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#include "node_info.h"
#include "proto/nodeinstance/info/v1/info.pb.h"
#include "schema_wrapper_utils.h"
static int generate_node_info(nodeinstance::info::v1::NodeInfo *info, struct aclk_node_info *data)
{
google::protobuf::Map<std::string, std::string> *map;
if (data->name)
info->set_name(data->name);
if (data->os)
info->set_os(data->os);
if (data->os_name)
info->set_os_name(data->os_name);
if (data->os_version)
info->set_os_version(data->os_version);
if (data->kernel_name)
info->set_kernel_name(data->kernel_name);
if (data->kernel_version)
info->set_kernel_version(data->kernel_version);
if (data->architecture)
info->set_architecture(data->architecture);
info->set_cpus(data->cpus);
if (data->cpu_frequency)
info->set_cpu_frequency(data->cpu_frequency);
if (data->memory)
info->set_memory(data->memory);
if (data->disk_space)
info->set_disk_space(data->disk_space);
if (data->version)
info->set_version(data->version);
if (data->release_channel)
info->set_release_channel(data->release_channel);
if (data->timezone)
info->set_timezone(data->timezone);
if (data->virtualization_type)
info->set_virtualization_type(data->virtualization_type);
if (data->container_type)
info->set_container_type(data->container_type);
if (data->custom_info)
info->set_custom_info(data->custom_info);
if (data->machine_guid)
info->set_machine_guid(data->machine_guid);
nodeinstance::info::v1::MachineLearningInfo *ml_info = info->mutable_ml_info();
ml_info->set_ml_capable(data->ml_info.ml_capable);
ml_info->set_ml_enabled(data->ml_info.ml_enabled);
map = info->mutable_host_labels();
rrdlabels_walkthrough_read(data->host_labels_ptr, label_add_to_map_callback, map);
return 0;
}
char *generate_update_node_info_message(size_t *len, struct update_node_info *info)
{
nodeinstance::info::v1::UpdateNodeInfo msg;
msg.set_node_id(info->node_id);
msg.set_claim_id(info->claim_id);
if (generate_node_info(msg.mutable_data(), &info->data))
return NULL;
set_google_timestamp_from_timeval(info->updated_at, msg.mutable_updated_at());
msg.set_machine_guid(info->machine_guid);
msg.set_child(info->child);
nodeinstance::info::v1::MachineLearningInfo *ml_info = msg.mutable_ml_info();
ml_info->set_ml_capable(info->ml_info.ml_capable);
ml_info->set_ml_enabled(info->ml_info.ml_enabled);
struct capability *capa;
if (info->node_capabilities) {
capa = info->node_capabilities;
while (capa->name) {
aclk_lib::v1::Capability *proto_capa = msg.mutable_node_info()->add_capabilities();
capability_set(proto_capa, capa);
capa++;
}
}
if (info->node_instance_capabilities) {
capa = info->node_instance_capabilities;
while (capa->name) {
aclk_lib::v1::Capability *proto_capa = msg.mutable_node_instance_info()->add_capabilities();
capability_set(proto_capa, capa);
capa++;
}
}
*len = PROTO_COMPAT_MSG_SIZE(msg);
char *bin = (char*)mallocz(*len);
if (bin)
msg.SerializeToArray(bin, *len);
return bin;
}
char *generate_update_node_collectors_message(size_t *len, struct update_node_collectors *upd_node_collectors)
{
nodeinstance::info::v1::UpdateNodeCollectors msg;
msg.set_node_id(upd_node_collectors->node_id);
msg.set_claim_id(upd_node_collectors->claim_id);
void *colls;
dfe_start_read(upd_node_collectors->node_collectors, colls) {
struct collector_info *c =(struct collector_info *)colls;
nodeinstance::info::v1::CollectorInfo *col = msg.add_collectors();
col->set_plugin(c->plugin);
col->set_module(c->module);
}
dfe_done(colls);
*len = PROTO_COMPAT_MSG_SIZE(msg);
char *bin = (char*)mallocz(*len);
if (bin)
msg.SerializeToArray(bin, *len);
return bin;
}
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