#include #include #include #include #include #include "mesh_connector.h" using std::pair; void CDMeshConnector::refresh_config_sync() {} void CDMeshConnector::refresh_nodes_sync() {} cd_link_t CDMeshConnector::get_new_link_id() { return _fresh_link_id++; } cd_uid_t CDMeshConnector::get_new_node_id() { return _fresh_node_id++; } CDMeshConnector::CDMeshConnector() { // cd_uid_t berta = create_node({ // .address = {0x00, 0xff, 0x21, 0x69, 0xf2, 0x31}, // .name_len = 5, // .name = "berta", // .light_on = false, // .provisioned = false, // }); // cd_uid_t gerrit = create_node({ // .address = {0x0e, 0xf9, 0x46, 0x4d, 0xe8, 0x02}, // .name_len = 6, // .name = "gerrit", // .light_on = false, // .provisioned = false, // }); // create_link(berta, berta, CD_AUTOMATION_TYPE_TOGGLE); // create_link(berta, berta, CD_AUTOMATION_TYPE_TOGGLE); // create_link(gerrit, berta, CD_AUTOMATION_TYPE_TURN_OFF); // create_link(gerrit, gerrit, CD_AUTOMATION_TYPE_TURN_ON); return; } cd_uid_t CDMeshConnector::create_node(cd_s_node node) { cd_s_node *_node = (cd_s_node *)malloc(sizeof(cd_s_node)); // id cd_uid_t id = get_new_node_id(); _node->id = id; // address memcpy(_node->address, node.address, sizeof(cd_mac_addr_t)); // name len _node->name_len = node.name_len; // name char *name = (char *)malloc(node.name_len); memcpy(name, node.name, node.name_len); _node->name = name; // light on _node->light_on = node.light_on; // provisioned _node->provisioned = node.provisioned; printf("(new) node[%d] = %.*s\n", id, (int)node.name_len, node.name); _nodes[id] = _node; return id; } CDMeshConnector::~CDMeshConnector() { // free all automation structs for (pair link : _links) remove_link(link.first); // free all node structs for (pair node : _nodes) remove_node(node.first); return; } map CDMeshConnector::get_nodes(bool provisioned) { if (provisioned == false) return _nodes; // filter only if provisioned nodes are desired map nodes; for (pair node : _nodes) { if (node.second->provisioned == false) continue; nodes[node.first] = node.second; } return nodes; } map CDMeshConnector::get_links(bool valid) { if (valid == false) return _links; // filter only if valid links are desired map links; for (pair link : _links) { if (link.second->valid == false) continue; links[link.first] = link.second; } return links; } void CDMeshConnector::update_link(cd_s_automation *automation) { printf("link[%d]", automation->id); if (automation->valid) { printf(" = %.*s %s %.*s", (int)automation->button->name_len, automation->button->name, automation->type == CD_AUTOMATION_TYPE_TOGGLE ? "toggles" : automation->type == CD_AUTOMATION_TYPE_TURN_OFF ? "turns off" : "turns on", (int)automation->light->name_len, automation->light->name); } else { printf(" (invalid)"); } printf("\n"); } cd_link_t CDMeshConnector::create_link(cd_uid_t button, cd_uid_t light, enum cd_e_automation_type type) { cd_link_t id = get_new_link_id(); cd_s_automation *automation = (cd_s_automation *)malloc(sizeof(cd_s_automation)); automation->id = id; automation->type = type; automation->button = _nodes[button]; automation->light = _nodes[light]; automation->valid = true; printf("(new) "); _links[id] = automation; update_link(automation); return id; } cd_link_t CDMeshConnector::create_link() { cd_link_t id = get_new_link_id(); cd_s_automation *automation = (cd_s_automation *)malloc(sizeof(cd_s_automation)); automation->id = id; automation->type = CD_AUTOMATION_TYPE_TOGGLE; automation->button = nullptr; automation->light = nullptr; automation->valid = false; printf("(new) "); _links[id] = automation; update_link(automation); return id; } void CDMeshConnector::remove_link(cd_link_t link_handle) { printf("remove link[%d]\n", link_handle); if (_links[link_handle] != nullptr) free(_links[link_handle]); _links[link_handle] = nullptr; return; } void CDMeshConnector::remove_node(cd_uid_t node_handle) { printf("remove node[%d]\n", node_handle); if (_nodes[node_handle] != nullptr) free(_nodes[node_handle]); _nodes[node_handle] = nullptr; return; } void CDMeshConnector::update_node(cd_s_node *node_ptr) { printf("turning %.*s %s\n", (int)node_ptr->name_len, node_ptr->name, node_ptr->light_on ? "on" : "off"); return; } void CDMeshConnector::network_join_node(cd_s_node *node_ptr) { node_ptr->provisioned = true; printf("join %.*s into network\n", (int)node_ptr->name_len, node_ptr->name); return; } void CDMeshConnector::network_remove_node(cd_s_node *node_ptr) { node_ptr->provisioned = false; printf("remove %.*s from network\n", (int)node_ptr->name_len, node_ptr->name); return; } string CDMeshConnector::cd_mac_to_string(cd_mac_addr_t mac) { char *addr = nullptr; asprintf(&addr, "%02x:%02x:%02x:%02x:%02x:%02x", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]); string ret = addr; free(addr); return ret; } string CDMeshConnector::cd_uuid_to_string(cd_uuid_t uuid) { char *addr = nullptr; asprintf(&addr, "%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x", uuid[15], uuid[14], uuid[13], uuid[12], uuid[11], uuid[10], uuid[9], uuid[8], uuid[7], uuid[6], uuid[5], uuid[4], uuid[3], uuid[2], uuid[1], uuid[0]); string ret = addr; free(addr); return ret; } cd_s_automation *CDMeshConnector::get_link(cd_link_t id) { return _links[id]; } cd_s_node *CDMeshConnector::get_node(cd_uid_t id) { return _nodes[id]; }