///////////
/////////////////////////////////////////////////////////////////////////////////////////
  
extern "C" rmw_ret_t rmw_get_node_names(const rmw_node_t *node, rcutils_string_array_t *node_names)
{
#if 0 // NIY
    RET_WRONG_IMPLID(node);
    if (rmw_check_zero_rmw_string_array(node_names) != RMW_RET_OK) {
        return RMW_RET_ERROR;
    }

    auto impl = static_cast<CddsNode *>(node->data);

    // FIXME: sorry, can't do it with current Zenoh
    auto participant_names = std::vector<std::string>{};
    rcutils_allocator_t allocator = rcutils_get_default_allocator();
    rcutils_ret_t rcutils_ret =
        rcutils_string_array_init(node_names, participant_names.size(), &allocator);
    if (rcutils_ret != RCUTILS_RET_OK) {
        RMW_SET_ERROR_MSG(rcutils_get_error_string_safe())
            return rmw_convert_rcutils_ret_to_rmw_ret(rcutils_ret);
    }
    for (size_t i = 0; i < participant_names.size(); ++i) {
        node_names->data[i] = rcutils_strdup(participant_names[i].c_str(), allocator);
        if (!node_names->data[i]) {
            RMW_SET_ERROR_MSG("failed to allocate memory for node name")
                rcutils_ret = rcutils_string_array_fini(node_names);
            if (rcutils_ret != RCUTILS_RET_OK) {
                RCUTILS_LOG_ERROR_NAMED(
                        "rmw_cyclonedds_cpp",
                        "failed to cleanup during error handling: %s", rcutils_get_error_string_safe())
                    }
            return RMW_RET_BAD_ALLOC;
        }
    }
    return RMW_RET_OK;
#else
    (void)node; (void)node_names;
    return RMW_RET_TIMEOUT;
#endif
}

extern "C" rmw_ret_t rmw_get_topic_names_and_types(const rmw_node_t *node, rcutils_allocator_t *allocator, bool no_demangle, rmw_names_and_types_t *topic_names_and_types)
{
#if 0 // NIY
    RET_NULL(allocator);
    RET_WRONG_IMPLID(node);
    rmw_ret_t ret = rmw_names_and_types_check_zero(topic_names_and_types);
    if (ret != RMW_RET_OK) {
        return ret;
    }

    auto impl = static_cast<CustomParticipantInfo *>(node->data);

    // Access the slave Listeners, which are the ones that have the topicnamesandtypes member
    // Get info from publisher and subscriber
    // Combined results from the two lists
    std::map<std::string, std::set<std::string>> topics;
    {
        ReaderInfo * slave_target = impl->secondarySubListener;
        slave_target->mapmutex.lock();
        for (auto it : slave_target->topicNtypes) {
            if (!no_demangle && _get_ros_prefix_if_exists(it.first) != ros_topic_prefix) {
                // if we are demangling and this is not prefixed with rt/, skip it
                continue;
            }
            for (auto & itt : it.second) {
                topics[it.first].insert(itt);
            }
        }
        slave_target->mapmutex.unlock();
    }
    {
        WriterInfo * slave_target = impl->secondaryPubListener;
        slave_target->mapmutex.lock();
        for (auto it : slave_target->topicNtypes) {
            if (!no_demangle && _get_ros_prefix_if_exists(it.first) != ros_topic_prefix) {
                // if we are demangling and this is not prefixed with rt/, skip it
                continue;
            }
            for (auto & itt : it.second) {
                topics[it.first].insert(itt);
            }
        }
        slave_target->mapmutex.unlock();
    }

    // Copy data to results handle
    if (topics.size() > 0) {
        // Setup string array to store names
        rmw_ret_t rmw_ret = rmw_names_and_types_init(topic_names_and_types, topics.size(), allocator);
        if (rmw_ret != RMW_RET_OK) {
            return rmw_ret;
        }
        // Setup cleanup function, in case of failure below
        auto fail_cleanup = [&topic_names_and_types]() {
                                rmw_ret_t rmw_ret = rmw_names_and_types_fini(topic_names_and_types);
                                if (rmw_ret != RMW_RET_OK) {
                                    RCUTILS_LOG_ERROR_NAMED(
                                            "rmw_cyclonedds_cpp",
                                            "error during report of error: %s", rmw_get_error_string_safe())
                                        }
                            };
        // Setup demangling functions based on no_demangle option
        auto demangle_topic = _demangle_if_ros_topic;
        auto demangle_type = _demangle_if_ros_type;
        if (no_demangle) {
            auto noop = [](const std::string & in) {
                            return in;
                        };
            demangle_topic = noop;
            demangle_type = noop;
        }
        // For each topic, store the name, initialize the string array for types, and store all types
        size_t index = 0;
        for (const auto & topic_n_types : topics) {
            // Duplicate and store the topic_name
            char * topic_name = rcutils_strdup(demangle_topic(topic_n_types.first).c_str(), *allocator);
            if (!topic_name) {
                RMW_SET_ERROR_MSG_ALLOC("failed to allocate memory for topic name", *allocator);
                fail_cleanup();
                return RMW_RET_BAD_ALLOC;
            }
            topic_names_and_types->names.data[index] = topic_name;
            // Setup storage for types
            {
                rcutils_ret_t rcutils_ret = rcutils_string_array_init(
                        &topic_names_and_types->types[index],
                        topic_n_types.second.size(),
                        allocator);
                if (rcutils_ret != RCUTILS_RET_OK) {
                    RMW_SET_ERROR_MSG(rcutils_get_error_string_safe())
                        fail_cleanup();
                    return rmw_convert_rcutils_ret_to_rmw_ret(rcutils_ret);
                }
            }
            // Duplicate and store each type for the topic
            size_t type_index = 0;
            for (const auto & type : topic_n_types.second) {
                char * type_name = rcutils_strdup(demangle_type(type).c_str(), *allocator);
                if (!type_name) {
                    RMW_SET_ERROR_MSG_ALLOC("failed to allocate memory for type name", *allocator)
                        fail_cleanup();
                    return RMW_RET_BAD_ALLOC;
                }
                topic_names_and_types->types[index].data[type_index] = type_name;
                ++type_index;
            }  // for each type
            ++index;
        }  // for each topic
    }
    return RMW_RET_OK;
#else
    (void)node; (void)allocator; (void)no_demangle; (void)topic_names_and_types;
    return RMW_RET_TIMEOUT;
#endif
}

extern "C" rmw_ret_t rmw_get_service_names_and_types(const rmw_node_t *node, rcutils_allocator_t *allocator, rmw_names_and_types_t *service_names_and_types)
{
#if 0 // NIY
    if (!allocator) {
        RMW_SET_ERROR_MSG("allocator is null")
            return RMW_RET_INVALID_ARGUMENT;
    }
    if (!node) {
        RMW_SET_ERROR_MSG_ALLOC("null node handle", *allocator)
            return RMW_RET_INVALID_ARGUMENT;
    }
    rmw_ret_t ret = rmw_names_and_types_check_zero(service_names_and_types);
    if (ret != RMW_RET_OK) {
        return ret;
    }

    // Get participant pointer from node
    if (node->implementation_identifier != adlink_cyclonedds_identifier) {
        RMW_SET_ERROR_MSG_ALLOC("node handle not from this implementation", *allocator);
        return RMW_RET_ERROR;
    }

    auto impl = static_cast<CustomParticipantInfo *>(node->data);

    // Access the slave Listeners, which are the ones that have the topicnamesandtypes member
    // Get info from publisher and subscriber
    // Combined results from the two lists
    std::map<std::string, std::set<std::string>> services;
    {
        ReaderInfo * slave_target = impl->secondarySubListener;
        slave_target->mapmutex.lock();
        for (auto it : slave_target->topicNtypes) {
            std::string service_name = _demangle_service_from_topic(it.first);
            if (!service_name.length()) {
                // not a service
                continue;
            }
            for (auto & itt : it.second) {
                std::string service_type = _demangle_service_type_only(itt);
                if (service_type.length()) {
                    services[service_name].insert(service_type);
                }
            }
        }
        slave_target->mapmutex.unlock();
    }
    {
        WriterInfo * slave_target = impl->secondaryPubListener;
        slave_target->mapmutex.lock();
        for (auto it : slave_target->topicNtypes) {
            std::string service_name = _demangle_service_from_topic(it.first);
            if (!service_name.length()) {
                // not a service
                continue;
            }
            for (auto & itt : it.second) {
                std::string service_type = _demangle_service_type_only(itt);
                if (service_type.length()) {
                    services[service_name].insert(service_type);
                }
            }
        }
        slave_target->mapmutex.unlock();
    }

    // Fill out service_names_and_types
    if (services.size()) {
        // Setup string array to store names
        rmw_ret_t rmw_ret =
            rmw_names_and_types_init(service_names_and_types, services.size(), allocator);
        if (rmw_ret != RMW_RET_OK) {
            return rmw_ret;
        }
        // Setup cleanup function, in case of failure below
        auto fail_cleanup = [&service_names_and_types]() {
                                rmw_ret_t rmw_ret = rmw_names_and_types_fini(service_names_and_types);
                                if (rmw_ret != RMW_RET_OK) {
                                    RCUTILS_LOG_ERROR_NAMED(
                                            "rmw_cyclonedds_cpp",
                                            "error during report of error: %s", rmw_get_error_string_safe())
                                        }
                            };
        // For each service, store the name, initialize the string array for types, and store all types
        size_t index = 0;
        for (const auto & service_n_types : services) {
            // Duplicate and store the service_name
            char * service_name = rcutils_strdup(service_n_types.first.c_str(), *allocator);
            if (!service_name) {
                RMW_SET_ERROR_MSG_ALLOC("failed to allocate memory for service name", *allocator);
                fail_cleanup();
                return RMW_RET_BAD_ALLOC;
            }
            service_names_and_types->names.data[index] = service_name;
            // Setup storage for types
            {
                rcutils_ret_t rcutils_ret = rcutils_string_array_init(
                        &service_names_and_types->types[index],
                        service_n_types.second.size(),
                        allocator);
                if (rcutils_ret != RCUTILS_RET_OK) {
                    RMW_SET_ERROR_MSG(rcutils_get_error_string_safe())
                        fail_cleanup();
                    return rmw_convert_rcutils_ret_to_rmw_ret(rcutils_ret);
                }
            }
            // Duplicate and store each type for the service
            size_t type_index = 0;
            for (const auto & type : service_n_types.second) {
                char * type_name = rcutils_strdup(type.c_str(), *allocator);
                if (!type_name) {
                    RMW_SET_ERROR_MSG_ALLOC("failed to allocate memory for type name", *allocator)
                        fail_cleanup();
                    return RMW_RET_BAD_ALLOC;
                }
                service_names_and_types->types[index].data[type_index] = type_name;
                ++type_index;
            }  // for each type
            ++index;
        }  // for each service
    }
    return RMW_RET_OK;
#else
    (void)node; (void)allocator; (void)service_names_and_types;
    return RMW_RET_TIMEOUT;
#endif
}

extern "C" rmw_ret_t rmw_service_server_is_available(const rmw_node_t * node, const rmw_client_t * client, bool * is_available)
{
#if 0 // NIY
    if (!node) {
        RMW_SET_ERROR_MSG("node handle is null");
        return RMW_RET_ERROR;
    }

    RMW_CHECK_TYPE_IDENTIFIERS_MATCH(
            node handle,
            node->implementation_identifier, adlink_cyclonedds_identifier,
            return RMW_RET_ERROR);

    if (!client) {
        RMW_SET_ERROR_MSG("client handle is null");
        return RMW_RET_ERROR;
    }

    if (!is_available) {
        RMW_SET_ERROR_MSG("is_available is null");
        return RMW_RET_ERROR;
    }

    auto client_info = static_cast<CustomClientInfo *>(client->data);
    if (!client_info) {
        RMW_SET_ERROR_MSG("client info handle is null");
        return RMW_RET_ERROR;
    }

    auto pub_topic_name =
        client_info->request_publisher_->getAttributes().topic.getTopicName();
    auto pub_partitions =
        client_info->request_publisher_->getAttributes().qos.m_partition.getNames();
    // every rostopic has exactly 1 partition field set
    if (pub_partitions.size() != 1) {
        RCUTILS_LOG_ERROR_NAMED(
                "rmw_cyclonedds_cpp",
                "Topic %s is not a ros topic", pub_topic_name.c_str())
            RMW_SET_ERROR_MSG((std::string(pub_topic_name) + " is a non-ros topic\n").c_str());
        return RMW_RET_ERROR;
    }
    auto pub_fqdn = pub_partitions[0] + "/" + pub_topic_name;
    pub_fqdn = _demangle_if_ros_topic(pub_fqdn);

    auto sub_topic_name =
        client_info->response_subscriber_->getAttributes().topic.getTopicName();
    auto sub_partitions =
        client_info->response_subscriber_->getAttributes().qos.m_partition.getNames();
    // every rostopic has exactly 1 partition field set
    if (sub_partitions.size() != 1) {
        RCUTILS_LOG_ERROR_NAMED(
                "rmw_cyclonedds_cpp",
                "Topic %s is not a ros topic", pub_topic_name.c_str())
            RMW_SET_ERROR_MSG((std::string(sub_topic_name) + " is a non-ros topic\n").c_str());
        return RMW_RET_ERROR;
    }
    auto sub_fqdn = sub_partitions[0] + "/" + sub_topic_name;
    sub_fqdn = _demangle_if_ros_topic(sub_fqdn);

    *is_available = false;
    size_t number_of_request_subscribers = 0;
    rmw_ret_t ret = rmw_count_subscribers(
            node,
            pub_fqdn.c_str(),
            &number_of_request_subscribers);
    if (ret != RMW_RET_OK) {
        // error string already set
        return ret;
    }
    if (number_of_request_subscribers == 0) {
        // not ready
        return RMW_RET_OK;
    }

    size_t number_of_response_publishers = 0;
    ret = rmw_count_publishers(
            node,
            sub_fqdn.c_str(),
            &number_of_response_publishers);
    if (ret != RMW_RET_OK) {
        // error string already set
        return ret;
    }
    if (number_of_response_publishers == 0) {
        // not ready
        return RMW_RET_OK;
    }

    // all conditions met, there is a service server available
    *is_available = true;
    return RMW_RET_OK;
#else
    (void)node; (void)client; (void)is_available;
    return RMW_RET_TIMEOUT;
#endif
}
    
extern "C" rmw_ret_t rmw_count_publishers(const rmw_node_t *node, const char *topic_name, size_t *count)
{
#if 0
    // safechecks

    if (!node) {
        RMW_SET_ERROR_MSG("null node handle");
        return RMW_RET_ERROR;
    }
    // Get participant pointer from node
    if (node->implementation_identifier != eprosima_fastrtps_identifier) {
        RMW_SET_ERROR_MSG("node handle not from this implementation");
        return RMW_RET_ERROR;
    }

    auto impl = static_cast<CustomParticipantInfo *>(node->data);

    WriterInfo * slave_target = impl->secondaryPubListener;
    slave_target->mapmutex.lock();
    *count = 0;
    for (auto it : slave_target->topicNtypes) {
        auto topic_fqdn = _demangle_if_ros_topic(it.first);
        if (topic_fqdn == topic_name) {
            *count += it.second.size();
        }
    }
    slave_target->mapmutex.unlock();

    RCUTILS_LOG_DEBUG_NAMED(
            "rmw_fastrtps_cpp",
            "looking for subscriber topic: %s, number of matches: %zu",
            topic_name, *count)

        return RMW_RET_OK;
#else
    (void)node; (void)topic_name; (void)count;
    return RMW_RET_TIMEOUT;
#endif
}

extern "C" rmw_ret_t rmw_count_subscribers(const rmw_node_t *node, const char *topic_name, size_t *count)
{
#if 0
    // safechecks

    if (!node) {
        RMW_SET_ERROR_MSG("null node handle");
        return RMW_RET_ERROR;
    }
    // Get participant pointer from node
    if (node->implementation_identifier != eprosima_fastrtps_identifier) {
        RMW_SET_ERROR_MSG("node handle not from this implementation");
        return RMW_RET_ERROR;
    }

    CustomParticipantInfo * impl = static_cast<CustomParticipantInfo *>(node->data);

    ReaderInfo * slave_target = impl->secondarySubListener;
    *count = 0;
    slave_target->mapmutex.lock();
    for (auto it : slave_target->topicNtypes) {
        auto topic_fqdn = _demangle_if_ros_topic(it.first);
        if (topic_fqdn == topic_name) {
            *count += it.second.size();
        }
    }
    slave_target->mapmutex.unlock();

    RCUTILS_LOG_DEBUG_NAMED(
            "rmw_fastrtps_cpp",
            "looking for subscriber topic: %s, number of matches: %zu",
            topic_name, *count)

        return RMW_RET_OK;
#else
    (void)node; (void)topic_name; (void)count;
    return RMW_RET_TIMEOUT;
#endif
}