// SoftEther VPN Source Code - Developer Edition Master Branch // Cedar Communication Module // Admin.c // RPC Module for Management #include "CedarPch.h" // Macro for RPC function declaration #define DECLARE_RPC_EX(rpc_name, data_type, function, in_rpc, out_rpc, free_rpc) \ else if (StrCmpi(name, rpc_name) == 0) \ { \ data_type *t; \ t = ZeroMalloc(sizeof(data_type)); \ in_rpc(t, p); \ err = function(a, t); \ if (err == ERR_NO_ERROR) \ { \ out_rpc(ret, t); \ } \ free_rpc(t); \ Free(t); \ ok = true; \ } #define DECLARE_RPC(rpc_name, data_type, function, in_rpc, out_rpc) \ else if (StrCmpi(name, rpc_name) == 0) \ { \ data_type *t; \ t = ZeroMalloc(sizeof(data_type)); \ in_rpc(t, p); \ err = function(a, t); \ if (err == ERR_NO_ERROR) \ { \ out_rpc(ret, t); \ } \ Free(t); \ ok = true; \ } #define DECLARE_SC_EX(rpc_name, data_type, function, in_rpc, out_rpc, free_rpc) \ UINT function(RPC *r, data_type *t) \ { \ PACK *p, *ret; \ UINT err; \ if (r == NULL || t == NULL) \ { \ return ERR_INTERNAL_ERROR; \ } \ p = NewPack(); \ out_rpc(p, t); \ free_rpc(t); \ Zero(t, sizeof(data_type)); \ ret = AdminCall(r, rpc_name, p); \ err = GetErrorFromPack(ret); \ if (err == ERR_NO_ERROR) \ { \ in_rpc(t, ret); \ } \ FreePack(ret); \ return err; \ } #define DECLARE_SC(rpc_name, data_type, function, in_rpc, out_rpc) \ UINT function(RPC *r, data_type *t) \ { \ PACK *p, *ret; \ UINT err; \ if (r == NULL || t == NULL) \ { \ return ERR_INTERNAL_ERROR; \ } \ p = NewPack(); \ out_rpc(p, t); \ ret = AdminCall(r, rpc_name, p); \ err = GetErrorFromPack(ret); \ if (err == ERR_NO_ERROR) \ { \ in_rpc(t, ret); \ } \ FreePack(ret); \ return err; \ } #define CHECK_RIGHT \ if (a->ServerAdmin == false && (StrCmpi(a->HubName, t->HubName) != 0)) \ return ERR_NOT_ENOUGH_RIGHT; \ if (IsEmptyStr(t->HubName)) \ return ERR_INVALID_PARAMETER; #define SERVER_ADMIN_ONLY \ if (a->ServerAdmin == false) \ return ERR_NOT_ENOUGH_RIGHT; #define NO_SUPPORT_FOR_BRIDGE \ if (a->Server->Cedar->Bridge) \ return ERR_NOT_SUPPORTED; // Get server Caps (Guessing from the build number if failed to get Caps) CAPSLIST *ScGetCapsEx(RPC *rpc) { RPC_SERVER_INFO info; CAPSLIST *t; bool is_bridge = false; // Validate arguments if (rpc == NULL) { return NULL; } Zero(&info, sizeof(info)); ScGetServerInfo(rpc, &info); t = ZeroMalloc(sizeof(CAPSLIST)); // Try to get Caps by RPC if (ScGetCaps(rpc, t) != ERR_NO_ERROR) { UINT build; Free(t); t = NewCapsList(); // Since acquisition of Caps went wrong, get build number build = info.ServerBuildInt; is_bridge = (SearchStrEx(info.ServerProductName, "bridge", 0, false) == INFINITE) ? false : true; AddCapsInt(t, "i_max_packet_size", 1514); if (is_bridge == false) { AddCapsInt(t, "i_max_hubs", 4096); AddCapsInt(t, "i_max_sessions", 4096); if (info.ServerType != SERVER_TYPE_FARM_MEMBER) { AddCapsInt(t, "i_max_users_per_hub", 10000); AddCapsInt(t, "i_max_groups_per_hub", 10000); AddCapsInt(t, "i_max_access_lists", 4096); } else { AddCapsInt(t, "i_max_users_per_hub", 0); AddCapsInt(t, "i_max_groups_per_hub", 0); AddCapsInt(t, "i_max_access_lists", 0); } } else { AddCapsInt(t, "i_max_hubs", 0); AddCapsInt(t, "i_max_sessions", 0); AddCapsInt(t, "i_max_users_per_hub", 0); AddCapsInt(t, "i_max_groups_per_hub", 0); AddCapsInt(t, "i_max_access_lists", 0); } AddCapsInt(t, "i_max_mac_tables", 10000); AddCapsInt(t, "i_max_ip_tables", 10000); if (info.ServerType == SERVER_TYPE_STANDALONE) { AddCapsBool(t, "b_support_securenat", (build >= 3600) ? true : false); AddCapsInt(t, "i_max_secnat_tables", 4096); } else { AddCapsBool(t, "b_support_securenat", false); AddCapsInt(t, "i_max_secnat_tables", 0); } if (is_bridge) { AddCapsBool(t, "b_bridge", true); } else if (info.ServerType == SERVER_TYPE_STANDALONE) { AddCapsBool(t, "b_standalone", true); } else if (info.ServerType == SERVER_TYPE_FARM_CONTROLLER) { AddCapsBool(t, "b_cluster_controller", true); } else { AddCapsBool(t, "b_cluster_member", true); } AddCapsBool(t, "b_support_config_hub", info.ServerType != SERVER_TYPE_FARM_MEMBER && is_bridge == false); AddCapsBool(t, "b_vpn_client_connect", is_bridge == false ? true : false); AddCapsBool(t, "b_support_radius", info.ServerType != SERVER_TYPE_FARM_MEMBER && is_bridge == false); if (build >= 3600) { RPC_BRIDGE_SUPPORT b; Zero(&b, sizeof(b)); if (ScGetBridgeSupport(rpc, &b) == ERR_NO_ERROR) { AddCapsBool(t, "b_local_bridge", b.IsBridgeSupportedOs); AddCapsBool(t, "b_must_install_pcap", b.IsWinPcapNeeded); } else { AddCapsBool(t, "b_local_bridge", false); AddCapsBool(t, "b_must_install_pcap", false); } } else { AddCapsBool(t, "b_local_bridge", false); AddCapsBool(t, "b_must_install_pcap", false); } AddCapsBool(t, "b_tap_supported", false); if (info.ServerType == SERVER_TYPE_STANDALONE) { AddCapsBool(t, "b_support_cascade", true); } else { AddCapsBool(t, "b_support_cascade", false); } AddCapsBool(t, "b_support_cascade_cert", false); AddCapsBool(t, "b_support_config_log", info.ServerType != SERVER_TYPE_FARM_MEMBER); AddCapsBool(t, "b_support_autodelete", false); } else { // Success getting Caps if (info.ServerBuildInt <= 4350) { if (is_bridge == false) { // b_support_cluster should be true for build 4300 or earlier CAPS *caps = GetCaps(t, "b_support_cluster"); if (caps == NULL) { AddCapsBool(t, "b_support_cluster", true); } else { caps->Value = 1; } } } } if (true) { TOKEN_LIST *names; // Fill items that doesn't exist in server-side as false names = GetTableNameStartWith("CT_b_"); if (names != NULL) { UINT i; for (i = 0;i < names->NumTokens;i++) { char *name = names->Token[i] + 3; if (GetCaps(t, name) == NULL) { AddCapsBool(t, name, false); } } FreeToken(names); } } FreeRpcServerInfo(&info); return t; } // Process server side include BUF *AdminWebProcessServerSideInclude(BUF *src_txt, char *filename, UINT depth) { char *src_str; UINT src_str_size; UINT i, len; BUF *ret = NULL; UINT pos = 0; char dirname[MAX_PATH]; if (src_txt == NULL || filename == NULL || depth >= 4) { return CloneBuf(src_txt); } if (EndWith(filename, ".html") == false) { // We process only .html files return CloneBuf(src_txt); } GetDirNameFromFilePath(dirname, sizeof(dirname), filename); src_str_size = src_txt->Size + 1; src_str = ZeroMalloc(src_str_size); Copy(src_str, src_txt->Buf, src_txt->Size); len = StrLen(src_str); ret = NewBuf(); for (i = 0;i < len;i++) { char *start_tag = ""; UINT x; Zero(inc_filename, sizeof(inc_filename)); StrCpy(inc_filename, sizeof(inc_filename), src_str + i + StrLen(start_tag) + 1); inc_filename[b - (i + StrLen(start_tag) + 1)] = 0; x = SearchStrEx(src_str, end_tag, b + 1, true); if ((x != INFINITE) && (x >= (b + 1))) { BUF *inc_buf; char full_inc_filename[MAX_PATH]; if (StartWith(inc_filename, "/")) { Format(full_inc_filename, sizeof(full_inc_filename), "|wwwroot/%s", inc_filename + 1); } else { StrCpy(full_inc_filename, sizeof(full_inc_filename), dirname); StrCat(full_inc_filename, sizeof(full_inc_filename), "/"); StrCat(full_inc_filename, sizeof(full_inc_filename), inc_filename); } Debug("dirname = %s, full_inc_filename (src) = %s\n\n", dirname, full_inc_filename); NormalizePath(full_inc_filename, sizeof(full_inc_filename), full_inc_filename); if (StartWith(full_inc_filename, "|wwwroot/") == false && StartWith(full_inc_filename, "|wwwroot\\") == false) { char tmp[MAX_PATH]; Format(tmp, sizeof(tmp), "|wwwroot/%s", full_inc_filename); StrCpy(full_inc_filename, sizeof(full_inc_filename), tmp); } Debug("inc_filename = %s\nfull_inc_filename = %s\n\n", inc_filename, full_inc_filename); inc_buf = ReadDump(full_inc_filename); if (inc_buf != NULL) { BUF *inc_buf2; inc_buf2 = AdminWebProcessServerSideInclude(inc_buf, full_inc_filename, depth + 1); BufSkipUtf8Bom(inc_buf2); WriteBufBufWithOffset(ret, inc_buf2); FreeBuf(inc_buf); FreeBuf(inc_buf2); } else { Debug("Loading SSI '%s' error.\n", inc_buf); } i = (x + StrLen(end_tag) - 1); is_ssi = true; } } } } if (is_ssi == false) { WriteBufChar(ret, src_str[i]); } } Free(src_str); return ret; } // Handle the file request bool AdminWebHandleFileRequest(ADMIN *a, CONNECTION *c, SOCK *s, HTTP_HEADER *h, char *url_src, char *query_string, char *virtual_root_dir, char *physical_root_dir) { bool ret = false; char url[MAX_PATH]; UINT i, len; if (a == NULL || c == NULL || s == NULL || h == NULL || query_string == NULL || virtual_root_dir == NULL || physical_root_dir == NULL) { return false; } StrCpy(url, sizeof(url), url_src); len = StrLen(url); for (i = 0;i < len;i++) { if (url[i] == '\\') { url[i] = '/'; } } // Is dangerous URL? if (InStr(url, "..") || InStr(url, "//") || InStr(url, "\\\\") || InStr(url, "/\\") || InStr(url, "\\/")) { ret = AdminWebSend404Error(s, h); } else { char filename[MAX_PATH]; bool is_index_file = false; BUF *b = AdminWebTryFindAndReadFile(virtual_root_dir, physical_root_dir, url, filename, sizeof(filename), &is_index_file); if (b == NULL) { ret = AdminWebSend404Error(s, h); } else { if (is_index_file && EndWith(url, "/") == false) { char url2[MAX_PATH]; StrCpy(url2, sizeof(url2), url); StrCat(url2, sizeof(url2), "/"); ret = AdminWebSend302Redirect(s, url2, query_string, h); } else if (is_index_file == false && EndWith(url, "/")) { char url2[MAX_PATH]; TrimEndWith(url2, sizeof(url2), url, "/"); ret = AdminWebSend302Redirect(s, url2, query_string, h); } else { BUF *b2 = AdminWebProcessServerSideInclude(b, filename, 0); char *mime = GetMimeTypeFromFileName(filename); if (mime == NULL) { mime = "application/octet-stream"; } ret = AdminWebSendBody(s, 200, "OK", b2->Buf, b2->Size, mime, NULL, NULL, h); FreeBuf(b2); } FreeBuf(b); } } return ret; } // Try to find a file, and if exists return the file contents BUF *AdminWebTryFindAndReadFile(char *vroot, char *proot, char *url, char *ret_filename, UINT ret_filename_size, bool *is_index_html) { char tmp[MAX_PATH]; char tmp2[MAX_PATH]; UINT vroot_len; UINT url_len; char relative_path[MAX_PATH]; BUF *b; if (vroot == NULL || proot == NULL || url == NULL || ret_filename == NULL || is_index_html == NULL) { return NULL; } *is_index_html = false; if (StartWith(url, vroot) == false) { return NULL; } vroot_len = StrLen(vroot); url_len = StrLen(url); StrCpy(relative_path, sizeof(relative_path), url + vroot_len); if (StartWith(relative_path, "/")) { char tmp3[MAX_PATH]; StrCpy(tmp3, sizeof(tmp3), relative_path + 1); StrCpy(relative_path, sizeof(relative_path), tmp3); } CombinePath(tmp, sizeof(tmp), proot, relative_path); // index.html CombinePath(tmp2, sizeof(tmp2), tmp, "index.html"); b = AdminWebTryOneFile(tmp2, ret_filename, ret_filename_size); if (b != NULL) { *is_index_html = true; return b; } // dirname/filename StrCpy(tmp2, sizeof(tmp2), tmp); b = AdminWebTryOneFile(tmp2, ret_filename, ret_filename_size); if (b != NULL) { return b; } return NULL; } BUF *AdminWebTryOneFile(char *filename, char *ret_filename, UINT ret_filename_size) { BUF *b; if (filename == NULL || ret_filename == NULL) { return NULL; } b = ReadDump(filename); if (b == NULL) { return NULL; } StrCpy(ret_filename, ret_filename_size, filename); return b; } // Send a 401 Unauthorized error bool AdminWebSendUnauthorized(SOCK *s, HTTP_HEADER *http_request_headers) { char *http_401_str = "\r\n\r\n401 Unauthorized\r\n\r\n

" CEDAR_SERVER_STR ": Administrative authentication required.

\r\n

This VPN Server could not verify that you are authorized to access to the \r\nserver in administrative mode.

\r\n

For web browser logins:
You must supply the HTTP basic \r\nauthentication credential as following.

\r\n\r\n

For JSON-RPC client logins:
Instead to HTTP basic \r\nauthentication, you can also specify the HTTP header parameters as following.

\r\n\r\n\r\n"; bool ret; // Validate arguments if (s == NULL || http_request_headers == NULL) { return false; } // Creating a Data ret = AdminWebSendBody(s, 401, "Unauthorized", http_401_str, StrLen(http_401_str), HTTP_CONTENT_TYPE, "WWW-Authenticate", "Basic realm=\"Username 'administrator' for entire VPN Server privilege, or specify Virtual Hub name as the username for specified Virtual Hub administrative privilege.\"", http_request_headers); return ret; } // Send reply bool AdminWebSendBody(SOCK *s, UINT status_code, char *status_string, UCHAR *data, UINT data_size, char *content_type, char *add_header_name, char *add_header_value, HTTP_HEADER *request_headers) { HTTP_HEADER *h; char date_str[MAX_SIZE]; char error_code_str[16]; bool ret = false; HTTP_VALUE *origin; if (s == NULL || status_string == NULL || (data_size != 0 && data == NULL) || request_headers == NULL) { return false; } if (content_type == NULL) { content_type = "text/html; charset=utf-8"; } ToStr(error_code_str, status_code); GetHttpDateStr(date_str, sizeof(date_str), SystemTime64()); h = NewHttpHeader("HTTP/1.1", error_code_str, status_string); if (StrCmpi(request_headers->Method, "OPTIONS") == 0) { AddHttpValue(h, NewHttpValue("Allow", "OPTIONS, GET, POST")); } AddHttpValue(h, NewHttpValue("Cache-Control", "no-cache")); AddHttpValue(h, NewHttpValue("Content-Type", content_type)); AddHttpValue(h, NewHttpValue("Date", date_str)); AddHttpValue(h, NewHttpValue("Connection", "Keep-Alive")); AddHttpValue(h, NewHttpValue("Access-Control-Allow-Methods", "OPTIONS,GET,POST")); AddHttpValue(h, NewHttpValue("Access-Control-Allow-Headers", "X-VPNADMIN-HUBNAME,X-VPNADMIN-PASSWORD")); AddHttpValue(h, NewHttpValue("Access-Control-Allow-Credentials", "true")); origin = GetHttpValue(request_headers, "Origin"); if (origin != NULL) { AddHttpValue(h, NewHttpValue("Access-Control-Allow-Origin", origin->Data)); } if (add_header_name != NULL && add_header_value != NULL) { AddHttpValue(h, NewHttpValue(add_header_name, add_header_value)); } ret = PostHttp(s, h, data, data_size); FreeHttpHeader(h); return ret; } // Send 404 error bool AdminWebSend404Error(SOCK *s, HTTP_HEADER *request_headers) { char *body = "\r\n404 Not Found

Not Found

The requested URL was not found on this server.

\r\n"; if (s == NULL || request_headers == NULL) { return false; } return AdminWebSendBody(s, 404, "Not Found", body, StrLen(body), NULL, NULL, NULL, request_headers); } // Send 302 redirect bool AdminWebSend302Redirect(SOCK *s, char *url, char *query_string, HTTP_HEADER *request_headers) { bool ret = false; char *txt; UINT txt_size; char *url2; UINT url2_size; char *body = "Object moved\r\n

Object moved to here.

\r\n"; if (s == NULL || url == NULL || request_headers == NULL) { return false; } url2_size = (StrSize(url) + StrSize(query_string) + MAX_SIZE) * 2; url2 = ZeroMalloc(url2_size); StrCpy(url2, url2_size, url); if (IsEmptyStr(query_string) == false) { StrCat(url2, url2_size, "?"); StrCat(url2, url2_size, query_string); } txt_size = (StrSize(body) + StrSize(url2) + MAX_SIZE) * 2; txt = ZeroMalloc(txt_size); ReplaceStrEx(txt, txt_size, body, "$URL$", url2, false); ret = AdminWebSendBody(s, 302, "Found", txt, StrLen(txt), NULL, "Location", url2, request_headers); Free(txt); Free(url2); return ret; } // "/admin" web page POST handler void AdminWebProcPost(CONNECTION *c, SOCK *s, HTTP_HEADER *h, UINT post_data_size, char *url_target) { ADMIN *a; UCHAR *data; char url[MAX_PATH]; char query_string[MAX_SIZE]; UINT i; if (c == NULL || s == NULL || h == NULL || url_target == NULL) { return; } a = JsonRpcAuthLogin(c->Cedar, s, h); if (a == NULL) { RecvAllWithDiscard(s, post_data_size, s->SecureMode); AdminWebSendUnauthorized(s, h); return; } if (post_data_size > a->MaxJsonRpcRecvSize) { Disconnect(s); return; } data = ZeroMalloc(post_data_size + 1); if (RecvAll(s, data, post_data_size, s->SecureMode)) { c->JsonRpcAuthed = true; #ifndef GC_SOFTETHER_OSS RemoveDosEntry(c->Listener, s); #endif // GC_SOFTETHER_OSS // Divide url_target into URL and query string StrCpy(url, sizeof(url), url_target); Zero(query_string, sizeof(query_string)); i = SearchStr(url, "?", 0); if (i != INFINITE) { StrCpy(query_string, sizeof(query_string), url + i + 1); url[i] = 0; } AdminWebHandleFileRequest(a, c, s, h, url, query_string, "/admin", "|wwwroot/admin"); } Free(data); Free(a); } // "/admin" web page GET handler void AdminWebProcGet(CONNECTION *c, SOCK *s, HTTP_HEADER *h, char *url_target) { ADMIN *a; char url[MAX_PATH]; char query_string[MAX_SIZE]; UINT i; if (c == NULL || s == NULL || h == NULL || url_target == NULL) { return; } a = JsonRpcAuthLogin(c->Cedar, s, h); if (a == NULL) { AdminWebSendUnauthorized(s, h); return; } c->JsonRpcAuthed = true; #ifndef GC_SOFTETHER_OSS RemoveDosEntry(c->Listener, s); #endif // GC_SOFTETHER_OSS // Divide url_target into URL and query string StrCpy(url, sizeof(url), url_target); Zero(query_string, sizeof(query_string)); i = SearchStr(url, "?", 0); if (i != INFINITE) { StrCpy(query_string, sizeof(query_string), url + i + 1); url[i] = 0; } AdminWebHandleFileRequest(a, c, s, h, url, query_string, "/admin", "|wwwroot/admin"); Free(a); } // New JSON-RPC Result JSON_VALUE *JsonRpcNewResponse(PACK *p) { JSON_VALUE *jv; JSON_OBJECT *jo; JSON_VALUE *jv2; if (p == NULL) { return NULL; } jv = JsonNewObject(); jo = JsonValueGetObject(jv); jv2 = PackToJson(p); JsonSet(jo, "result", jv2); return jv; } // New JSON-RPC Error JSON_VALUE *JsonRpcNewError(int code, wchar_t *message) { wchar_t msg[MAX_PATH]; JSON_VALUE *jv; JSON_OBJECT *jo; JSON_VALUE *jv2; JSON_OBJECT *jo2; if (UniIsEmptyStr(message)) { UniFormat(msg, sizeof(msg), L"Error code %u", code); } else { UniFormat(msg, sizeof(msg), L"Error code %u: %s", code, message); } jv = JsonNewObject(); jo = JsonValueGetObject(jv); jv2 = JsonNewObject(); jo2 = JsonValueGetObject(jv2); JsonSet(jo, "error", jv2); JsonSetNumber(jo2, "code", (UINT64)code); JsonSetUniStr(jo2, "message", msg); return jv; } // JSON-RPC process request object JSON_VALUE *JsonRpcProcRequestObject(ADMIN *admin, CONNECTION *c, SOCK *s, JSON_VALUE *json_req, char *method_name) { PACK *pack_request; JSON_VALUE *ret = NULL; if (c == NULL || s == NULL || json_req == NULL || admin == NULL) { return NULL; } pack_request = JsonToPack(json_req); PackAddStr(pack_request, "function_name", method_name); if (pack_request != NULL) { RPC *rpc; PACK *pack_response; UINT err; // RPC Server rpc = StartRpcServer(s, AdminDispatch, admin); admin->Rpc = rpc; pack_response = CallRpcDispatcher(rpc, pack_request); if (pack_response == NULL) { pack_response = PackError(ERR_NOT_SUPPORTED); } RpcFreeEx(rpc, true); FreePack(pack_request); // Construct response object err = GetErrorFromPack(pack_response); if (err != 0) { // Return the error ret = JsonRpcNewError(err, _E(err)); } else { // Return the PACK ret = JsonRpcNewResponse(pack_response); } SLog(admin->Server->Cedar, "LS_API_RPC_CALL", &s->RemoteIP, s->RemotePort, s->RemoteHostname, method_name, err, _E(err)); FreePack(pack_response); } return ret; } // JSON-RPC HTTP user authentication bool HttpParseBasicAuthHeader(HTTP_HEADER *h, char *username, UINT username_size, char *password, UINT password_size) { bool ret = false; HTTP_VALUE *auth_value; HTTP_VALUE *vpnadmin_hubname; HTTP_VALUE *vpnadmin_password; if (h == NULL || username == NULL || password == NULL) { return false; } auth_value = GetHttpValue(h, "Authorization"); vpnadmin_hubname = GetHttpValue(h, "X-VPNADMIN-HUBNAME"); vpnadmin_password = GetHttpValue(h, "X-VPNADMIN-PASSWORD"); if (vpnadmin_password != NULL) { if (vpnadmin_hubname == NULL) { StrCpy(username, username_size, ""); } else { StrCpy(username, username_size, vpnadmin_hubname->Data); } StrCpy(password, password_size, vpnadmin_password->Data); ret = true; } if (ret == false && auth_value != NULL) { char key[32], value[MAX_SIZE]; if (GetKeyAndValue(auth_value->Data, key, sizeof(key), value, sizeof(value), " \t")) { if (StrCmpi(key, "Basic") == 0 && IsEmptyStr(value) == false) { UINT b64_dest_size = StrSize(value) * 2 + 256; char *b64_dest = ZeroMalloc(b64_dest_size); Decode64(b64_dest, value); if (IsEmptyStr(b64_dest) == false) { if (b64_dest[0] == ':') { // Empty username StrCpy(username, username_size, ""); StrCpy(password, password_size, b64_dest + 1); ret = true; } else { if (GetKeyAndValue(b64_dest, username, username_size, password, password_size, ":")) { ret = true; } } } Free(b64_dest); } } } return ret; } // JSON-RPC Login ADMIN *JsonRpcAuthLogin(CEDAR *c, SOCK *sock, HTTP_HEADER *h) { ADMIN *a = NULL; char username[MAX_HUBNAME_LEN + 1]; char password[MAX_PASSWORD_LEN + 1]; SERVER *s; char empty_pw_hash[SHA1_SIZE]; if (c == NULL || h == NULL || sock == NULL) { return NULL; } s = c->Server; HashAdminPassword(empty_pw_hash, ""); Zero(username, sizeof(username)); Zero(password, sizeof(password)); if (HttpParseBasicAuthHeader(h, username, sizeof(username), password, sizeof(password))) { char pw_hash[SHA1_SIZE]; bool is_server_admin = false; bool is_hub_admin = false; char hub_name[MAX_HUBNAME_LEN + 1]; HashAdminPassword(pw_hash, password); Zero(hub_name, sizeof(hub_name)); // Check if the server administrator password is empty. If yes, login always success. if (Cmp(s->HashedPassword, empty_pw_hash, SHA1_SIZE) == 0) { is_server_admin = true; } else { if (IsEmptyStr(username) || StrCmpi(username, ADMINISTRATOR_USERNAME) == 0) { // If the username is empty or 'administrator', verify with the server admin password. if (Cmp(s->HashedPassword, pw_hash, SHA1_SIZE) == 0) { is_server_admin = true; } } } if (is_server_admin == false) { HUB *h; // Hub admin mode LockHubList(c); { h = GetHub(c, username); } UnlockHubList(c); if (h != NULL) { Lock(h->lock); { if (Cmp(h->HashedPassword, empty_pw_hash, SHA1_SIZE) != 0 && IsZero(h->HashedPassword, sizeof(h->HashedPassword)) == false) { if (Cmp(pw_hash, h->HashedPassword, SHA1_SIZE) == 0) { is_hub_admin = true; StrCpy(hub_name, sizeof(hub_name), h->Name); } } } Unlock(h->lock); ReleaseHub(h); } } if (is_server_admin || is_hub_admin) { if (CheckAdminSourceAddress(sock, hub_name)) { a = ZeroMalloc(sizeof(ADMIN)); a->Server = s; a->ServerAdmin = is_server_admin; a->ClientBuild = c->Build; if (is_hub_admin) { StrCpy(a->dummy1, sizeof(a->dummy1), hub_name); a->HubName = a->dummy1; } } } } if (a != NULL) { char admin_mode[256]; if (a->ServerAdmin) { a->MaxJsonRpcRecvSize = ADMIN_RPC_MAX_POST_SIZE_BY_SERVER_ADMIN; } else { a->MaxJsonRpcRecvSize = ADMIN_RPC_MAX_POST_SIZE_BY_HUB_ADMIN; } if (IsEmptyStr(a->HubName)) { StrCpy(admin_mode, sizeof(admin_mode), "Entire VPN Server Admin Mode"); } else { Format(admin_mode, sizeof(admin_mode), "Virtual Hub Admin Mode for '%s'", a->HubName); } SLog(s->Cedar, "LS_API_AUTH_OK", &sock->RemoteIP, sock->RemotePort, sock->RemoteHostname, admin_mode, username, h->Method, h->Target); } else { SLog(s->Cedar, "LS_API_AUTH_ERROR", &sock->RemoteIP, sock->RemotePort, sock->RemoteHostname, username, h->Method, h->Target); } return a; } // Query string to JSON list value JSON_VALUE *QueryStringToJsonListValue(char *qs) { TOKEN_LIST *t; UINT i; LIST *distinct_list = NULL; JSON_VALUE *v = NULL; JSON_OBJECT *o = NULL; if (qs == NULL) { return NULL; } t = ParseTokenWithoutNullStr(qs, "&"); if (t == NULL) { return NULL; } distinct_list = NewStrList(); v = JsonNewObject(); o = JsonValueGetObject(v); for (i = 0;i < t->NumTokens;i++) { char *token = t->Token[i]; UINT pos; pos = SearchStr(token, "=", 0); if (pos != INFINITE) { char *key_decoded; char *value_decoded; char *key = CopyStr(token); char *value = CopyStr(token + pos + 1); key[pos] = 0; key_decoded = UrlDecode(key); value_decoded = UrlDecode(value); if (key_decoded != NULL && value_decoded != NULL) { if (AddStrToStrListDistinct(distinct_list, key_decoded)) { JsonSetStr(o, key_decoded, value_decoded); } } Free(value_decoded); Free(key_decoded); Free(key); Free(value); } } FreeToken(t); FreeStrList(distinct_list); return v; } // Construct new JSON-RPC dummy request JSON_VALUE *ConstructDummyJsonRpcRequest(char *method_name, JSON_VALUE *p) { JSON_VALUE *ret; JSON_OBJECT *ret_object; UCHAR rand[16]; char id_str[64]; Rand(rand, sizeof(rand)); BinToStr(id_str, sizeof(id_str), rand, sizeof(rand)); ret = JsonNewObject(); ret_object = JsonObject(ret); JsonSetStr(ret_object, "jsonrpc", "2.0"); JsonSetStr(ret_object, "method", method_name); JsonSet(ret_object, "params", p); JsonSetStr(ret_object, "id", id_str); return ret; } // JSON-RPC Options Dispatch void JsonRpcProcOptions(CONNECTION *c, SOCK *s, HTTP_HEADER *h, char *url_target) { if (c == NULL || s == NULL || h == NULL || url_target == NULL) { return; } c->JsonRpcAuthed = true; #ifndef GC_SOFTETHER_OSS RemoveDosEntry(c->Listener, s); #endif // GC_SOFTETHER_OSS AdminWebSendBody(s, 200, "OK", NULL, 0, NULL, NULL, NULL, h); } // JSON-RPC GET Dispatch void JsonRpcProcGet(CONNECTION *c, SOCK *s, HTTP_HEADER *h, char *url_target) { ADMIN *a; char url[MAX_PATH]; char query_string[MAX_SIZE]; UINT i; bool reply_sent = false; if (c == NULL || s == NULL || h == NULL || url_target == NULL) { return; } a = JsonRpcAuthLogin(c->Cedar, s, h); if (a == NULL) { AdminWebSendUnauthorized(s, h); return; } c->JsonRpcAuthed = true; #ifndef GC_SOFTETHER_OSS RemoveDosEntry(c->Listener, s); #endif // GC_SOFTETHER_OSS // Divide url_target into URL and query string StrCpy(url, sizeof(url), url_target); Zero(query_string, sizeof(query_string)); i = SearchStr(url, "?", 0); if (i != INFINITE) { StrCpy(query_string, sizeof(query_string), url + i + 1); url[i] = 0; } if (StartWith(url, "/api/")) { // Call a method JSON_VALUE *params_value = NULL; JSON_OBJECT *params_object = NULL; UINT i; char method_name[MAX_PATH]; StrCpy(method_name, sizeof(method_name), url + 5); i = SearchStr(method_name, "/", 0); if (i != INFINITE) { method_name[i] = 0; } if (IsEmptyStr(method_name) == false) { // Call a method params_value = QueryStringToJsonListValue(query_string); if (params_value != NULL) { JSON_VALUE *json_ret = NULL; char id[96]; char *ret_str = NULL; GetDateTimeStrMilli64(id, sizeof(id), LocalTime64()); params_object = JsonObject(params_value); // Process the request json_ret = JsonRpcProcRequestObject(a, c, s, params_value, method_name); if (json_ret == NULL) { json_ret = JsonRpcNewError(ERR_INTERNAL_ERROR, L"Internal error"); } JsonSetStr(JsonObject(json_ret), "jsonrpc", "2.0"); JsonSetStr(JsonObject(json_ret), "id", id); ret_str = JsonToStr(json_ret); AdminWebSendBody(s, 200, "OK", ret_str, StrLen(ret_str), "text/plain; charset=UTF-8", NULL, NULL, h); Free(ret_str); JsonFree(json_ret); JsonFree(params_value); } } } if (reply_sent == false) { BUF *html_buf = ReadDump("|vpnserver_api_doc.html"); if (html_buf != NULL) { AdminWebSendBody(s, 200, "OK", html_buf->Buf, html_buf->Size, "text/html; charset=UTF-8", NULL, NULL, h); FreeBuf(html_buf); } else { AdminWebSend404Error(s, h); } } if (a->LogFileList != NULL) { FreeEnumLogFile(a->LogFileList); } Free(a); } // JSON-RPC POST Dispatch void JsonRpcProcPost(CONNECTION *c, SOCK *s, HTTP_HEADER *h, UINT post_data_size) { ADMIN *a; UCHAR *data; if (c == NULL || s == NULL || h == NULL) { return; } a = JsonRpcAuthLogin(c->Cedar, s, h); if (a == NULL) { RecvAllWithDiscard(s, post_data_size, s->SecureMode); AdminWebSendUnauthorized(s, h); return; } if (post_data_size > a->MaxJsonRpcRecvSize) { Disconnect(s); return; } data = ZeroMalloc(post_data_size + 1); if (RecvAll(s, data, post_data_size, s->SecureMode)) { // Parse JSON JSON_VALUE *json_req = StrToJson(data); JSON_OBJECT *json_req_object = JsonObject(json_req); JSON_VALUE *json_ret = NULL; char *res = NULL; char *request_id = NULL; char *method_name = NULL; c->JsonRpcAuthed = true; #ifndef GC_SOFTETHER_OSS RemoveDosEntry(c->Listener, s); #endif // GC_SOFTETHER_OSS if (json_req == NULL || json_req_object == NULL) { // Parse error json_ret = JsonRpcNewError(ERR_INVALID_PARAMETER, L"Parameter is invalid: JSON-RPC Parse Error"); } else { // check the JSON-RPC version char *ver_str = JsonGetStr(json_req_object, "jsonrpc"); if (StrCmpi(ver_str, "2.0") != 0) { // Invalid version json_ret = JsonRpcNewError(ERR_INVALID_PARAMETER, L"JSON-RPC version is invalid"); } else { JSON_VALUE *params_value = NULL; JSON_OBJECT *params_object = NULL; // Get Request ID request_id = JsonGetStr(json_req_object, "id"); // Get method name method_name = JsonGetStr(json_req_object, "method"); // Get parameters params_value = JsonGet(json_req_object, "params"); params_object = JsonObject(params_value); if (IsEmptyStr(method_name)) { // method is empty json_ret = JsonRpcNewError(ERR_INVALID_PARAMETER, L"JSON-RPC method name is empty"); } else if (params_value == NULL || params_object == NULL) { // params is empty json_ret = JsonRpcNewError(ERR_INVALID_PARAMETER, L"JSON-RPC parameter is empty"); } else { // Process the request json_ret = JsonRpcProcRequestObject(a, c, s, params_value, method_name); } } } if (json_ret == NULL) { json_ret = JsonRpcNewError(ERR_INTERNAL_ERROR, L"Internal error"); } JsonSetStr(JsonObject(json_ret), "jsonrpc", "2.0"); if (request_id == NULL) { request_id = "0"; } JsonSetStr(JsonObject(json_ret), "id", request_id); res = JsonToStr(json_ret); AdminWebSendBody(s, 200, "OK", res, StrLen(res), "application/json", NULL, NULL, h); Free(res); JsonFree(json_ret); JsonFree(json_req); } Free(data); if (a->LogFileList != NULL) { FreeEnumLogFile(a->LogFileList); } Free(a); } // Dispatch routine for Administration RPC PACK *AdminDispatch(RPC *rpc, char *name, PACK *p) { ADMIN *a; PACK *ret; UINT err; SERVER *server = NULL; CEDAR *cedar = NULL; bool ok = false; // Validate arguments if (rpc == NULL || name == NULL || p == NULL) { return NULL; } ret = NewPack(); err = ERR_NO_ERROR; // Administration structure a = (ADMIN *)rpc->Param; if (a == NULL) { FreePack(ret); return NULL; } server = a->Server; if (server == NULL) { return NULL; } cedar = server->Cedar; Lock(cedar->CedarSuperLock); if (true) { char tmp[MAX_PATH]; char ip[MAX_PATH]; UINT rpc_id = 0; StrCpy(ip, sizeof(ip), "Unknown"); if (rpc->Sock != NULL) { IPToStr(ip, sizeof(ip), &rpc->Sock->RemoteIP); rpc_id = rpc->Sock->socket; } Format(tmp, sizeof(tmp), "RPC: RPC-%u (%s): Entering RPC [%s]...", rpc_id, ip, name); SiDebugLog(a->Server, tmp); } if (0) {} // RPC function declaration: from here DECLARE_RPC_EX("Test", RPC_TEST, StTest, InRpcTest, OutRpcTest, FreeRpcTest) DECLARE_RPC_EX("GetServerInfo", RPC_SERVER_INFO, StGetServerInfo, InRpcServerInfo, OutRpcServerInfo, FreeRpcServerInfo) DECLARE_RPC("GetServerStatus", RPC_SERVER_STATUS, StGetServerStatus, InRpcServerStatus, OutRpcServerStatus) DECLARE_RPC("CreateListener", RPC_LISTENER, StCreateListener, InRpcListener, OutRpcListener) DECLARE_RPC_EX("EnumListener", RPC_LISTENER_LIST, StEnumListener, InRpcListenerList, OutRpcListenerList, FreeRpcListenerList) DECLARE_RPC("DeleteListener", RPC_LISTENER, StDeleteListener, InRpcListener, OutRpcListener) DECLARE_RPC("EnableListener", RPC_LISTENER, StEnableListener, InRpcListener, OutRpcListener) DECLARE_RPC_EX("SetPortsUDP", RPC_PORTS, StSetPortsUDP, InRpcPorts, OutRpcPorts, FreeRpcPorts) DECLARE_RPC_EX("GetPortsUDP", RPC_PORTS, StGetPortsUDP, InRpcPorts, OutRpcPorts, FreeRpcPorts) DECLARE_RPC("SetServerPassword", RPC_SET_PASSWORD, StSetServerPassword, InRpcSetPassword, OutRpcSetPassword) DECLARE_RPC_EX("SetFarmSetting", RPC_FARM, StSetFarmSetting, InRpcFarm, OutRpcFarm, FreeRpcFarm) DECLARE_RPC_EX("GetFarmSetting", RPC_FARM, StGetFarmSetting, InRpcFarm, OutRpcFarm, FreeRpcFarm) DECLARE_RPC_EX("GetFarmInfo", RPC_FARM_INFO, StGetFarmInfo, InRpcFarmInfo, OutRpcFarmInfo, FreeRpcFarmInfo) DECLARE_RPC_EX("EnumFarmMember", RPC_ENUM_FARM, StEnumFarmMember, InRpcEnumFarm, OutRpcEnumFarm, FreeRpcEnumFarm) DECLARE_RPC("GetFarmConnectionStatus", RPC_FARM_CONNECTION_STATUS, StGetFarmConnectionStatus, InRpcFarmConnectionStatus, OutRpcFarmConnectionStatus) DECLARE_RPC_EX("SetServerCert", RPC_KEY_PAIR, StSetServerCert, InRpcKeyPair, OutRpcKeyPair, FreeRpcKeyPair) DECLARE_RPC_EX("GetServerCert", RPC_KEY_PAIR, StGetServerCert, InRpcKeyPair, OutRpcKeyPair, FreeRpcKeyPair) DECLARE_RPC_EX("GetServerCipherList", RPC_STR, StGetServerCipherList, InRpcStr, OutRpcStr, FreeRpcStr) DECLARE_RPC_EX("GetServerCipher", RPC_STR, StGetServerCipher, InRpcStr, OutRpcStr, FreeRpcStr) DECLARE_RPC_EX("SetServerCipher", RPC_STR, StSetServerCipher, InRpcStr, OutRpcStr, FreeRpcStr) DECLARE_RPC("CreateHub", RPC_CREATE_HUB, StCreateHub, InRpcCreateHub, OutRpcCreateHub) DECLARE_RPC("SetHub", RPC_CREATE_HUB, StSetHub, InRpcCreateHub, OutRpcCreateHub) DECLARE_RPC("GetHub", RPC_CREATE_HUB, StGetHub, InRpcCreateHub, OutRpcCreateHub) DECLARE_RPC_EX("EnumHub", RPC_ENUM_HUB, StEnumHub, InRpcEnumHub, OutRpcEnumHub, FreeRpcEnumHub) DECLARE_RPC("DeleteHub", RPC_DELETE_HUB, StDeleteHub, InRpcDeleteHub, OutRpcDeleteHub) DECLARE_RPC("GetHubRadius", RPC_RADIUS, StGetHubRadius, InRpcRadius, OutRpcRadius) DECLARE_RPC("SetHubRadius", RPC_RADIUS, StSetHubRadius, InRpcRadius, OutRpcRadius) DECLARE_RPC_EX("EnumConnection", RPC_ENUM_CONNECTION, StEnumConnection, InRpcEnumConnection, OutRpcEnumConnection, FreeRpcEnumConnection) DECLARE_RPC("DisconnectConnection", RPC_DISCONNECT_CONNECTION, StDisconnectConnection, InRpcDisconnectConnection, OutRpcDisconnectConnection) DECLARE_RPC("GetConnectionInfo", RPC_CONNECTION_INFO, StGetConnectionInfo, InRpcConnectionInfo, OutRpcConnectionInfo) DECLARE_RPC("SetHubOnline", RPC_SET_HUB_ONLINE, StSetHubOnline, InRpcSetHubOnline, OutRpcSetHubOnline) DECLARE_RPC("GetHubStatus", RPC_HUB_STATUS, StGetHubStatus, InRpcHubStatus, OutRpcHubStatus) DECLARE_RPC("SetHubLog", RPC_HUB_LOG, StSetHubLog, InRpcHubLog, OutRpcHubLog) DECLARE_RPC("GetHubLog", RPC_HUB_LOG, StGetHubLog, InRpcHubLog, OutRpcHubLog) DECLARE_RPC_EX("AddCa", RPC_HUB_ADD_CA, StAddCa, InRpcHubAddCa, OutRpcHubAddCa, FreeRpcHubAddCa) DECLARE_RPC_EX("EnumCa", RPC_HUB_ENUM_CA, StEnumCa, InRpcHubEnumCa, OutRpcHubEnumCa, FreeRpcHubEnumCa) DECLARE_RPC_EX("GetCa", RPC_HUB_GET_CA, StGetCa, InRpcHubGetCa, OutRpcHubGetCa, FreeRpcHubGetCa) DECLARE_RPC("DeleteCa", RPC_HUB_DELETE_CA, StDeleteCa, InRpcHubDeleteCa, OutRpcHubDeleteCa) DECLARE_RPC("SetLinkOnline", RPC_LINK, StSetLinkOnline, InRpcLink, OutRpcLink) DECLARE_RPC("SetLinkOffline", RPC_LINK, StSetLinkOffline, InRpcLink, OutRpcLink) DECLARE_RPC("DeleteLink", RPC_LINK, StDeleteLink, InRpcLink, OutRpcLink) DECLARE_RPC("RenameLink", RPC_RENAME_LINK, StRenameLink, InRpcRenameLink, OutRpcRenameLink) DECLARE_RPC_EX("CreateLink", RPC_CREATE_LINK, StCreateLink, InRpcCreateLink, OutRpcCreateLink, FreeRpcCreateLink) DECLARE_RPC_EX("GetLink", RPC_CREATE_LINK, StGetLink, InRpcCreateLink, OutRpcCreateLink, FreeRpcCreateLink) DECLARE_RPC_EX("SetLink", RPC_CREATE_LINK, StSetLink, InRpcCreateLink, OutRpcCreateLink, FreeRpcCreateLink) DECLARE_RPC_EX("EnumLink", RPC_ENUM_LINK, StEnumLink, InRpcEnumLink, OutRpcEnumLink, FreeRpcEnumLink) DECLARE_RPC_EX("GetLinkStatus", RPC_LINK_STATUS, StGetLinkStatus, InRpcLinkStatus, OutRpcLinkStatus, FreeRpcLinkStatus) DECLARE_RPC("AddAccess", RPC_ADD_ACCESS, StAddAccess, InRpcAddAccess, OutRpcAddAccess) DECLARE_RPC("DeleteAccess", RPC_DELETE_ACCESS, StDeleteAccess, InRpcDeleteAccess, OutRpcDeleteAccess) DECLARE_RPC_EX("EnumAccess", RPC_ENUM_ACCESS_LIST, StEnumAccess, InRpcEnumAccessList, OutRpcEnumAccessList, FreeRpcEnumAccessList) DECLARE_RPC_EX("SetAccessList", RPC_ENUM_ACCESS_LIST, StSetAccessList, InRpcEnumAccessList, OutRpcEnumAccessList, FreeRpcEnumAccessList) DECLARE_RPC_EX("CreateUser", RPC_SET_USER, StCreateUser, InRpcSetUser, OutRpcSetUser, FreeRpcSetUser) DECLARE_RPC_EX("SetUser", RPC_SET_USER, StSetUser, InRpcSetUser, OutRpcSetUser, FreeRpcSetUser) DECLARE_RPC_EX("GetUser", RPC_SET_USER, StGetUser, InRpcSetUser, OutRpcSetUser, FreeRpcSetUser) DECLARE_RPC("DeleteUser", RPC_DELETE_USER, StDeleteUser, InRpcDeleteUser, OutRpcDeleteUser) DECLARE_RPC_EX("EnumUser", RPC_ENUM_USER, StEnumUser, InRpcEnumUser, OutRpcEnumUser, FreeRpcEnumUser) DECLARE_RPC_EX("CreateGroup", RPC_SET_GROUP, StCreateGroup, InRpcSetGroup, OutRpcSetGroup, FreeRpcSetGroup) DECLARE_RPC_EX("SetGroup", RPC_SET_GROUP, StSetGroup, InRpcSetGroup, OutRpcSetGroup, FreeRpcSetGroup) DECLARE_RPC_EX("GetGroup", RPC_SET_GROUP, StGetGroup, InRpcSetGroup, OutRpcSetGroup, FreeRpcSetGroup) DECLARE_RPC("DeleteGroup", RPC_DELETE_USER, StDeleteGroup, InRpcDeleteUser, OutRpcDeleteUser) DECLARE_RPC_EX("EnumGroup", RPC_ENUM_GROUP, StEnumGroup, InRpcEnumGroup, OutRpcEnumGroup, FreeRpcEnumGroup) DECLARE_RPC_EX("EnumSession", RPC_ENUM_SESSION, StEnumSession, InRpcEnumSession, OutRpcEnumSession, FreeRpcEnumSession) DECLARE_RPC_EX("GetSessionStatus", RPC_SESSION_STATUS, StGetSessionStatus, InRpcSessionStatus, OutRpcSessionStatus, FreeRpcSessionStatus) DECLARE_RPC("DeleteSession", RPC_DELETE_SESSION, StDeleteSession, InRpcDeleteSession, OutRpcDeleteSession) DECLARE_RPC_EX("EnumMacTable", RPC_ENUM_MAC_TABLE, StEnumMacTable, InRpcEnumMacTable, OutRpcEnumMacTable, FreeRpcEnumMacTable) DECLARE_RPC("DeleteMacTable", RPC_DELETE_TABLE, StDeleteMacTable, InRpcDeleteTable, OutRpcDeleteTable) DECLARE_RPC_EX("EnumIpTable", RPC_ENUM_IP_TABLE, StEnumIpTable, InRpcEnumIpTable, OutRpcEnumIpTable, FreeRpcEnumIpTable) DECLARE_RPC("DeleteIpTable", RPC_DELETE_TABLE, StDeleteIpTable, InRpcDeleteTable, OutRpcDeleteTable) DECLARE_RPC("SetKeep", RPC_KEEP, StSetKeep, InRpcKeep, OutRpcKeep) DECLARE_RPC("GetKeep", RPC_KEEP, StGetKeep, InRpcKeep, OutRpcKeep) DECLARE_RPC("EnableSecureNAT", RPC_HUB, StEnableSecureNAT, InRpcHub, OutRpcHub) DECLARE_RPC("DisableSecureNAT", RPC_HUB, StDisableSecureNAT, InRpcHub, OutRpcHub) DECLARE_RPC("SetSecureNATOption", VH_OPTION, StSetSecureNATOption, InVhOption, OutVhOption) DECLARE_RPC("GetSecureNATOption", VH_OPTION, StGetSecureNATOption, InVhOption, OutVhOption) DECLARE_RPC_EX("EnumNAT", RPC_ENUM_NAT, StEnumNAT, InRpcEnumNat, OutRpcEnumNat, FreeRpcEnumNat) DECLARE_RPC_EX("EnumDHCP", RPC_ENUM_DHCP, StEnumDHCP, InRpcEnumDhcp, OutRpcEnumDhcp, FreeRpcEnumDhcp) DECLARE_RPC("GetSecureNATStatus", RPC_NAT_STATUS, StGetSecureNATStatus, InRpcNatStatus, OutRpcNatStatus) DECLARE_RPC_EX("EnumEthernet", RPC_ENUM_ETH, StEnumEthernet, InRpcEnumEth, OutRpcEnumEth, FreeRpcEnumEth) DECLARE_RPC("AddLocalBridge", RPC_LOCALBRIDGE, StAddLocalBridge, InRpcLocalBridge, OutRpcLocalBridge) DECLARE_RPC("DeleteLocalBridge", RPC_LOCALBRIDGE, StDeleteLocalBridge, InRpcLocalBridge, OutRpcLocalBridge) DECLARE_RPC_EX("EnumLocalBridge", RPC_ENUM_LOCALBRIDGE, StEnumLocalBridge, InRpcEnumLocalBridge, OutRpcEnumLocalBridge, FreeRpcEnumLocalBridge) DECLARE_RPC("GetBridgeSupport", RPC_BRIDGE_SUPPORT, StGetBridgeSupport, InRpcBridgeSupport, OutRpcBridgeSupport) DECLARE_RPC("RebootServer", RPC_TEST, StRebootServer, InRpcTest, OutRpcTest) DECLARE_RPC_EX("GetCaps", CAPSLIST, StGetCaps, InRpcCapsList, OutRpcCapsList, FreeRpcCapsList) DECLARE_RPC_EX("GetConfig", RPC_CONFIG, StGetConfig, InRpcConfig, OutRpcConfig, FreeRpcConfig) DECLARE_RPC_EX("SetConfig", RPC_CONFIG, StSetConfig, InRpcConfig, OutRpcConfig, FreeRpcConfig) DECLARE_RPC_EX("GetDefaultHubAdminOptions", RPC_ADMIN_OPTION, StGetDefaultHubAdminOptions, InRpcAdminOption, OutRpcAdminOption, FreeRpcAdminOption) DECLARE_RPC_EX("GetHubAdminOptions", RPC_ADMIN_OPTION, StGetHubAdminOptions, InRpcAdminOption, OutRpcAdminOption, FreeRpcAdminOption) DECLARE_RPC_EX("SetHubAdminOptions", RPC_ADMIN_OPTION, StSetHubAdminOptions, InRpcAdminOption, OutRpcAdminOption, FreeRpcAdminOption) DECLARE_RPC_EX("GetHubExtOptions", RPC_ADMIN_OPTION, StGetHubExtOptions, InRpcAdminOption, OutRpcAdminOption, FreeRpcAdminOption) DECLARE_RPC_EX("SetHubExtOptions", RPC_ADMIN_OPTION, StSetHubExtOptions, InRpcAdminOption, OutRpcAdminOption, FreeRpcAdminOption) DECLARE_RPC("AddL3Switch", RPC_L3SW, StAddL3Switch, InRpcL3Sw, OutRpcL3Sw) DECLARE_RPC("DelL3Switch", RPC_L3SW, StDelL3Switch, InRpcL3Sw, OutRpcL3Sw) DECLARE_RPC_EX("EnumL3Switch", RPC_ENUM_L3SW, StEnumL3Switch, InRpcEnumL3Sw, OutRpcEnumL3Sw, FreeRpcEnumL3Sw) DECLARE_RPC("StartL3Switch", RPC_L3SW, StStartL3Switch, InRpcL3Sw, OutRpcL3Sw) DECLARE_RPC("StopL3Switch", RPC_L3SW, StStopL3Switch, InRpcL3Sw, OutRpcL3Sw) DECLARE_RPC("AddL3If", RPC_L3IF, StAddL3If, InRpcL3If, OutRpcL3If) DECLARE_RPC("DelL3If", RPC_L3IF, StDelL3If, InRpcL3If, OutRpcL3If) DECLARE_RPC_EX("EnumL3If", RPC_ENUM_L3IF, StEnumL3If, InRpcEnumL3If, OutRpcEnumL3If, FreeRpcEnumL3If) DECLARE_RPC("AddL3Table", RPC_L3TABLE, StAddL3Table, InRpcL3Table, OutRpcL3Table) DECLARE_RPC("DelL3Table", RPC_L3TABLE, StDelL3Table, InRpcL3Table, OutRpcL3Table) DECLARE_RPC_EX("EnumL3Table", RPC_ENUM_L3TABLE, StEnumL3Table, InRpcEnumL3Table, OutRpcEnumL3Table, FreeRpcEnumL3Table) DECLARE_RPC_EX("EnumCrl", RPC_ENUM_CRL, StEnumCrl, InRpcEnumCrl, OutRpcEnumCrl, FreeRpcEnumCrl) DECLARE_RPC_EX("AddCrl", RPC_CRL, StAddCrl, InRpcCrl, OutRpcCrl, FreeRpcCrl) DECLARE_RPC_EX("DelCrl", RPC_CRL, StDelCrl, InRpcCrl, OutRpcCrl, FreeRpcCrl) DECLARE_RPC_EX("GetCrl", RPC_CRL, StGetCrl, InRpcCrl, OutRpcCrl, FreeRpcCrl) DECLARE_RPC_EX("SetCrl", RPC_CRL, StSetCrl, InRpcCrl, OutRpcCrl, FreeRpcCrl) DECLARE_RPC_EX("SetAcList", RPC_AC_LIST, StSetAcList, InRpcAcList, OutRpcAcList, FreeRpcAcList) DECLARE_RPC_EX("GetAcList", RPC_AC_LIST, StGetAcList, InRpcAcList, OutRpcAcList, FreeRpcAcList) DECLARE_RPC_EX("EnumLogFile", RPC_ENUM_LOG_FILE, StEnumLogFile, InRpcEnumLogFile, OutRpcEnumLogFile, FreeRpcEnumLogFile) DECLARE_RPC_EX("ReadLogFile", RPC_READ_LOG_FILE, StReadLogFile, InRpcReadLogFile, OutRpcReadLogFile, FreeRpcReadLogFile) DECLARE_RPC("AddLicenseKey", RPC_TEST, StAddLicenseKey, InRpcTest, OutRpcTest) DECLARE_RPC("DelLicenseKey", RPC_TEST, StDelLicenseKey, InRpcTest, OutRpcTest) DECLARE_RPC_EX("EnumLicenseKey", RPC_ENUM_LICENSE_KEY, StEnumLicenseKey, InRpcEnumLicenseKey, OutRpcEnumLicenseKey, FreeRpcEnumLicenseKey) DECLARE_RPC("GetLicenseStatus", RPC_LICENSE_STATUS, StGetLicenseStatus, InRpcLicenseStatus, OutRpcLicenseStatus) DECLARE_RPC("SetSysLog", SYSLOG_SETTING, StSetSysLog, InRpcSysLogSetting, OutRpcSysLogSetting) DECLARE_RPC("GetSysLog", SYSLOG_SETTING, StGetSysLog, InRpcSysLogSetting, OutRpcSysLogSetting) DECLARE_RPC_EX("EnumEthVLan", RPC_ENUM_ETH_VLAN, StEnumEthVLan, InRpcEnumEthVLan, OutRpcEnumEthVLan, FreeRpcEnumEthVLan) DECLARE_RPC("SetEnableEthVLan", RPC_TEST, StSetEnableEthVLan, InRpcTest, OutRpcTest) DECLARE_RPC_EX("SetHubMsg", RPC_MSG, StSetHubMsg, InRpcMsg, OutRpcMsg, FreeRpcMsg) DECLARE_RPC_EX("GetHubMsg", RPC_MSG, StGetHubMsg, InRpcMsg, OutRpcMsg, FreeRpcMsg) DECLARE_RPC("Crash", RPC_TEST, StCrash, InRpcTest, OutRpcTest) DECLARE_RPC_EX("GetAdminMsg", RPC_MSG, StGetAdminMsg, InRpcMsg, OutRpcMsg, FreeRpcMsg) DECLARE_RPC("Flush", RPC_TEST, StFlush, InRpcTest, OutRpcTest) DECLARE_RPC("Debug", RPC_TEST, StDebug, InRpcTest, OutRpcTest) DECLARE_RPC("SetIPsecServices", IPSEC_SERVICES, StSetIPsecServices, InIPsecServices, OutIPsecServices) DECLARE_RPC("GetIPsecServices", IPSEC_SERVICES, StGetIPsecServices, InIPsecServices, OutIPsecServices) DECLARE_RPC("AddEtherIpId", ETHERIP_ID, StAddEtherIpId, InEtherIpId, OutEtherIpId) DECLARE_RPC("GetEtherIpId", ETHERIP_ID, StGetEtherIpId, InEtherIpId, OutEtherIpId) DECLARE_RPC("DeleteEtherIpId", ETHERIP_ID, StDeleteEtherIpId, InEtherIpId, OutEtherIpId) DECLARE_RPC_EX("EnumEtherIpId", RPC_ENUM_ETHERIP_ID, StEnumEtherIpId, InRpcEnumEtherIpId, OutRpcEnumEtherIpId, FreeRpcEnumEtherIpId) DECLARE_RPC("SetOpenVpnSstpConfig", OPENVPN_SSTP_CONFIG, StSetOpenVpnSstpConfig, InOpenVpnSstpConfig, OutOpenVpnSstpConfig) DECLARE_RPC("GetOpenVpnSstpConfig", OPENVPN_SSTP_CONFIG, StGetOpenVpnSstpConfig, InOpenVpnSstpConfig, OutOpenVpnSstpConfig) DECLARE_RPC("GetDDnsClientStatus", DDNS_CLIENT_STATUS, StGetDDnsClientStatus, InDDnsClientStatus, OutDDnsClientStatus) DECLARE_RPC("ChangeDDnsClientHostname", RPC_TEST, StChangeDDnsClientHostname, InRpcTest, OutRpcTest) DECLARE_RPC("RegenerateServerCert", RPC_TEST, StRegenerateServerCert, InRpcTest, OutRpcTest) DECLARE_RPC_EX("MakeOpenVpnConfigFile", RPC_READ_LOG_FILE, StMakeOpenVpnConfigFile, InRpcReadLogFile, OutRpcReadLogFile, FreeRpcReadLogFile) DECLARE_RPC("SetSpecialListener", RPC_SPECIAL_LISTENER, StSetSpecialListener, InRpcSpecialListener, OutRpcSpecialListener) DECLARE_RPC("GetSpecialListener", RPC_SPECIAL_LISTENER, StGetSpecialListener, InRpcSpecialListener, OutRpcSpecialListener) DECLARE_RPC("GetAzureStatus", RPC_AZURE_STATUS, StGetAzureStatus, InRpcAzureStatus, OutRpcAzureStatus) DECLARE_RPC("SetAzureStatus", RPC_AZURE_STATUS, StSetAzureStatus, InRpcAzureStatus, OutRpcAzureStatus) DECLARE_RPC("GetDDnsInternetSettng", INTERNET_SETTING, StGetDDnsInternetSetting, InRpcInternetSetting, OutRpcInternetSetting) DECLARE_RPC("SetDDnsInternetSettng", INTERNET_SETTING, StSetDDnsInternetSetting, InRpcInternetSetting, OutRpcInternetSetting) // RPC function declaration: till here if (ok == false) { err = ERR_NOT_SUPPORTED; } if (err != ERR_NO_ERROR) { PackAddInt(ret, "error", err); } if (true) { char tmp[MAX_PATH]; char ip[MAX_PATH]; UINT rpc_id = 0; StrCpy(ip, sizeof(ip), "Unknown"); if (rpc->Sock != NULL) { IPToStr(ip, sizeof(ip), &rpc->Sock->RemoteIP); rpc_id = rpc->Sock->socket; } Format(tmp, sizeof(tmp), "RPC: RPC-%u (%s): Leaving RPC [%s] (Error: %u).", rpc_id, ip, name, err); SiDebugLog(a->Server, tmp); } Unlock(cedar->CedarSuperLock); return ret; } // RPC call function declaration: from here DECLARE_SC_EX("Test", RPC_TEST, ScTest, InRpcTest, OutRpcTest, FreeRpcTest) DECLARE_SC_EX("GetServerInfo", RPC_SERVER_INFO, ScGetServerInfo, InRpcServerInfo, OutRpcServerInfo, FreeRpcServerInfo) DECLARE_SC("GetServerStatus", RPC_SERVER_STATUS, ScGetServerStatus, InRpcServerStatus, OutRpcServerStatus) DECLARE_SC("CreateListener", RPC_LISTENER, ScCreateListener, InRpcListener, OutRpcListener) DECLARE_SC_EX("EnumListener", RPC_LISTENER_LIST, ScEnumListener, InRpcListenerList, OutRpcListenerList, FreeRpcListenerList) DECLARE_SC("DeleteListener", RPC_LISTENER, ScDeleteListener, InRpcListener, OutRpcListener) DECLARE_SC("EnableListener", RPC_LISTENER, ScEnableListener, InRpcListener, OutRpcListener) DECLARE_SC_EX("SetPortsUDP", RPC_PORTS, ScSetPortsUDP, InRpcPorts, OutRpcPorts, FreeRpcPorts) DECLARE_SC_EX("GetPortsUDP", RPC_PORTS, ScGetPortsUDP, InRpcPorts, OutRpcPorts, FreeRpcPorts) DECLARE_SC("SetServerPassword", RPC_SET_PASSWORD, ScSetServerPassword, InRpcSetPassword, OutRpcSetPassword) DECLARE_SC_EX("SetFarmSetting", RPC_FARM, ScSetFarmSetting, InRpcFarm, OutRpcFarm, FreeRpcFarm) DECLARE_SC_EX("GetFarmSetting", RPC_FARM, ScGetFarmSetting, InRpcFarm, OutRpcFarm, FreeRpcFarm) DECLARE_SC_EX("GetFarmInfo", RPC_FARM_INFO, ScGetFarmInfo, InRpcFarmInfo, OutRpcFarmInfo, FreeRpcFarmInfo) DECLARE_SC_EX("EnumFarmMember", RPC_ENUM_FARM, ScEnumFarmMember, InRpcEnumFarm, OutRpcEnumFarm, FreeRpcEnumFarm) DECLARE_SC("GetFarmConnectionStatus", RPC_FARM_CONNECTION_STATUS, ScGetFarmConnectionStatus, InRpcFarmConnectionStatus, OutRpcFarmConnectionStatus) DECLARE_SC_EX("SetServerCert", RPC_KEY_PAIR, ScSetServerCert, InRpcKeyPair, OutRpcKeyPair, FreeRpcKeyPair) DECLARE_SC_EX("GetServerCert", RPC_KEY_PAIR, ScGetServerCert, InRpcKeyPair, OutRpcKeyPair, FreeRpcKeyPair) DECLARE_SC_EX("GetServerCipherList", RPC_STR, ScGetServerCipherList, InRpcStr, OutRpcStr, FreeRpcStr) DECLARE_SC_EX("GetServerCipher", RPC_STR, ScGetServerCipher, InRpcStr, OutRpcStr, FreeRpcStr) DECLARE_SC_EX("SetServerCipher", RPC_STR, ScSetServerCipher, InRpcStr, OutRpcStr, FreeRpcStr) DECLARE_SC("CreateHub", RPC_CREATE_HUB, ScCreateHub, InRpcCreateHub, OutRpcCreateHub) DECLARE_SC("SetHub", RPC_CREATE_HUB, ScSetHub, InRpcCreateHub, OutRpcCreateHub) DECLARE_SC("GetHub", RPC_CREATE_HUB, ScGetHub, InRpcCreateHub, OutRpcCreateHub) DECLARE_SC_EX("EnumHub", RPC_ENUM_HUB, ScEnumHub, InRpcEnumHub, OutRpcEnumHub, FreeRpcEnumHub) DECLARE_SC("DeleteHub", RPC_DELETE_HUB, ScDeleteHub, InRpcDeleteHub, OutRpcDeleteHub) DECLARE_SC("GetHubRadius", RPC_RADIUS, ScGetHubRadius, InRpcRadius, OutRpcRadius) DECLARE_SC("SetHubRadius", RPC_RADIUS, ScSetHubRadius, InRpcRadius, OutRpcRadius) DECLARE_SC_EX("EnumConnection", RPC_ENUM_CONNECTION, ScEnumConnection, InRpcEnumConnection, OutRpcEnumConnection, FreeRpcEnumConnection) DECLARE_SC("DisconnectConnection", RPC_DISCONNECT_CONNECTION, ScDisconnectConnection, InRpcDisconnectConnection, OutRpcDisconnectConnection) DECLARE_SC("GetConnectionInfo", RPC_CONNECTION_INFO, ScGetConnectionInfo, InRpcConnectionInfo, OutRpcConnectionInfo) DECLARE_SC("SetHubOnline", RPC_SET_HUB_ONLINE, ScSetHubOnline, InRpcSetHubOnline, OutRpcSetHubOnline) DECLARE_SC("GetHubStatus", RPC_HUB_STATUS, ScGetHubStatus, InRpcHubStatus, OutRpcHubStatus) DECLARE_SC("SetHubLog", RPC_HUB_LOG, ScSetHubLog, InRpcHubLog, OutRpcHubLog) DECLARE_SC("GetHubLog", RPC_HUB_LOG, ScGetHubLog, InRpcHubLog, OutRpcHubLog) DECLARE_SC_EX("AddCa", RPC_HUB_ADD_CA, ScAddCa, InRpcHubAddCa, OutRpcHubAddCa, FreeRpcHubAddCa) DECLARE_SC_EX("EnumCa", RPC_HUB_ENUM_CA, ScEnumCa, InRpcHubEnumCa, OutRpcHubEnumCa, FreeRpcHubEnumCa) DECLARE_SC_EX("GetCa", RPC_HUB_GET_CA, ScGetCa, InRpcHubGetCa, OutRpcHubGetCa, FreeRpcHubGetCa) DECLARE_SC("DeleteCa", RPC_HUB_DELETE_CA, ScDeleteCa, InRpcHubDeleteCa, OutRpcHubDeleteCa) DECLARE_SC_EX("CreateLink", RPC_CREATE_LINK, ScCreateLink, InRpcCreateLink, OutRpcCreateLink, FreeRpcCreateLink) DECLARE_SC_EX("GetLink", RPC_CREATE_LINK, ScGetLink, InRpcCreateLink, OutRpcCreateLink, FreeRpcCreateLink) DECLARE_SC_EX("SetLink", RPC_CREATE_LINK, ScSetLink, InRpcCreateLink, OutRpcCreateLink, FreeRpcCreateLink) DECLARE_SC_EX("EnumLink", RPC_ENUM_LINK, ScEnumLink, InRpcEnumLink, OutRpcEnumLink, FreeRpcEnumLink) DECLARE_SC_EX("GetLinkStatus", RPC_LINK_STATUS, ScGetLinkStatus, InRpcLinkStatus, OutRpcLinkStatus, FreeRpcLinkStatus) DECLARE_SC("SetLinkOnline", RPC_LINK, ScSetLinkOnline, InRpcLink, OutRpcLink) DECLARE_SC("SetLinkOffline", RPC_LINK, ScSetLinkOffline, InRpcLink, OutRpcLink) DECLARE_SC("DeleteLink", RPC_LINK, ScDeleteLink, InRpcLink, OutRpcLink) DECLARE_SC("RenameLink", RPC_RENAME_LINK, ScRenameLink, InRpcRenameLink, OutRpcRenameLink) DECLARE_SC("AddAccess", RPC_ADD_ACCESS, ScAddAccess, InRpcAddAccess, OutRpcAddAccess) DECLARE_SC("DeleteAccess", RPC_DELETE_ACCESS, ScDeleteAccess, InRpcDeleteAccess, OutRpcDeleteAccess) DECLARE_SC_EX("EnumAccess", RPC_ENUM_ACCESS_LIST, ScEnumAccess, InRpcEnumAccessList, OutRpcEnumAccessList, FreeRpcEnumAccessList) DECLARE_SC_EX("SetAccessList", RPC_ENUM_ACCESS_LIST, ScSetAccessList, InRpcEnumAccessList, OutRpcEnumAccessList, FreeRpcEnumAccessList) DECLARE_SC_EX("CreateUser", RPC_SET_USER, ScCreateUser, InRpcSetUser, OutRpcSetUser, FreeRpcSetUser) DECLARE_SC_EX("SetUser", RPC_SET_USER, ScSetUser, InRpcSetUser, OutRpcSetUser, FreeRpcSetUser) DECLARE_SC_EX("GetUser", RPC_SET_USER, ScGetUser, InRpcSetUser, OutRpcSetUser, FreeRpcSetUser) DECLARE_SC("DeleteUser", RPC_DELETE_USER, ScDeleteUser, InRpcDeleteUser, OutRpcDeleteUser) DECLARE_SC_EX("EnumUser", RPC_ENUM_USER, ScEnumUser, InRpcEnumUser, OutRpcEnumUser, FreeRpcEnumUser) DECLARE_SC_EX("CreateGroup", RPC_SET_GROUP, ScCreateGroup, InRpcSetGroup, OutRpcSetGroup, FreeRpcSetGroup) DECLARE_SC_EX("SetGroup", RPC_SET_GROUP, ScSetGroup, InRpcSetGroup, OutRpcSetGroup, FreeRpcSetGroup) DECLARE_SC_EX("GetGroup", RPC_SET_GROUP, ScGetGroup, InRpcSetGroup, OutRpcSetGroup, FreeRpcSetGroup) DECLARE_SC("DeleteGroup", RPC_DELETE_USER, ScDeleteGroup, InRpcDeleteUser, OutRpcDeleteUser) DECLARE_SC_EX("EnumGroup", RPC_ENUM_GROUP, ScEnumGroup, InRpcEnumGroup, OutRpcEnumGroup, FreeRpcEnumGroup) DECLARE_SC_EX("EnumSession", RPC_ENUM_SESSION, ScEnumSession, InRpcEnumSession, OutRpcEnumSession, FreeRpcEnumSession) DECLARE_SC_EX("GetSessionStatus", RPC_SESSION_STATUS, ScGetSessionStatus, InRpcSessionStatus, OutRpcSessionStatus, FreeRpcSessionStatus) DECLARE_SC("DeleteSession", RPC_DELETE_SESSION, ScDeleteSession, InRpcDeleteSession, OutRpcDeleteSession) DECLARE_SC_EX("EnumMacTable", RPC_ENUM_MAC_TABLE, ScEnumMacTable, InRpcEnumMacTable, OutRpcEnumMacTable, FreeRpcEnumMacTable) DECLARE_SC("DeleteMacTable", RPC_DELETE_TABLE, ScDeleteMacTable, InRpcDeleteTable, OutRpcDeleteTable) DECLARE_SC_EX("EnumIpTable", RPC_ENUM_IP_TABLE, ScEnumIpTable, InRpcEnumIpTable, OutRpcEnumIpTable, FreeRpcEnumIpTable) DECLARE_SC("DeleteIpTable", RPC_DELETE_TABLE, ScDeleteIpTable, InRpcDeleteTable, OutRpcDeleteTable) DECLARE_SC("SetKeep", RPC_KEEP, ScSetKeep, InRpcKeep, OutRpcKeep) DECLARE_SC("GetKeep", RPC_KEEP, ScGetKeep, InRpcKeep, OutRpcKeep) DECLARE_SC("EnableSecureNAT", RPC_HUB, ScEnableSecureNAT, InRpcHub, OutRpcHub) DECLARE_SC("DisableSecureNAT", RPC_HUB, ScDisableSecureNAT, InRpcHub, OutRpcHub) DECLARE_SC("SetSecureNATOption", VH_OPTION, ScSetSecureNATOption, InVhOption, OutVhOption) DECLARE_SC("GetSecureNATOption", VH_OPTION, ScGetSecureNATOption, InVhOption, OutVhOption) DECLARE_SC_EX("EnumNAT", RPC_ENUM_NAT, ScEnumNAT, InRpcEnumNat, OutRpcEnumNat, FreeRpcEnumNat) DECLARE_SC_EX("EnumDHCP", RPC_ENUM_DHCP, ScEnumDHCP, InRpcEnumDhcp, OutRpcEnumDhcp, FreeRpcEnumDhcp) DECLARE_SC("GetSecureNATStatus", RPC_NAT_STATUS, ScGetSecureNATStatus, InRpcNatStatus, OutRpcNatStatus) DECLARE_SC_EX("EnumEthernet", RPC_ENUM_ETH, ScEnumEthernet, InRpcEnumEth, OutRpcEnumEth, FreeRpcEnumEth) DECLARE_SC("AddLocalBridge", RPC_LOCALBRIDGE, ScAddLocalBridge, InRpcLocalBridge, OutRpcLocalBridge) DECLARE_SC("DeleteLocalBridge", RPC_LOCALBRIDGE, ScDeleteLocalBridge, InRpcLocalBridge, OutRpcLocalBridge) DECLARE_SC_EX("EnumLocalBridge", RPC_ENUM_LOCALBRIDGE, ScEnumLocalBridge, InRpcEnumLocalBridge, OutRpcEnumLocalBridge, FreeRpcEnumLocalBridge) DECLARE_SC("GetBridgeSupport", RPC_BRIDGE_SUPPORT, ScGetBridgeSupport, InRpcBridgeSupport, OutRpcBridgeSupport) DECLARE_SC("RebootServer", RPC_TEST, ScRebootServer, InRpcTest, OutRpcTest) DECLARE_SC_EX("GetCaps", CAPSLIST, ScGetCaps, InRpcCapsList, OutRpcCapsList, FreeRpcCapsList) DECLARE_SC_EX("GetConfig", RPC_CONFIG, ScGetConfig, InRpcConfig, OutRpcConfig, FreeRpcConfig) DECLARE_SC_EX("SetConfig", RPC_CONFIG, ScSetConfig, InRpcConfig, OutRpcConfig, FreeRpcConfig) DECLARE_SC_EX("GetHubAdminOptions", RPC_ADMIN_OPTION, ScGetHubAdminOptions, InRpcAdminOption, OutRpcAdminOption, FreeRpcAdminOption) DECLARE_SC_EX("SetHubAdminOptions", RPC_ADMIN_OPTION, ScSetHubAdminOptions, InRpcAdminOption, OutRpcAdminOption, FreeRpcAdminOption) DECLARE_SC_EX("GetHubExtOptions", RPC_ADMIN_OPTION, ScGetHubExtOptions, InRpcAdminOption, OutRpcAdminOption, FreeRpcAdminOption) DECLARE_SC_EX("SetHubExtOptions", RPC_ADMIN_OPTION, ScSetHubExtOptions, InRpcAdminOption, OutRpcAdminOption, FreeRpcAdminOption) DECLARE_SC_EX("GetDefaultHubAdminOptions", RPC_ADMIN_OPTION, ScGetDefaultHubAdminOptions, InRpcAdminOption, OutRpcAdminOption, FreeRpcAdminOption) DECLARE_SC("AddL3Switch", RPC_L3SW, ScAddL3Switch, InRpcL3Sw, OutRpcL3Sw) DECLARE_SC("DelL3Switch", RPC_L3SW, ScDelL3Switch, InRpcL3Sw, OutRpcL3Sw) DECLARE_SC_EX("EnumL3Switch", RPC_ENUM_L3SW, ScEnumL3Switch, InRpcEnumL3Sw, OutRpcEnumL3Sw, FreeRpcEnumL3Sw) DECLARE_SC("StartL3Switch", RPC_L3SW, ScStartL3Switch, InRpcL3Sw, OutRpcL3Sw) DECLARE_SC("StopL3Switch", RPC_L3SW, ScStopL3Switch, InRpcL3Sw, OutRpcL3Sw) DECLARE_SC("AddL3If", RPC_L3IF, ScAddL3If, InRpcL3If, OutRpcL3If) DECLARE_SC("DelL3If", RPC_L3IF, ScDelL3If, InRpcL3If, OutRpcL3If) DECLARE_SC_EX("EnumL3If", RPC_ENUM_L3IF, ScEnumL3If, InRpcEnumL3If, OutRpcEnumL3If, FreeRpcEnumL3If) DECLARE_SC("AddL3Table", RPC_L3TABLE, ScAddL3Table, InRpcL3Table, OutRpcL3Table) DECLARE_SC("DelL3Table", RPC_L3TABLE, ScDelL3Table, InRpcL3Table, OutRpcL3Table) DECLARE_SC_EX("EnumL3Table", RPC_ENUM_L3TABLE, ScEnumL3Table, InRpcEnumL3Table, OutRpcEnumL3Table, FreeRpcEnumL3Table) DECLARE_SC_EX("EnumCrl", RPC_ENUM_CRL, ScEnumCrl, InRpcEnumCrl, OutRpcEnumCrl, FreeRpcEnumCrl) DECLARE_SC_EX("AddCrl", RPC_CRL, ScAddCrl, InRpcCrl, OutRpcCrl, FreeRpcCrl) DECLARE_SC_EX("DelCrl", RPC_CRL, ScDelCrl, InRpcCrl, OutRpcCrl, FreeRpcCrl) DECLARE_SC_EX("GetCrl", RPC_CRL, ScGetCrl, InRpcCrl, OutRpcCrl, FreeRpcCrl) DECLARE_SC_EX("SetCrl", RPC_CRL, ScSetCrl, InRpcCrl, OutRpcCrl, FreeRpcCrl) DECLARE_SC_EX("SetAcList", RPC_AC_LIST, ScSetAcList, InRpcAcList, OutRpcAcList, FreeRpcAcList) DECLARE_SC_EX("GetAcList", RPC_AC_LIST, ScGetAcList, InRpcAcList, OutRpcAcList, FreeRpcAcList) DECLARE_SC_EX("EnumLogFile", RPC_ENUM_LOG_FILE, ScEnumLogFile, InRpcEnumLogFile, OutRpcEnumLogFile, FreeRpcEnumLogFile) DECLARE_SC_EX("ReadLogFile", RPC_READ_LOG_FILE, ScReadLogFile, InRpcReadLogFile, OutRpcReadLogFile, FreeRpcReadLogFile) DECLARE_SC("AddLicenseKey", RPC_TEST, ScAddLicenseKey, InRpcTest, OutRpcTest) DECLARE_SC("DelLicenseKey", RPC_TEST, ScDelLicenseKey, InRpcTest, OutRpcTest) DECLARE_SC_EX("EnumLicenseKey", RPC_ENUM_LICENSE_KEY, ScEnumLicenseKey, InRpcEnumLicenseKey, OutRpcEnumLicenseKey, FreeRpcEnumLicenseKey) DECLARE_SC("GetLicenseStatus", RPC_LICENSE_STATUS, ScGetLicenseStatus, InRpcLicenseStatus, OutRpcLicenseStatus) DECLARE_SC("SetSysLog", SYSLOG_SETTING, ScSetSysLog, InRpcSysLogSetting, OutRpcSysLogSetting) DECLARE_SC("GetSysLog", SYSLOG_SETTING, ScGetSysLog, InRpcSysLogSetting, OutRpcSysLogSetting) DECLARE_SC_EX("EnumEthVLan", RPC_ENUM_ETH_VLAN, ScEnumEthVLan, InRpcEnumEthVLan, OutRpcEnumEthVLan, FreeRpcEnumEthVLan) DECLARE_SC("SetEnableEthVLan", RPC_TEST, ScSetEnableEthVLan, InRpcTest, OutRpcTest) DECLARE_SC_EX("SetHubMsg", RPC_MSG, ScSetHubMsg, InRpcMsg, OutRpcMsg, FreeRpcMsg) DECLARE_SC_EX("GetHubMsg", RPC_MSG, ScGetHubMsg, InRpcMsg, OutRpcMsg, FreeRpcMsg) DECLARE_SC("Crash", RPC_TEST, ScCrash, InRpcTest, OutRpcTest) DECLARE_SC_EX("GetAdminMsg", RPC_MSG, ScGetAdminMsg, InRpcMsg, OutRpcMsg, FreeRpcMsg) DECLARE_SC("Flush", RPC_TEST, ScFlush, InRpcTest, OutRpcTest) DECLARE_SC("Debug", RPC_TEST, ScDebug, InRpcTest, OutRpcTest) DECLARE_SC("SetIPsecServices", IPSEC_SERVICES, ScSetIPsecServices, InIPsecServices, OutIPsecServices) DECLARE_SC("GetIPsecServices", IPSEC_SERVICES, ScGetIPsecServices, InIPsecServices, OutIPsecServices) DECLARE_SC("AddEtherIpId", ETHERIP_ID, ScAddEtherIpId, InEtherIpId, OutEtherIpId) DECLARE_SC("GetEtherIpId", ETHERIP_ID, ScGetEtherIpId, InEtherIpId, OutEtherIpId) DECLARE_SC("DeleteEtherIpId", ETHERIP_ID, ScDeleteEtherIpId, InEtherIpId, OutEtherIpId) DECLARE_SC_EX("EnumEtherIpId", RPC_ENUM_ETHERIP_ID, ScEnumEtherIpId, InRpcEnumEtherIpId, OutRpcEnumEtherIpId, FreeRpcEnumEtherIpId) DECLARE_SC("SetOpenVpnSstpConfig", OPENVPN_SSTP_CONFIG, ScSetOpenVpnSstpConfig, InOpenVpnSstpConfig, OutOpenVpnSstpConfig) DECLARE_SC("GetOpenVpnSstpConfig", OPENVPN_SSTP_CONFIG, ScGetOpenVpnSstpConfig, InOpenVpnSstpConfig, OutOpenVpnSstpConfig) DECLARE_SC("GetDDnsClientStatus", DDNS_CLIENT_STATUS, ScGetDDnsClientStatus, InDDnsClientStatus, OutDDnsClientStatus) DECLARE_SC("ChangeDDnsClientHostname", RPC_TEST, ScChangeDDnsClientHostname, InRpcTest, OutRpcTest) DECLARE_SC("RegenerateServerCert", RPC_TEST, ScRegenerateServerCert, InRpcTest, OutRpcTest) DECLARE_SC_EX("MakeOpenVpnConfigFile", RPC_READ_LOG_FILE, ScMakeOpenVpnConfigFile, InRpcReadLogFile, OutRpcReadLogFile, FreeRpcReadLogFile) DECLARE_SC("SetSpecialListener", RPC_SPECIAL_LISTENER, ScSetSpecialListener, InRpcSpecialListener, OutRpcSpecialListener) DECLARE_SC("GetSpecialListener", RPC_SPECIAL_LISTENER, ScGetSpecialListener, InRpcSpecialListener, OutRpcSpecialListener) DECLARE_SC("GetAzureStatus", RPC_AZURE_STATUS, ScGetAzureStatus, InRpcAzureStatus, OutRpcAzureStatus) DECLARE_SC("SetAzureStatus", RPC_AZURE_STATUS, ScSetAzureStatus, InRpcAzureStatus, OutRpcAzureStatus) DECLARE_SC("GetDDnsInternetSettng", INTERNET_SETTING, ScGetDDnsInternetSetting, InRpcInternetSetting, OutRpcInternetSetting) DECLARE_SC("SetDDnsInternetSettng", INTERNET_SETTING, ScSetDDnsInternetSetting, InRpcInternetSetting, OutRpcInternetSetting) // RPC call function declaration: till here // Setting VPN Gate Server Configuration UINT StSetVgsConfig(ADMIN *a, VGS_CONFIG *t) { return ERR_NOT_SUPPORTED; } // Get VPN Gate configuration UINT StGetVgsConfig(ADMIN *a, VGS_CONFIG *t) { return ERR_NOT_SUPPORTED; } // Get DDNS proxy configuration UINT StGetDDnsInternetSetting(ADMIN *a, INTERNET_SETTING *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (s->DDnsClient == NULL) { return ERR_NOT_SUPPORTED; } Zero(t, sizeof(INTERNET_SETTING)); DCGetInternetSetting(s->DDnsClient, t); return ret; } // Set DDNS proxy configuration UINT StSetDDnsInternetSetting(ADMIN *a, INTERNET_SETTING *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (s->DDnsClient == NULL) { return ERR_NOT_SUPPORTED; } DCSetInternetSetting(s->DDnsClient, t); IncrementServerConfigRevision(s); return ret; } // Get Azure status UINT StGetAzureStatus(ADMIN *a, RPC_AZURE_STATUS *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; AZURE_CLIENT *ac; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (SiIsAzureSupported(s) == false) { return ERR_NOT_SUPPORTED; } ac = s->AzureClient; if (ac == NULL) { return ERR_NOT_SUPPORTED; } Zero(t, sizeof(RPC_AZURE_STATUS)); Lock(ac->Lock); { t->IsConnected = ac->IsConnected; t->IsEnabled = ac->IsEnabled; } Unlock(ac->Lock); return ERR_NO_ERROR; } // Set Azure status UINT StSetAzureStatus(ADMIN *a, RPC_AZURE_STATUS *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (SiIsAzureSupported(s) == false) { return ERR_NOT_SUPPORTED; } SiSetAzureEnable(s, t->IsEnabled); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Get special listener status UINT StGetSpecialListener(ADMIN *a, RPC_SPECIAL_LISTENER *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; Zero(t, sizeof(RPC_SPECIAL_LISTENER)); t->VpnOverDnsListener = s->EnableVpnOverDns; t->VpnOverIcmpListener = s->EnableVpnOverIcmp; return ERR_NO_ERROR; } // Set special listener status UINT StSetSpecialListener(ADMIN *a, RPC_SPECIAL_LISTENER *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; // Check ports if (t->VpnOverDnsListener && (MAKEBOOL(s->EnableVpnOverDns) != MAKEBOOL(t->VpnOverDnsListener))) { if (SiCanOpenVpnOverDnsPort() == false) { return ERR_SPECIAL_LISTENER_DNS_ERROR; } } if (t->VpnOverIcmpListener && (MAKEBOOL(s->EnableVpnOverIcmp) != MAKEBOOL(t->VpnOverIcmpListener))) { if (SiCanOpenVpnOverIcmpPort() == false) { return ERR_SPECIAL_LISTENER_ICMP_ERROR; } } s->EnableVpnOverDns = t->VpnOverDnsListener; s->EnableVpnOverIcmp = t->VpnOverIcmpListener; SiApplySpecialListenerStatus(s); ALog(a, NULL, "LA_SET_SPECIAL_LISTENER"); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Set configurations for OpenVPN and SSTP UINT StSetOpenVpnSstpConfig(ADMIN *a, OPENVPN_SSTP_CONFIG *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_NOT_SUPPORTED; } SiSetOpenVPNAndSSTPConfig(s, t); ALog(a, NULL, "LA_SET_OVPN_SSTP_CONFIG"); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Get configurations for OpenVPN and SSTP UINT StGetOpenVpnSstpConfig(ADMIN *a, OPENVPN_SSTP_CONFIG *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_NOT_SUPPORTED; } Zero(t, sizeof(OPENVPN_SSTP_CONFIG)); SiGetOpenVPNAndSSTPConfig(s, t); return ERR_NO_ERROR; } // Get status of DDNS client UINT StGetDDnsClientStatus(ADMIN *a, DDNS_CLIENT_STATUS *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (s->DDnsClient == NULL) { return ERR_NOT_SUPPORTED; } Zero(t, sizeof(DDNS_CLIENT_STATUS)); DCGetStatus(s->DDnsClient, t); return ERR_NO_ERROR; } // Change host-name for DDNS client UINT StChangeDDnsClientHostname(ADMIN *a, RPC_TEST *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (s->DDnsClient == NULL) { return ERR_NOT_SUPPORTED; } ret = DCChangeHostName(s->DDnsClient, t->StrValue); if (ret == ERR_NO_ERROR) { ALog(a, NULL, "LA_DDNS_HOSTNAME_CHANGED", t->StrValue); } IncrementServerConfigRevision(s); return ret; } // Regenerate server certification UINT StRegenerateServerCert(ADMIN *a, RPC_TEST *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; X *x; K *k; SERVER_ADMIN_ONLY; SiGenerateDefaultCertEx(&x, &k, t->StrValue); SetCedarCert(c, x, k); ALog(a, NULL, "LA_REGENERATE_SERVER_CERT", t->StrValue); IncrementServerConfigRevision(s); FreeX(x); FreeK(k); return ERR_NO_ERROR; } // Generate OpenVPN configuration files UINT StMakeOpenVpnConfigFile(ADMIN *a, RPC_READ_LOG_FILE *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; ZIP_PACKER *p; FIFO *f; BUF *readme_buf; BUF *readme_pdf_buf; BUF *sample_buf; OPENVPN_SSTP_CONFIG config; LIST *port_list; char my_hostname[MAX_SIZE]; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_NOT_SUPPORTED; } SiGetOpenVPNAndSSTPConfig(s, &config); if (config.EnableOpenVPN == false) { return ERR_OPENVPN_IS_NOT_ENABLED; } port_list = s->PortsUDP; FreeRpcReadLogFile(t); Zero(t, sizeof(RPC_READ_LOG_FILE)); p = NewZipPacker(); // readme.txt readme_buf = ReadDump("|openvpn_readme.txt"); // readme.pdf readme_pdf_buf = ReadDump("|openvpn_readme.pdf"); // sample.ovpn sample_buf = ReadDump("|openvpn_sample.ovpn"); // host name GetMachineHostName(my_hostname, sizeof(my_hostname)); my_hostname[16] = 0; if (readme_buf == NULL || sample_buf == NULL || readme_pdf_buf == NULL) { ret = ERR_INTERNAL_ERROR; } else { BUF *config_l3_buf, *config_l2_buf; X *x = NULL; BUF *x_buf; char protocol[MAX_SIZE]; UINT port = OPENVPN_UDP_PORT; char port_str[MAX_SIZE]; char hostname[MAX_SIZE]; char tag_before_hostname[MAX_SIZE]; DDNS_CLIENT_STATUS ddns; UCHAR *zero_buffer; UINT zero_buffer_size = 128 * 1024; char name_tmp[MAX_SIZE]; zero_buffer = ZeroMalloc(zero_buffer_size); if (x == NULL) { Lock(c->lock); { x = CloneX(c->ServerX); } Unlock(c->lock); if (x != NULL) { // Get the root certificate if (x->root_cert == false) { X *root_x = NULL; LIST *cert_list = NewCertList(true); if (TryGetRootCertChain(cert_list, x, true, &root_x)) { FreeX(x); x = root_x; } FreeCertList(cert_list); } } } x_buf = XToBuf(x, true); SeekBufToEnd(x_buf); WriteBufChar(x_buf, 0); SeekBufToBegin(x_buf); FreeX(x); Zero(hostname, sizeof(hostname)); Zero(tag_before_hostname, sizeof(tag_before_hostname)); Zero(&ddns, sizeof(ddns)); if (s->DDnsClient != NULL) { DCGetStatus(s->DDnsClient, &ddns); if (IsEmptyStr(ddns.CurrentHostName) == false && IsEmptyStr(ddns.DnsSuffix) == false && ddns.Err_IPv4 == ERR_NO_ERROR) { StrCpy(tag_before_hostname, sizeof(tag_before_hostname), "# Note: The below hostname is came from the Dynamic DNS Client function\r\n" "# which is running on the VPN Server. If you don't want to use\r\n" "# the Dynamic DNS hostname, replace it to either IP address or\r\n" "# other domain's hostname.\r\n\r\n"); Format(hostname, sizeof(hostname), "%s.v4%s", ddns.CurrentHostName, ddns.DnsSuffix); } } if (IsEmptyStr(hostname)) { IP myip; Zero(&myip, sizeof(myip)); GetCurrentGlobalIP(&myip, false); if (IsZeroIP(&myip)) { GetCurrentGlobalIPGuess(&myip, false); } IPToStr(hostname, sizeof(hostname), &myip); } SeekBuf(sample_buf, sample_buf->Size, 0); WriteBuf(sample_buf, zero_buffer, zero_buffer_size); config_l3_buf = CloneBuf(sample_buf); config_l2_buf = CloneBuf(sample_buf); // Generate contents of configuration if (LIST_NUM(port_list) >= 1) { StrCpy(protocol, sizeof(protocol), "udp"); if (IsIntInList(port_list, OPENVPN_UDP_PORT)) { port = OPENVPN_UDP_PORT; } else { port = *((UINT *)(LIST_DATA(port_list, 0))); } } else { RPC_LISTENER_LIST tt; UINT i; port = 0; StrCpy(protocol, sizeof(protocol), "tcp"); Zero(&tt, sizeof(tt)); StEnumListener(a, &tt); for (i = 0;i < tt.NumPort;i++) { if (tt.Enables[i] && tt.Errors[i] == false) { port = tt.Ports[i]; break; } } FreeRpcListenerList(&tt); if (port == 0) { StrCpy(protocol, sizeof(protocol), "udp"); port = OPENVPN_UDP_PORT; } } ToStr(port_str, port); if (IsEmptyStr(my_hostname) == false) { StrCat(my_hostname, sizeof(my_hostname), "_"); StrLower(my_hostname); } ZipAddFileSimple(p, "readme.txt", LocalTime64(), 0, readme_buf->Buf, readme_buf->Size); ZipAddFileSimple(p, "readme.pdf", LocalTime64(), 0, readme_pdf_buf->Buf, readme_pdf_buf->Size); ReplaceStrEx((char *)config_l3_buf->Buf, config_l3_buf->Size, (char *)config_l3_buf->Buf, "$TAG_TUN_TAP$", "tun", false); ReplaceStrEx((char *)config_l3_buf->Buf, config_l3_buf->Size, (char *)config_l3_buf->Buf, "$TAG_PROTO$", protocol, false); ReplaceStrEx((char *)config_l3_buf->Buf, config_l3_buf->Size, (char *)config_l3_buf->Buf, "$TAG_HOSTNAME$", hostname, false); ReplaceStrEx((char *)config_l3_buf->Buf, config_l3_buf->Size, (char *)config_l3_buf->Buf, "$TAG_BEFORE_REMOTE$", tag_before_hostname, false); ReplaceStrEx((char *)config_l3_buf->Buf, config_l3_buf->Size, (char *)config_l3_buf->Buf, "$TAG_PORT$", port_str, false); if (x_buf != NULL) { ReplaceStrEx((char *)config_l3_buf->Buf, config_l3_buf->Size, (char *)config_l3_buf->Buf, "$CA$", x_buf->Buf, false); } Format(name_tmp, sizeof(name_tmp), "%sopenvpn_remote_access_l3.ovpn", my_hostname); ZipAddFileSimple(p, name_tmp, LocalTime64(), 0, config_l3_buf->Buf, StrLen(config_l3_buf->Buf)); ReplaceStrEx((char *)config_l2_buf->Buf, config_l2_buf->Size, (char *)config_l2_buf->Buf, "$TAG_TUN_TAP$", "tap", false); ReplaceStrEx((char *)config_l2_buf->Buf, config_l2_buf->Size, (char *)config_l2_buf->Buf, "$TAG_PROTO$", protocol, false); ReplaceStrEx((char *)config_l2_buf->Buf, config_l2_buf->Size, (char *)config_l2_buf->Buf, "$TAG_HOSTNAME$", hostname, false); ReplaceStrEx((char *)config_l2_buf->Buf, config_l2_buf->Size, (char *)config_l2_buf->Buf, "$TAG_BEFORE_REMOTE$", tag_before_hostname, false); ReplaceStrEx((char *)config_l2_buf->Buf, config_l2_buf->Size, (char *)config_l2_buf->Buf, "$TAG_PORT$", port_str, false); if (x_buf != NULL) { ReplaceStrEx((char *)config_l2_buf->Buf, config_l2_buf->Size, (char *)config_l2_buf->Buf, "$CA$", x_buf->Buf, false); } Format(name_tmp, sizeof(name_tmp), "%sopenvpn_site_to_site_bridge_l2.ovpn", my_hostname); ZipAddFileSimple(p, name_tmp, LocalTime64(), 0, config_l2_buf->Buf, StrLen(config_l2_buf->Buf)); FreeBuf(config_l3_buf); FreeBuf(config_l2_buf); f = ZipFinish(p); if (f != NULL) { t->Buffer = NewBuf(); WriteBuf(t->Buffer, FifoPtr(f), FifoSize(f)); SeekBuf(t->Buffer, 0, 0); } FreeBuf(readme_buf); FreeBuf(sample_buf); FreeBuf(readme_pdf_buf); FreeBuf(x_buf); Free(zero_buffer); } FreeZipPacker(p); return ERR_NO_ERROR; } // Set IPsec service configuration UINT StSetIPsecServices(ADMIN *a, IPSEC_SERVICES *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (GetServerCapsBool(s, "b_support_ipsec") == false || s->IPsecServer == NULL) { return ERR_NOT_SUPPORTED; } IPsecServerSetServices(s->IPsecServer, t); ALog(a, NULL, "LA_SET_IPSEC_CONFIG"); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Get IPsec service configuration UINT StGetIPsecServices(ADMIN *a, IPSEC_SERVICES *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (GetServerCapsBool(s, "b_support_ipsec") == false || s->IPsecServer == NULL) { return ERR_NOT_SUPPORTED; } Zero(t, sizeof(IPSEC_SERVICES)); IPsecServerGetServices(s->IPsecServer, t); return ERR_NO_ERROR; } // Add EtherIP ID setting UINT StAddEtherIpId(ADMIN *a, ETHERIP_ID *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (GetServerCapsBool(s, "b_support_ipsec") == false || s->IPsecServer == NULL) { return ERR_NOT_SUPPORTED; } AddEtherIPId(s->IPsecServer, t); ALog(a, NULL, "LA_ADD_ETHERIP_ID", t->Id); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Get EtherIP ID setting UINT StGetEtherIpId(ADMIN *a, ETHERIP_ID *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; char id[MAX_SIZE]; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (GetServerCapsBool(s, "b_support_ipsec") == false || s->IPsecServer == NULL) { return ERR_NOT_SUPPORTED; } StrCpy(id, sizeof(id), t->Id); Zero(t, sizeof(ETHERIP_ID)); if (SearchEtherIPId(s->IPsecServer, t, id) == false) { return ERR_OBJECT_NOT_FOUND; } return ERR_NO_ERROR; } // Delete EtherIP ID setting UINT StDeleteEtherIpId(ADMIN *a, ETHERIP_ID *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; char id[MAX_SIZE]; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (GetServerCapsBool(s, "b_support_ipsec") == false || s->IPsecServer == NULL) { return ERR_NOT_SUPPORTED; } StrCpy(id, sizeof(id), t->Id); if (DeleteEtherIPId(s->IPsecServer, id) == false) { return ERR_OBJECT_NOT_FOUND; } ALog(a, NULL, "LA_DEL_ETHERIP_ID", id); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Enumerate EtherIP ID settings UINT StEnumEtherIpId(ADMIN *a, RPC_ENUM_ETHERIP_ID *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; if (GetServerCapsBool(s, "b_support_ipsec") == false || s->IPsecServer == NULL) { return ERR_NOT_SUPPORTED; } FreeRpcEnumEtherIpId(t); Zero(t, sizeof(RPC_ENUM_ETHERIP_ID)); Lock(s->IPsecServer->LockSettings); { UINT i; UINT num; num = LIST_NUM(s->IPsecServer->EtherIPIdList); t->NumItem = num; t->IdList = ZeroMalloc(sizeof(ETHERIP_ID) * num); for (i = 0;i < num;i++) { ETHERIP_ID *d = &t->IdList[i]; ETHERIP_ID *src = LIST_DATA(s->IPsecServer->EtherIPIdList, i); Copy(d, src, sizeof(ETHERIP_ID)); } } Unlock(s->IPsecServer->LockSettings); return ERR_NO_ERROR; } // Set message of today on hub UINT StSetHubMsg(ADMIN *a, RPC_MSG *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } if (UniStrLen(t->Msg) > HUB_MAXMSG_LEN) { return ERR_MEMORY_NOT_ENOUGH; } StrCpy(hubname, sizeof(hubname), t->HubName); h = GetHub(c, hubname); if (h == NULL) { ret = ERR_HUB_NOT_FOUND; } else { if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_msg") != 0) { ret = ERR_NOT_ENOUGH_RIGHT; } else { SetHubMsg(h, t->Msg); } ReleaseHub(h); } IncrementServerConfigRevision(s); return ret; } // Get message of today on hub UINT StGetHubMsg(ADMIN *a, RPC_MSG *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } if (UniStrLen(t->Msg) > HUB_MAXMSG_LEN) { return ERR_MEMORY_NOT_ENOUGH; } StrCpy(hubname, sizeof(hubname), t->HubName); h = GetHub(c, hubname); if (h == NULL) { ret = ERR_HUB_NOT_FOUND; } else { FreeRpcMsg(t); Zero(t, sizeof(RPC_MSG)); t->Msg = GetHubMsg(h); ReleaseHub(h); } return ret; } // Do debug function UINT StDebug(ADMIN *a, RPC_TEST *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; RPC_TEST t2; SERVER_ADMIN_ONLY; Zero(&t2, sizeof(t2)); ret = SiDebug(s, &t2, t->IntValue, t->StrValue); if (ret == ERR_NO_ERROR) { Copy(t, &t2, sizeof(RPC_TEST)); } else { Zero(t, sizeof(RPC_TEST)); } return ret; } // Flush configuration file UINT StFlush(ADMIN *a, RPC_TEST *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; UINT size; SERVER_ADMIN_ONLY; size = SiWriteConfigurationFile(s); t->IntValue = size; return ERR_NO_ERROR; } // Do Crash UINT StCrash(ADMIN *a, RPC_TEST *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; #ifdef OS_WIN32 MsSetEnableMinidump(false); #endif // OS_WIN32 CrashNow(); return ERR_NO_ERROR; } // Get message for administrators UINT StGetAdminMsg(ADMIN *a, RPC_MSG *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; RPC_WINVER server_ver; RPC_WINVER client_ver; wchar_t winver_msg_client[3800]; wchar_t winver_msg_server[3800]; UINT tmpsize; wchar_t *tmp; FreeRpcMsg(t); Zero(t, sizeof(RPC_MSG)); // Check for Windows version GetWinVer(&server_ver); Copy(&client_ver, &a->ClientWinVer, sizeof(RPC_WINVER)); Zero(winver_msg_client, sizeof(winver_msg_client)); Zero(winver_msg_server, sizeof(winver_msg_server)); if (IsSupportedWinVer(&client_ver) == false) { SYSTEMTIME st; LocalTime(&st); UniFormat(winver_msg_client, sizeof(winver_msg_client), _UU("WINVER_ERROR_FORMAT"), _UU("WINVER_ERROR_PC_LOCAL"), client_ver.Title, _UU("WINVER_ERROR_VPNSERVER"), SUPPORTED_WINDOWS_LIST, _UU("WINVER_ERROR_PC_LOCAL"), _UU("WINVER_ERROR_VPNSERVER"), _UU("WINVER_ERROR_VPNSERVER"), _UU("WINVER_ERROR_VPNSERVER"), st.wYear, st.wMonth); } if (IsSupportedWinVer(&server_ver) == false) { SYSTEMTIME st; LocalTime(&st); UniFormat(winver_msg_server, sizeof(winver_msg_server), _UU("WINVER_ERROR_FORMAT"), _UU("WINVER_ERROR_PC_REMOTE"), server_ver.Title, _UU("WINVER_ERROR_VPNSERVER"), SUPPORTED_WINDOWS_LIST, _UU("WINVER_ERROR_PC_REMOTE"), _UU("WINVER_ERROR_VPNSERVER"), _UU("WINVER_ERROR_VPNSERVER"), _UU("WINVER_ERROR_VPNSERVER"), st.wYear, st.wMonth); } tmpsize = UniStrSize(winver_msg_client) + UniStrSize(winver_msg_server) + 10000; tmp = ZeroMalloc(tmpsize); if ( c->Bridge == false) { if (GetGlobalServerFlag(GSF_SHOW_OSS_MSG) != 0) { UniStrCat(tmp, tmpsize, _UU("OSS_MSG")); } } UniStrCat(tmp, tmpsize, winver_msg_client); UniStrCat(tmp, tmpsize, winver_msg_server); t->Msg = tmp; return ERR_NO_ERROR; } // Enumerate VLAN tag transparent setting UINT StEnumEthVLan(ADMIN *a, RPC_ENUM_ETH_VLAN *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; #ifdef OS_WIN32 if (GetServerCapsBool(s, "b_support_eth_vlan") == false) { ret = ERR_NOT_SUPPORTED; } else { FreeRpcEnumEthVLan(t); Zero(t, sizeof(RPC_ENUM_ETH_VLAN)); if (EnumEthVLanWin32(t) == false) { ret = ERR_INTERNAL_ERROR; } } #else // OS_WIN32 ret = ERR_NOT_SUPPORTED; #endif // OS_WIN32 return ret; } // Set VLAN tag transparent setting UINT StSetEnableEthVLan(ADMIN *a, RPC_TEST *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; #ifdef OS_WIN32 if (GetServerCapsBool(s, "b_support_eth_vlan") == false) { ret = ERR_NOT_SUPPORTED; } else if (MsIsAdmin() == false) { ret = ERR_NOT_ENOUGH_RIGHT; } else { if (SetVLanEnableStatus(t->StrValue, MAKEBOOL(t->IntValue)) == false) { ret = ERR_INTERNAL_ERROR; } } #else // OS_WIN32 ret = ERR_NOT_SUPPORTED; #endif // OS_WIN32 return ret; } // Get license status UINT StGetLicenseStatus(ADMIN *a, RPC_LICENSE_STATUS *t) { return ERR_NOT_SUPPORTED; } // Enumerate license key UINT StEnumLicenseKey(ADMIN *a, RPC_ENUM_LICENSE_KEY *t) { return ERR_NOT_SUPPORTED; } // Add new license key UINT StAddLicenseKey(ADMIN *a, RPC_TEST *t) { return ERR_NOT_SUPPORTED; } // Delete a license key UINT StDelLicenseKey(ADMIN *a, RPC_TEST *t) { return ERR_NOT_SUPPORTED; } // Download a log file BUF *DownloadFileFromServer(RPC *r, char *server_name, char *filepath, UINT total_size, DOWNLOAD_PROC *proc, void *param) { UINT offset; BUF *buf; // Validate arguments if (r == NULL || filepath == NULL) { return NULL; } if (server_name == NULL) { server_name = ""; } offset = 0; buf = NewBuf(); while (true) { DOWNLOAD_PROGRESS g; RPC_READ_LOG_FILE t; UINT ret; Zero(&t, sizeof(t)); StrCpy(t.FilePath, sizeof(t.FilePath), filepath); t.Offset = offset; StrCpy(t.ServerName, sizeof(t.ServerName), server_name); ret = ScReadLogFile(r, &t); if (ret != ERR_NO_ERROR) { // Failed FreeRpcReadLogFile(&t); FreeBuf(buf); return NULL; } if (t.Buffer == NULL) { // read to the end break; } // Update current progress offset += t.Buffer->Size; Zero(&g, sizeof(g)); g.Param = param; g.CurrentSize = offset; g.TotalSize = MAX(total_size, offset); g.ProgressPercent = (UINT)(MAKESURE((UINT64)g.CurrentSize * 100ULL / (UINT64)(MAX(g.TotalSize, 1)), 0, 100ULL)); WriteBuf(buf, t.Buffer->Buf, t.Buffer->Size); FreeRpcReadLogFile(&t); if (proc != NULL) { if (proc(&g) == false) { // Canceled by user FreeBuf(buf); return NULL; } } } if (buf->Size == 0) { // Downloading failed FreeBuf(buf); return NULL; } return buf; } // Read a log file UINT StReadLogFile(ADMIN *a, RPC_READ_LOG_FILE *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; char logfilename[MAX_PATH]; char servername[MAX_HOST_NAME_LEN + 1]; UINT offset; bool local = true; if (IsEmptyStr(t->FilePath)) { return ERR_INVALID_PARAMETER; } StrCpy(logfilename, sizeof(logfilename), t->FilePath); StrCpy(servername, sizeof(servername), t->ServerName); offset = t->Offset; if (s->ServerType != SERVER_TYPE_FARM_CONTROLLER) { GetMachineName(servername, sizeof(servername)); } // Check the permission to read the log file if (a->LogFileList == NULL) { // Enum the log files first RPC_ENUM_LOG_FILE elf; UINT elf_ret; Zero(&elf, sizeof(elf)); elf_ret = StEnumLogFile(a, &elf); FreeRpcEnumLogFile(&elf); if (elf_ret != ERR_NO_ERROR) { return elf_ret; } } if (CheckLogFileNameFromEnumList(a->LogFileList, logfilename, servername) == false) { // There is no such file in the log file list return ERR_OBJECT_NOT_FOUND; } FreeRpcReadLogFile(t); Zero(t, sizeof(RPC_READ_LOG_FILE)); if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { UINT i; // When the host name in request is a cluster member, redirect the request LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { if (StrCmpi(f->hostname, servername) == 0) { RPC_READ_LOG_FILE tt; Zero(&tt, sizeof(tt)); local = false; StrCpy(tt.ServerName, sizeof(tt.ServerName), servername); StrCpy(tt.FilePath, sizeof(tt.FilePath), logfilename); tt.Offset = offset; if (SiCallReadLogFile(s, f, &tt)) { if (tt.Buffer != NULL && tt.Buffer->Size > 0) { t->Buffer = NewBuf(); WriteBuf(t->Buffer, tt.Buffer->Buf, tt.Buffer->Size); } } FreeRpcReadLogFile(&tt); break; } } } } UnlockList(s->FarmMemberList); } // Read a local file if (local) { SiReadLocalLogFile(s, logfilename, offset, t); } if (offset == 0) { ALog(a, NULL, "LA_READ_LOG_FILE", servername, logfilename); } StrCpy(t->FilePath, sizeof(t->FilePath), logfilename); StrCpy(t->ServerName, sizeof(t->ServerName), servername); t->Offset = offset; return ERR_NO_ERROR; } // Enumerate log files UINT StEnumLogFile(ADMIN *a, RPC_ENUM_LOG_FILE *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT i; bool no_access = false; HUB *h; if (a->ServerAdmin == false) { h = GetHub(c, a->HubName); if (a->ServerAdmin == false && GetHubAdminOption(h, "no_read_log_file") != 0) { no_access = true; } ReleaseHub(h); } else { if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { // Since Management session will become unstable if log files are // enumerated on a cluster controller, it forbids. return ERR_NOT_SUPPORTED; } } if (no_access) { return ERR_NOT_ENOUGH_RIGHT; } FreeRpcEnumLogFile(t); Zero(t, sizeof(RPC_ENUM_LOG_FILE)); // Enumerate local log files SiEnumLocalLogFileList(s, a->ServerAdmin ? NULL : a->HubName, t); if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { UINT i; LIST *tt_list = NewListFast(NULL); LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { // Enumerate log files on other cluster members. RPC_ENUM_LOG_FILE *tt; tt = ZeroMalloc(sizeof(RPC_ENUM_LOG_FILE)); if (SiCallEnumLogFileList(s, f, tt, a->ServerAdmin ? "" : a->HubName)) { UINT i; for (i = 0;i < tt->NumItem;i++) { RPC_ENUM_LOG_FILE_ITEM *e = &tt->Items[i]; StrCpy(e->ServerName, sizeof(e->ServerName), f->hostname); } Add(tt_list, tt); } else { Free(tt); } } } } UnlockList(s->FarmMemberList); for (i = 0;i < LIST_NUM(tt_list);i++) { RPC_ENUM_LOG_FILE *tt = LIST_DATA(tt_list, i); AdjoinRpcEnumLogFile(t, tt); FreeRpcEnumLogFile(tt); Free(tt); } ReleaseList(tt_list); } // Cache the last list of log files on RPC session if (a->LogFileList != NULL) { FreeEnumLogFile(a->LogFileList); } a->LogFileList = NewListFast(CmpLogFile); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_LOG_FILE_ITEM *e = &t->Items[i]; LOG_FILE *f = ZeroMalloc(sizeof(LOG_FILE)); f->FileSize = e->FileSize; f->UpdatedTime = e->UpdatedTime; StrCpy(f->Path, sizeof(f->Path), e->FilePath); StrCpy(f->ServerName, sizeof(f->ServerName), e->ServerName); Insert(a->LogFileList, f); } return ERR_NO_ERROR; } // Get access control list UINT StGetAcList(ADMIN *a, RPC_AC_LIST *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } StrCpy(hubname, sizeof(hubname), t->HubName); FreeRpcAcList(t); Zero(t, sizeof(RPC_AC_LIST)); StrCpy(t->HubName, sizeof(t->HubName), hubname); h = GetHub(c, hubname); if (h == NULL) { ret = ERR_HUB_NOT_FOUND; } else { if (h->HubDb == NULL) { ret = ERR_NOT_SUPPORTED; } else { HUBDB *db = h->HubDb; LockList(db->AcList); { t->o = NewAcList(); SetAcList(t->o, db->AcList); } UnlockList(db->AcList); } ReleaseHub(h); } return ret; } // Set access control list UINT StSetAcList(ADMIN *a, RPC_AC_LIST *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; if (c->Bridge) { return ERR_NOT_SUPPORTED; } if (GetGlobalServerFlag(GSF_DISABLE_AC) != 0 && LIST_NUM(t->o) >= 1) { return ERR_NOT_SUPPORTED_FUNCTION_ON_OPENSOURCE; } CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } StrCpy(hubname, sizeof(hubname), t->HubName); h = GetHub(c, hubname); if (h == NULL) { ret = ERR_HUB_NOT_FOUND; } else { if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_access_control_list") != 0) { ret = ERR_NOT_ENOUGH_RIGHT; } else { if (h->HubDb == NULL) { ret = ERR_NOT_SUPPORTED; } else { HUBDB *db = h->HubDb; LockList(db->AcList); { SetAcList(db->AcList, t->o); { ALog(a, h, "LA_SET_AC_LIST", LIST_NUM(t->o)); IncrementServerConfigRevision(s); } } UnlockList(db->AcList); } } ReleaseHub(h); } return ret; } // Set CRL (Certificate Revocation List) entry UINT StSetCrl(ADMIN *a, RPC_CRL *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; UINT key; char hubname[MAX_HUBNAME_LEN + 1]; CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } StrCpy(hubname, sizeof(hubname), t->HubName); key = t->Key; h = GetHub(c, hubname); if (h == NULL) { ret = ERR_HUB_NOT_FOUND; } else { if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_crl_list") != 0) { ret = ERR_NOT_ENOUGH_RIGHT; } else { if (h->HubDb == NULL) { ret = ERR_NOT_SUPPORTED; } else { LockList(h->HubDb->CrlList); { CRL *crl = ListKeyToPointer(h->HubDb->CrlList, t->Key); if (crl == NULL) { ret = ERR_OBJECT_NOT_FOUND; } else { CRL *new_crl = CopyCrl(t->Crl); if (ReplaceListPointer(h->HubDb->CrlList, crl, new_crl)) { ALog(a, h, "LA_ADD_CRL"); FreeCrl(crl); IncrementServerConfigRevision(s); } } } UnlockList(h->HubDb->CrlList); } } ReleaseHub(h); } return ret; } // Get CRL (Certificate Revocation List) entry UINT StGetCrl(ADMIN *a, RPC_CRL *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; UINT key; char hubname[MAX_HUBNAME_LEN + 1]; CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } StrCpy(hubname, sizeof(hubname), t->HubName); key = t->Key; FreeRpcCrl(t); Zero(t, sizeof(RPC_CRL)); StrCpy(t->HubName, sizeof(t->HubName), hubname); t->Key = key; h = GetHub(c, hubname); if (h == NULL) { ret = ERR_HUB_NOT_FOUND; } else { if (h->HubDb == NULL) { ret = ERR_NOT_SUPPORTED; } else { LockList(h->HubDb->CrlList); { CRL *crl = ListKeyToPointer(h->HubDb->CrlList, t->Key); if (crl == NULL) { ret = ERR_OBJECT_NOT_FOUND; } else { t->Crl = CopyCrl(crl); } } UnlockList(h->HubDb->CrlList); } ReleaseHub(h); } return ret; } // Delete CRL (Certificate Revocation List) entry UINT StDelCrl(ADMIN *a, RPC_CRL *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } StrCpy(hubname, sizeof(hubname), t->HubName); h = GetHub(c, hubname); if (h == NULL) { ret = ERR_HUB_NOT_FOUND; } else { if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_crl_list") != 0) { ret = ERR_NOT_ENOUGH_RIGHT; } else { if (h->HubDb == NULL) { ret = ERR_NOT_SUPPORTED; } else { LockList(h->HubDb->CrlList); { CRL *crl = ListKeyToPointer(h->HubDb->CrlList, t->Key); if (crl == NULL) { ret = ERR_OBJECT_NOT_FOUND; } else { ALog(a, h, "LA_DEL_CRL"); FreeCrl(crl); Delete(h->HubDb->CrlList, crl); } } UnlockList(h->HubDb->CrlList); } } ReleaseHub(h); } return ret; } // Add new CRL (Certificate Revocation List) entry UINT StAddCrl(ADMIN *a, RPC_CRL *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; if (c->Bridge) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } StrCpy(hubname, sizeof(hubname), t->HubName); h = GetHub(c, hubname); if (h == NULL) { ret = ERR_HUB_NOT_FOUND; } else { if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_crl_list") != 0) { ret = ERR_NOT_ENOUGH_RIGHT; } else { if (h->HubDb == NULL) { ret = ERR_NOT_SUPPORTED; } else { LockList(h->HubDb->CrlList); { if (LIST_NUM(h->HubDb->CrlList) < MAX_HUB_CRLS) { CRL *crl = CopyCrl(t->Crl); Insert(h->HubDb->CrlList, crl); ALog(a, h, "LA_SET_CRL"); IncrementServerConfigRevision(s); } } UnlockList(h->HubDb->CrlList); } } ReleaseHub(h); } return ret; } // Get CRL (Certificate Revocation List) index UINT StEnumCrl(ADMIN *a, RPC_ENUM_CRL *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } StrCpy(hubname, sizeof(hubname), t->HubName); FreeRpcEnumCrl(t); Zero(t, sizeof(RPC_ENUM_CRL)); StrCpy(t->HubName, sizeof(t->HubName), hubname); h = GetHub(c, hubname); if (h == NULL) { ret = ERR_HUB_NOT_FOUND; } else { if (h->HubDb == NULL) { ret = ERR_NOT_SUPPORTED; } else { LockList(h->HubDb->CrlList); { UINT i; t->NumItem = LIST_NUM(h->HubDb->CrlList); t->Items = ZeroMalloc(sizeof(RPC_ENUM_CRL_ITEM) * t->NumItem); for (i = 0;i < LIST_NUM(h->HubDb->CrlList);i++) { CRL *crl = LIST_DATA(h->HubDb->CrlList, i); wchar_t *info = GenerateCrlStr(crl); UniStrCpy(t->Items[i].CrlInfo, sizeof(t->Items[i].CrlInfo), info); Free(info); t->Items[i].Key = POINTER_TO_KEY(crl); } } UnlockList(h->HubDb->CrlList); } ReleaseHub(h); } return ret; } // Get routing table on virtual L3 switch UINT StEnumL3Table(ADMIN *a, RPC_ENUM_L3TABLE *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; L3SW *sw; char name[MAX_HUBNAME_LEN + 1]; if (IsEmptyStr(t->Name)) { return ERR_INVALID_PARAMETER; } NO_SUPPORT_FOR_BRIDGE; StrCpy(name, sizeof(name), t->Name); FreeRpcEnumL3Table(t); Zero(t, sizeof(RPC_ENUM_L3TABLE)); StrCpy(t->Name, sizeof(t->Name), name); sw = L3GetSw(c, t->Name); if (sw == NULL) { ret = ERR_LAYER3_SW_NOT_FOUND; } else { UINT i; Lock(sw->lock); { t->NumItem = LIST_NUM(sw->TableList); t->Items = ZeroMalloc(sizeof(RPC_L3TABLE) * t->NumItem); for (i = 0;i < t->NumItem;i++) { L3TABLE *tbl = LIST_DATA(sw->TableList, i); RPC_L3TABLE *e = &t->Items[i]; StrCpy(e->Name, sizeof(e->Name), name); e->NetworkAddress = tbl->NetworkAddress; e->SubnetMask = tbl->SubnetMask; e->GatewayAddress = tbl->GatewayAddress; e->Metric = tbl->Metric; } } Unlock(sw->lock); ReleaseL3Sw(sw); } return ret; } // Delete routing table entry on virtual L3 switch UINT StDelL3Table(ADMIN *a, RPC_L3TABLE *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; L3SW *sw; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; sw = L3GetSw(c, t->Name); if (sw == NULL) { ret = ERR_LAYER3_SW_NOT_FOUND; } else { L3TABLE tbl; Zero(&tbl, sizeof(tbl)); tbl.NetworkAddress = t->NetworkAddress; tbl.SubnetMask = t->SubnetMask; tbl.GatewayAddress = t->GatewayAddress; tbl.Metric = t->Metric; if (L3DelTable(sw, &tbl) == false) { ret = ERR_LAYER3_TABLE_DEL_FAILED; } else { char tmp[MAX_SIZE]; IPToStr32(tmp, sizeof(tmp), tbl.NetworkAddress); ALog(a, NULL, "LA_DEL_L3_TABLE", tmp, t->Name); IncrementServerConfigRevision(s); } ReleaseL3Sw(sw); } return ret; } // Add new routing table entry on virtual L3 switch UINT StAddL3Table(ADMIN *a, RPC_L3TABLE *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; L3SW *sw; if (IsNetworkAddress32(t->NetworkAddress, t->SubnetMask) == false || IsHostIPAddress32(t->GatewayAddress) == false) { return ERR_INVALID_PARAMETER; } SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; sw = L3GetSw(c, t->Name); if (sw == NULL) { ret = ERR_LAYER3_SW_NOT_FOUND; } else { L3TABLE tbl; Zero(&tbl, sizeof(tbl)); tbl.NetworkAddress = t->NetworkAddress; tbl.SubnetMask = t->SubnetMask; tbl.GatewayAddress = t->GatewayAddress; tbl.Metric = t->Metric; if (L3AddTable(sw, &tbl) == false) { ret = ERR_LAYER3_TABLE_ADD_FAILED; } else { char tmp[MAX_SIZE]; IPToStr32(tmp, sizeof(tmp), tbl.NetworkAddress); ALog(a, NULL, "LA_ADD_L3_TABLE", tmp, t->Name); IncrementServerConfigRevision(s); } ReleaseL3Sw(sw); } return ret; } // Enumerate virtual interfaces on virtual L3 switch UINT StEnumL3If(ADMIN *a, RPC_ENUM_L3IF *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; L3SW *sw; char name[MAX_HUBNAME_LEN + 1]; NO_SUPPORT_FOR_BRIDGE; StrCpy(name, sizeof(name), t->Name); FreeRpcEnumL3If(t); Zero(t, sizeof(RPC_ENUM_L3IF)); StrCpy(t->Name, sizeof(t->Name), name); sw = L3GetSw(c, t->Name); if (sw == NULL) { ret = ERR_LAYER3_SW_NOT_FOUND; } else { Lock(sw->lock); { UINT i; t->NumItem = LIST_NUM(sw->IfList); t->Items = ZeroMalloc(sizeof(RPC_L3IF) * t->NumItem); for (i = 0;i < t->NumItem;i++) { L3IF *f = LIST_DATA(sw->IfList, i); RPC_L3IF *e = &t->Items[i]; StrCpy(e->Name, sizeof(e->Name), sw->Name); StrCpy(e->HubName, sizeof(e->HubName), f->HubName); e->IpAddress = f->IpAddress; e->SubnetMask = f->SubnetMask; } } Unlock(sw->lock); ReleaseL3Sw(sw); } return ret; } // Delete a virtual interface on virtual L3 switch UINT StDelL3If(ADMIN *a, RPC_L3IF *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; L3SW *sw; NO_SUPPORT_FOR_BRIDGE; SERVER_ADMIN_ONLY; sw = L3GetSw(c, t->Name); if (sw == NULL) { ret = ERR_LAYER3_SW_NOT_FOUND; } else { if (L3DelIf(sw, t->HubName) == false) { ret = ERR_LAYER3_IF_DEL_FAILED; } else { ALog(a, NULL, "LA_DEL_L3_IF", t->HubName, t->Name); IncrementServerConfigRevision(s); } ReleaseL3Sw(sw); } return ret; } // Add new virtual interface on virtual L3 switch UINT StAddL3If(ADMIN *a, RPC_L3IF *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; L3SW *sw; if (IsSubnetMask32(t->SubnetMask) == false || IsHostIPAddress32(t->IpAddress) == false) { return ERR_INVALID_PARAMETER; } if ((t->IpAddress & (~t->SubnetMask)) == 0) { return ERR_INVALID_PARAMETER; } NO_SUPPORT_FOR_BRIDGE; SERVER_ADMIN_ONLY; sw = L3GetSw(c, t->Name); if (sw == NULL) { ret = ERR_LAYER3_SW_NOT_FOUND; } else { Lock(sw->lock); { if (L3SearchIf(sw, t->HubName) != NULL) { // Already exists ret = ERR_LAYER3_IF_EXISTS; } else { if (L3AddIf(sw, t->HubName, t->IpAddress, t->SubnetMask) == false) { ret = ERR_LAYER3_IF_ADD_FAILED; } else { ALog(a, NULL, "LA_ADD_L3_IF", t->HubName, t->Name); IncrementServerConfigRevision(s); } } } Unlock(sw->lock); ReleaseL3Sw(sw); } return ret; } // Stop a virtual layer-3 switch UINT StStopL3Switch(ADMIN *a, RPC_L3SW *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; L3SW *sw; if (IsEmptyStr(t->Name)) { return ERR_INVALID_PARAMETER; } NO_SUPPORT_FOR_BRIDGE; SERVER_ADMIN_ONLY; sw = L3GetSw(c, t->Name); if (sw == NULL) { ret = ERR_LAYER3_SW_NOT_FOUND; } else { L3SwStop(sw); ALog(a, NULL, "LA_STOP_L3_SW", sw->Name); ReleaseL3Sw(sw); IncrementServerConfigRevision(s); } return ret; } // Start a virtual layer-3 switch UINT StStartL3Switch(ADMIN *a, RPC_L3SW *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; L3SW *sw; if (IsEmptyStr(t->Name)) { return ERR_INVALID_PARAMETER; } NO_SUPPORT_FOR_BRIDGE; SERVER_ADMIN_ONLY; sw = L3GetSw(c, t->Name); if (sw == NULL) { ret = ERR_LAYER3_SW_NOT_FOUND; } else { Lock(sw->lock); { // Count the registered virtual interfaces if (LIST_NUM(sw->IfList) >= 1) { L3SwStart(sw); ALog(a, NULL, "LA_START_L3_SW", sw->Name); IncrementServerConfigRevision(s); } else { ret = ERR_LAYER3_CANT_START_SWITCH; } } Unlock(sw->lock); ReleaseL3Sw(sw); } return ret; } // Enumerate virtual layer-3 switches UINT StEnumL3Switch(ADMIN *a, RPC_ENUM_L3SW *t) { UINT i; SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; NO_SUPPORT_FOR_BRIDGE; FreeRpcEnumL3Sw(t); Zero(t, sizeof(RPC_ENUM_L3SW)); LockList(c->L3SwList); { t->NumItem = LIST_NUM(c->L3SwList); t->Items = ZeroMalloc(sizeof(RPC_ENUM_L3SW_ITEM) * t->NumItem); for (i = 0;i < LIST_NUM(c->L3SwList);i++) { L3SW *sw = LIST_DATA(c->L3SwList, i); RPC_ENUM_L3SW_ITEM *e = &t->Items[i]; Lock(sw->lock); { StrCpy(e->Name, sizeof(e->Name), sw->Name); e->NumInterfaces = LIST_NUM(sw->IfList); e->NumTables = LIST_NUM(sw->TableList); e->Active = sw->Active; e->Online = sw->Online; } Unlock(sw->lock); } } UnlockList(c->L3SwList); return ret; } // Delete a virtual layer-3 switch UINT StDelL3Switch(ADMIN *a, RPC_L3SW *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; if (IsEmptyStr(t->Name)) { return ERR_INVALID_PARAMETER; } NO_SUPPORT_FOR_BRIDGE; SERVER_ADMIN_ONLY; if (L3DelSw(c, t->Name) == false) { ret = ERR_LAYER3_SW_NOT_FOUND; } else { ALog(a, NULL, "LA_DEL_L3_SW", t->Name); IncrementServerConfigRevision(s); } return ret; } // Add a new virtual layer-3 switch UINT StAddL3Switch(ADMIN *a, RPC_L3SW *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; L3SW *sw; NO_SUPPORT_FOR_BRIDGE; if (IsEmptyStr(t->Name)) { return ERR_INVALID_PARAMETER; } if (IsSafeStr(t->Name) == false) { return ERR_INVALID_PARAMETER; } SERVER_ADMIN_ONLY; // Duplication check sw = L3GetSw(c, t->Name); if (sw != NULL) { // Already exists ReleaseL3Sw(sw); ret = ERR_LAYER3_SW_EXISTS; } else { LockList(c->L3SwList); { if (LIST_NUM(c->L3SwList) >= GetServerCapsInt(s, "i_max_l3_sw")) { // No more virtual interfaces sw = NULL; } else { // Create sw = L3AddSw(c, t->Name); if (sw != NULL) { ALog(a, NULL, "LA_ADD_L3_SW", t->Name); IncrementServerConfigRevision(s); } } } UnlockList(c->L3SwList); if (sw == NULL) { // Failed ret = ERR_INTERNAL_ERROR; } else { // Success ReleaseL3Sw(sw); } } return ret; } // Set hub extended options UINT StSetHubExtOptions(ADMIN *a, RPC_ADMIN_OPTION *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; bool not_server_admin = false; if (t->NumItem > MAX_HUB_ADMIN_OPTIONS) { return ERR_TOO_MANT_ITEMS; } if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; if (a->ServerAdmin == false) { not_server_admin = true; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (GetHubAdminOption(h, "deny_hub_admin_change_ext_option") && not_server_admin) { // Insufficient permission ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } // Update setting Lock(h->lock); { DataToHubOptionStruct(h->Option, t); } Unlock(h->lock); ALog(a, NULL, "LA_SET_HUB_EXT_OPTION", h->Name); h->CurrentVersion++; SiHubUpdateProc(h); ReleaseHub(h); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Get hub extended options UINT StGetHubExtOptions(ADMIN *a, RPC_ADMIN_OPTION *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } FreeRpcAdminOption(t); Zero(t, sizeof(RPC_ADMIN_OPTION)); StrCpy(t->HubName, sizeof(t->HubName), h->Name); // Get options Lock(h->lock); { HubOptionStructToData(t, h->Option, h->Name); } Unlock(h->lock); ReleaseHub(h); return ERR_NO_ERROR; } // Set hub administration options UINT StSetHubAdminOptions(ADMIN *a, RPC_ADMIN_OPTION *t) { UINT i; SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; bool not_server_admin = false; if (t->NumItem > MAX_HUB_ADMIN_OPTIONS) { return ERR_TOO_MANT_ITEMS; } NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; if (a->ServerAdmin == false) { not_server_admin = true; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (GetHubAdminOption(h, "allow_hub_admin_change_option") == false && not_server_admin) { // Insufficient permission ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } LockList(h->AdminOptionList); { DeleteAllHubAdminOption(h, false); for (i = 0;i < t->NumItem;i++) { ADMIN_OPTION *e = &t->Items[i]; ADMIN_OPTION *a = ZeroMalloc(sizeof(ADMIN_OPTION)); StrCpy(a->Name, sizeof(a->Name), e->Name); a->Value = e->Value; Insert(h->AdminOptionList, a); } AddHubAdminOptionsDefaults(h, false); } UnlockList(h->AdminOptionList); ALog(a, NULL, "LA_SET_HUB_ADMIN_OPTION", h->Name); h->CurrentVersion++; SiHubUpdateProc(h); ReleaseHub(h); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Get hub administration options UINT StGetHubAdminOptions(ADMIN *a, RPC_ADMIN_OPTION *t) { UINT i; SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } FreeRpcAdminOption(t); Zero(t, sizeof(RPC_ADMIN_OPTION)); StrCpy(t->HubName, sizeof(t->HubName), h->Name); LockList(h->AdminOptionList); { t->NumItem = LIST_NUM(h->AdminOptionList); t->Items = ZeroMalloc(sizeof(ADMIN_OPTION) * t->NumItem); for (i = 0;i < t->NumItem;i++) { ADMIN_OPTION *a = LIST_DATA(h->AdminOptionList, i); ADMIN_OPTION *e = &t->Items[i]; StrCpy(e->Name, sizeof(e->Name), a->Name); e->Value = a->Value; UniStrCpy(e->Descrption, sizeof(e->Descrption), GetHubAdminOptionHelpString(e->Name)); } } UnlockList(h->AdminOptionList); ReleaseHub(h); return ERR_NO_ERROR; } // Get default hub administration options UINT StGetDefaultHubAdminOptions(ADMIN *a, RPC_ADMIN_OPTION *t) { UINT i; NO_SUPPORT_FOR_BRIDGE; if (a->Server->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } FreeRpcAdminOption(t); Zero(t, sizeof(RPC_ADMIN_OPTION)); t->NumItem = num_admin_options; t->Items = ZeroMalloc(sizeof(ADMIN_OPTION) * t->NumItem); for (i = 0;i < t->NumItem;i++) { ADMIN_OPTION *a = &t->Items[i]; StrCpy(a->Name, sizeof(a->Name), admin_options[i].Name); a->Value = admin_options[i].Value; UniStrCpy(a->Descrption, sizeof(a->Descrption), GetHubAdminOptionHelpString(a->Name)); } return ERR_NO_ERROR; } // Get configuration file stream UINT StGetConfig(ADMIN *a, RPC_CONFIG *t) { SERVER *s; SERVER_ADMIN_ONLY; FreeRpcConfig(t); Zero(t, sizeof(RPC_CONFIG)); s = a->Server; ALog(a, NULL, "LA_GET_CONFIG"); if (s->CfgRw != NULL) { FOLDER *f = SiWriteConfigurationToCfg(s); BUF *b = CfgFolderToBuf(f, true); StrCpy(t->FileName, sizeof(t->FileName), s->CfgRw->FileName + (s->CfgRw->FileName[0] == '@' ? 1 : 0)); t->FileData = ZeroMalloc(b->Size + 1); Copy(t->FileData, b->Buf, b->Size); CfgDeleteFolder(f); FreeBuf(b); return ERR_NO_ERROR; } else { return ERR_INTERNAL_ERROR; } } // Overwrite configuration file by specified data UINT StSetConfig(ADMIN *a, RPC_CONFIG *t) { SERVER *s; IO *o; char filename[MAX_PATH]; SERVER_ADMIN_ONLY; s = a->Server; if (s->CfgRw == NULL) { return ERR_INTERNAL_ERROR; } // Write new configuration file Format(filename, sizeof(filename), "%s.new", s->CfgRw->FileName); o = FileCreate(filename); FileWrite(o, t->FileData, StrLen(t->FileData)); FileClose(o); IncrementServerConfigRevision(s); ALog(a, NULL, "LA_SET_CONFIG"); // Reboot server itself SiRebootServer(s->Cedar->Bridge); return ERR_NO_ERROR; } // Get capabilities UINT StGetCaps(ADMIN *a, CAPSLIST *t) { FreeRpcCapsList(t); Zero(t, sizeof(CAPSLIST)); GetServerCapsMain(a->Server, t); return ERR_NO_ERROR; } // Reboot server itself UINT StRebootServer(ADMIN *a, RPC_TEST *t) { SERVER_ADMIN_ONLY; ALog(a, NULL, "LA_REBOOT_SERVER"); SiRebootServerEx(a->Server->Cedar->Bridge, t->IntValue); return ERR_NO_ERROR; } // Get availability to localbridge function UINT StGetBridgeSupport(ADMIN *a, RPC_BRIDGE_SUPPORT *t) { Zero(t, sizeof(RPC_BRIDGE_SUPPORT)); t->IsBridgeSupportedOs = IsBridgeSupported(); t->IsWinPcapNeeded = IsNeedWinPcap(); return ERR_NO_ERROR; } // Enumerate Ethernet devices UINT StEnumEthernet(ADMIN *a, RPC_ENUM_ETH *t) { TOKEN_LIST *o; UINT i; char tmp[MAX_SIZE]; bool unix_support = false; SERVER_ADMIN_ONLY; #ifdef OS_UNIX unix_support = EthIsInterfaceDescriptionSupportedUnix(); #endif // OS_UNIX o = GetEthList(); if (o == NULL) { return ERR_NOT_SUPPORTED; } FreeRpcEnumEth(t); Zero(t, sizeof(RPC_ENUM_ETH)); t->NumItem = o->NumTokens; t->Items = ZeroMalloc(sizeof(RPC_ENUM_ETH_ITEM) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_ETH_ITEM *e = &t->Items[i]; StrCpy(e->DeviceName, sizeof(e->DeviceName), o->Token[i]); StrCpy(tmp, sizeof(tmp), e->DeviceName); #ifdef OS_WIN32 GetEthNetworkConnectionName(e->NetworkConnectionName, sizeof(e->NetworkConnectionName), e->DeviceName); #else if (unix_support == false) { StrCpy(tmp, sizeof(tmp), ""); } else { if (EthGetInterfaceDescriptionUnix(e->DeviceName, tmp, sizeof(tmp)) == false) { StrCpy(tmp, sizeof(tmp), e->DeviceName); } } StrToUni(e->NetworkConnectionName, sizeof(e->NetworkConnectionName), tmp); #endif } FreeToken(o); return ERR_NO_ERROR; } // Add a new local bridge UINT StAddLocalBridge(ADMIN *a, RPC_LOCALBRIDGE *t) { if (IsEmptyStr(t->DeviceName) || IsEmptyStr(t->HubName)) { return ERR_INVALID_PARAMETER; } SERVER_ADMIN_ONLY; if (IsEthSupported() == false) { return ERR_LOCAL_BRIDGE_UNSUPPORTED; } #ifdef OS_WIN32 if (true) { char tmp[MAX_SIZE]; UINT id = Win32EthGetNameAndIdFromCombinedName(tmp, sizeof(tmp), t->DeviceName); if (id == 0) { // If a ID is not specified in Win32, adding will fail return ERR_OBJECT_NOT_FOUND; } } #endif // OS_WIN32 ALog(a, NULL, "LA_ADD_BRIDGE", t->HubName, t->DeviceName); AddLocalBridge(a->Server->Cedar, t->HubName, t->DeviceName, false, false, t->TapMode, NULL, false); IncrementServerConfigRevision(a->Server); return ERR_NO_ERROR; } // Delete a local bridge UINT StDeleteLocalBridge(ADMIN *a, RPC_LOCALBRIDGE *t) { if (IsEmptyStr(t->DeviceName) || IsEmptyStr(t->HubName)) { return ERR_INVALID_PARAMETER; } SERVER_ADMIN_ONLY; ALog(a, NULL, "LA_DELETE_BRIDGE", t->HubName, t->DeviceName); if (DeleteLocalBridge(a->Server->Cedar, t->HubName, t->DeviceName) == false) { return ERR_OBJECT_NOT_FOUND; } IncrementServerConfigRevision(a->Server); return ERR_NO_ERROR; } // Enumerate local bridges UINT StEnumLocalBridge(ADMIN *a, RPC_ENUM_LOCALBRIDGE *t) { UINT i; CEDAR *c; if (IsEthSupported() == false) { return ERR_LOCAL_BRIDGE_UNSUPPORTED; } FreeRpcEnumLocalBridge(t); Zero(t, sizeof(RPC_ENUM_LOCALBRIDGE)); c = a->Server->Cedar; LockList(c->LocalBridgeList); { t->NumItem = LIST_NUM(c->LocalBridgeList); t->Items = ZeroMalloc(sizeof(RPC_LOCALBRIDGE) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_LOCALBRIDGE *e = &t->Items[i]; LOCALBRIDGE *br = LIST_DATA(c->LocalBridgeList, i); if (br->Bridge == false) { e->Online = e->Active = false; } else { e->Online = true; if (br->Bridge->Active) { e->Active = true; } else { e->Active = false; } } StrCpy(e->DeviceName, sizeof(e->DeviceName), br->DeviceName); StrCpy(e->HubName, sizeof(e->HubName), br->HubName); e->TapMode = br->TapMode; } } UnlockList(c->LocalBridgeList); return ERR_NO_ERROR; } // Set syslog function setting UINT StSetSysLog(ADMIN *a, SYSLOG_SETTING *t) { SERVER *s = a->Server; SERVER_ADMIN_ONLY; if (GetGlobalServerFlag(GSF_DISABLE_SYSLOG) != 0 && t->SaveType != SYSLOG_NONE) { return ERR_NOT_SUPPORTED_FUNCTION_ON_OPENSOURCE; } if (GetServerCapsBool(s, "b_support_syslog") == false) { return ERR_NOT_SUPPORTED; } SiSetSysLogSetting(s, t); IncrementServerConfigRevision(s); ALog(a, NULL, "LA_SET_SYSLOG"); return ERR_NO_ERROR; } // Get syslog function setting UINT StGetSysLog(ADMIN *a, SYSLOG_SETTING *t) { SERVER *s = a->Server; SiGetSysLogSetting(s, t); if (a->ServerAdmin == false) { // Hide server name for non-administrator if (t->SaveType == SYSLOG_NONE) { StrCpy(t->Hostname, sizeof(t->Hostname), ""); t->Port = 0; } else { StrCpy(t->Hostname, sizeof(t->Hostname), "Secret"); t->Port = 0; } } return ERR_NO_ERROR; } // Set keep-alive function setting UINT StSetKeep(ADMIN *a, RPC_KEEP *t) { SERVER *s = a->Server; if (t->UseKeepConnect) { if (IsEmptyStr(t->KeepConnectHost) || t->KeepConnectPort == 0 || t->KeepConnectPort >= 65536) { return ERR_INVALID_PARAMETER; } } SERVER_ADMIN_ONLY; Lock(s->Keep->lock); { KEEP *keep = s->Keep; keep->Enable = t->UseKeepConnect; keep->Server = true; StrCpy(keep->ServerName, sizeof(keep->ServerName), t->KeepConnectHost); keep->ServerPort = t->KeepConnectPort; keep->UdpMode = t->KeepConnectProtocol; keep->Interval = t->KeepConnectInterval * 1000; if (keep->Interval < 5000) { keep->Interval = 5000; } else if (keep->Interval > 600000) { keep->Interval = 600000; } } Unlock(s->Keep->lock); ALog(a, NULL, "LA_SET_KEEP"); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Get keep-alive function setting UINT StGetKeep(ADMIN *a, RPC_KEEP *t) { SERVER *s = a->Server; Zero(t, sizeof(RPC_KEEP)); Lock(s->Keep->lock); { KEEP *k = s->Keep; t->UseKeepConnect = k->Enable; StrCpy(t->KeepConnectHost, sizeof(t->KeepConnectHost), k->ServerName); t->KeepConnectPort = k->ServerPort; t->KeepConnectProtocol = k->UdpMode; t->KeepConnectInterval = k->Interval / 1000; } Unlock(s->Keep->lock); return ERR_NO_ERROR; } // Delete IP address table entry UINT StDeleteIpTable(ADMIN *a, RPC_DELETE_TABLE *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_delete_iptable") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } LockList(h->IpTable); { if (IsInListKey(h->IpTable, t->Key)) { IP_TABLE_ENTRY *e = ListKeyToPointer(h->IpTable, t->Key); Free(e); Delete(h->IpTable, e); } else { ret = ERR_OBJECT_NOT_FOUND; } } UnlockList(h->IpTable); if (ret == ERR_OBJECT_NOT_FOUND) { if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { UINT i; LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { SiCallDeleteIpTable(s, f, t->HubName, t->Key); ret = ERR_NO_ERROR; } } } UnlockList(s->FarmMemberList); } } ReleaseHub(h); return ret; } // Get local IP address table UINT SiEnumIpTable(SERVER *s, char *hubname, RPC_ENUM_IP_TABLE *t) { CEDAR *c; UINT i; HUB *h = NULL; // Validate arguments if (s == NULL || hubname == NULL || t == NULL) { return ERR_INTERNAL_ERROR; } c = s->Cedar; LockHubList(c); { h = GetHub(c, hubname); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } StrCpy(t->HubName, sizeof(t->HubName), hubname); LockList(h->IpTable); { t->NumIpTable = LIST_NUM(h->IpTable); t->IpTables = ZeroMalloc(sizeof(RPC_ENUM_IP_TABLE_ITEM) * t->NumIpTable); for (i = 0;i < t->NumIpTable;i++) { RPC_ENUM_IP_TABLE_ITEM *e = &t->IpTables[i]; IP_TABLE_ENTRY *table = LIST_DATA(h->IpTable, i); e->Key = POINTER_TO_KEY(table); StrCpy(e->SessionName, sizeof(e->SessionName), table->Session->Name); e->Ip = IPToUINT(&table->Ip); Copy(&e->IpV6, &table->Ip, sizeof(IP)); Copy(&e->IpAddress, &table->Ip, sizeof(IP)); e->DhcpAllocated = table->DhcpAllocated; e->CreatedTime = TickToTime(table->CreatedTime); e->UpdatedTime = TickToTime(table->UpdatedTime); GetMachineName(e->RemoteHostname, sizeof(e->RemoteHostname)); } } UnlockList(h->IpTable); ReleaseHub(h); return ERR_NO_ERROR; } // Get IP address table UINT StEnumIpTable(ADMIN *a, RPC_ENUM_IP_TABLE *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; UINT i; CHECK_RIGHT; // Get local IP address table StrCpy(hubname, sizeof(hubname), t->HubName); FreeRpcEnumIpTable(t); Zero(t, sizeof(RPC_ENUM_IP_TABLE)); StrCpy(t->HubName, sizeof(t->HubName), hubname); ret = SiEnumIpTable(s, hubname, t); if (ret != ERR_NO_ERROR) { return ret; } if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { // Get remote IP address table LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { RPC_ENUM_IP_TABLE tmp; Zero(&tmp, sizeof(tmp)); SiCallEnumIpTable(s, f, hubname, &tmp); AdjoinRpcEnumIpTable(t, &tmp); FreeRpcEnumIpTable(&tmp); } } } UnlockList(s->FarmMemberList); } return ret; } // Delete MAC address table entry UINT StDeleteMacTable(ADMIN *a, RPC_DELETE_TABLE *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_delete_mactable") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } LockHashList(h->MacHashTable); { if (IsInHashListKey(h->MacHashTable, t->Key)) { MAC_TABLE_ENTRY *e = HashListKeyToPointer(h->MacHashTable, t->Key); DeleteHash(h->MacHashTable, e); Free(e); } else { ret = ERR_OBJECT_NOT_FOUND; } } UnlockHashList(h->MacHashTable); if (ret == ERR_OBJECT_NOT_FOUND) { if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { UINT i; LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { SiCallDeleteMacTable(s, f, t->HubName, t->Key); ret = ERR_NO_ERROR; } } } UnlockList(s->FarmMemberList); } } ReleaseHub(h); return ret; } // Get local MAC address table UINT SiEnumMacTable(SERVER *s, char *hubname, RPC_ENUM_MAC_TABLE *t) { CEDAR *c; UINT i; HUB *h = NULL; // Validate arguments if (s == NULL || hubname == NULL || t == NULL) { return ERR_INTERNAL_ERROR; } c = s->Cedar; LockHubList(c); { h = GetHub(c, hubname); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } StrCpy(t->HubName, sizeof(t->HubName), hubname); LockHashList(h->MacHashTable); { MAC_TABLE_ENTRY **pp = (MAC_TABLE_ENTRY **)HashListToArray(h->MacHashTable, &t->NumMacTable); t->MacTables = ZeroMalloc(sizeof(RPC_ENUM_MAC_TABLE_ITEM) * t->NumMacTable); for (i = 0;i < t->NumMacTable;i++) { RPC_ENUM_MAC_TABLE_ITEM *e = &t->MacTables[i]; MAC_TABLE_ENTRY *mac = pp[i]; e->Key = POINTER_TO_KEY(mac); StrCpy(e->SessionName, sizeof(e->SessionName), mac->Session->Name); Copy(e->MacAddress, mac->MacAddress, sizeof(e->MacAddress)); e->CreatedTime = TickToTime(mac->CreatedTime); e->UpdatedTime = TickToTime(mac->UpdatedTime); e->VlanId = mac->VlanId; GetMachineName(e->RemoteHostname, sizeof(e->RemoteHostname)); } Free(pp); } UnlockHashList(h->MacHashTable); ReleaseHub(h); return ERR_NO_ERROR; } // Get MAC address table UINT StEnumMacTable(ADMIN *a, RPC_ENUM_MAC_TABLE *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; UINT i; CHECK_RIGHT; // Get local MAC address table StrCpy(hubname, sizeof(hubname), t->HubName); FreeRpcEnumMacTable(t); Zero(t, sizeof(RPC_ENUM_MAC_TABLE)); ret = SiEnumMacTable(s, hubname, t); if (ret != ERR_NO_ERROR) { return ret; } if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { // Get remote MAC address table LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { RPC_ENUM_MAC_TABLE tmp; Zero(&tmp, sizeof(tmp)); SiCallEnumMacTable(s, f, hubname, &tmp); AdjoinRpcEnumMacTable(t, &tmp); FreeRpcEnumMacTable(&tmp); } } } UnlockList(s->FarmMemberList); } return ret; } // Delete a session UINT StDeleteSession(ADMIN *a, RPC_DELETE_SESSION *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; char name[MAX_SESSION_NAME_LEN + 1]; SESSION *sess; if (IsEmptyStr(t->Name)) { return ERR_INVALID_PARAMETER; } StrCpy(hubname, sizeof(hubname), t->HubName); StrCpy(name, sizeof(name), t->Name); CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_disconnect_session") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } sess = GetSessionByName(h, name); if (sess == NULL) { if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { // Cluster controller UINT i; LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { // Try to disconnect SiCallDeleteSession(s, f, t->HubName, t->Name); } } } UnlockList(s->FarmMemberList); } else { ret = ERR_OBJECT_NOT_FOUND; } } else { if (sess->LinkModeServer) { ret = ERR_LINK_CANT_DISCONNECT; } else if (sess->SecureNATMode) { ret = ERR_SNAT_CANT_DISCONNECT; } else if (sess->BridgeMode) { ret = ERR_BRIDGE_CANT_DISCONNECT; } else if (sess->L3SwitchMode) { ret = ERR_LAYER3_CANT_DISCONNECT; } else { StopSession(sess); } ReleaseSession(sess); } if (ret != ERR_NO_ERROR) { ALog(a, h, "LA_DELETE_SESSION", t->Name); } ReleaseHub(h); return ret; } // Get session status UINT StGetSessionStatus(ADMIN *a, RPC_SESSION_STATUS *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; char name[MAX_SESSION_NAME_LEN + 1]; SESSION *sess; StrCpy(hubname, sizeof(hubname), t->HubName); StrCpy(name, sizeof(name), t->Name); if (IsEmptyStr(t->Name)) { return ERR_INVALID_PARAMETER; } CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_query_session") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } FreeRpcSessionStatus(t); Zero(t, sizeof(RPC_SESSION_STATUS)); StrCpy(t->HubName, sizeof(t->HubName), hubname); StrCpy(t->Name, sizeof(t->Name), name); sess = GetSessionByName(h, t->Name); if (sess == NULL) { if (s->ServerType != SERVER_TYPE_FARM_CONTROLLER) { // Session is not found ret = ERR_OBJECT_NOT_FOUND; } else { UINT i; // Try to find the session on other cluster member LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { RPC_SESSION_STATUS tmp; Zero(&tmp, sizeof(tmp)); StrCpy(tmp.HubName, sizeof(tmp.HubName), t->HubName); StrCpy(tmp.Name, sizeof(tmp.Name), t->Name); if (SiCallGetSessionStatus(s, f, &tmp)) { if (StrLen(tmp.HubName) != 0) { // Success to get session status Copy(t, &tmp, sizeof(RPC_SESSION_STATUS)); break; } else { FreeRpcSessionStatus(&tmp); } } } } if (i == LIST_NUM(s->FarmMemberList)) { // not found after all // ret = ERR_OBJECT_NOT_FOUND; } } UnlockList(s->FarmMemberList); } } else { SESSION *s = sess; Lock(s->lock); { StrCpy(t->Username, sizeof(t->Username), s->Username); StrCpy(t->RealUsername, sizeof(t->RealUsername), s->UserNameReal); StrCpy(t->GroupName, sizeof(t->GroupName), s->GroupName); Copy(&t->NodeInfo, &s->NodeInfo, sizeof(NODE_INFO)); if (s->Connection != NULL) { t->ClientIp = IPToUINT(&s->Connection->ClientIp); if (IsIP6(&s->Connection->ClientIp)) { Copy(&t->ClientIp6, &s->Connection->ClientIp.ipv6_addr, sizeof(t->ClientIp6)); } CopyIP(&t->ClientIpAddress, &s->Connection->ClientIp); StrCpy(t->ClientHostName, sizeof(t->ClientHostName), s->Connection->ClientHostname); } } Unlock(s->lock); CiGetSessionStatus(&t->Status, s); ReleaseSession(s); } ReleaseHub(h); return ret; } // Main routine of session enumeration void SiEnumSessionMain(SERVER *s, RPC_ENUM_SESSION *t) { char hubname[MAX_HUBNAME_LEN + 1]; UINT ret = ERR_NO_ERROR; UINT num; UINT i; // Validate arguments if (s == NULL || t == NULL) { return; } StrCpy(hubname, sizeof(hubname), t->HubName); FreeRpcEnumSession(t); Zero(t, sizeof(RPC_ENUM_SESSION)); StrCpy(t->HubName, sizeof(t->HubName), hubname); // Local session enumeration num = 0; SiEnumLocalSession(s, hubname, t); if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { LIST *fm_list; fm_list = NewListFast(NULL); // Remote session enumeration LockList(s->FarmMemberList); { while (true) { bool escape = true; for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (IsInList(fm_list, f) == false) { Add(fm_list, f); escape = false; if (f->Me == false) { RPC_ENUM_SESSION tmp; Zero(&tmp, sizeof(tmp)); SiCallEnumSession(s, f, hubname, &tmp); AdjoinRpcEnumSession(t, &tmp); FreeRpcEnumSession(&tmp); } break; } } if (escape) { break; } UnlockList(s->FarmMemberList); LockList(s->FarmMemberList); } } UnlockList(s->FarmMemberList); ReleaseList(fm_list); } } // Enumerate sessions UINT StEnumSession(ADMIN *a, RPC_ENUM_SESSION *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_enum_session") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } SiEnumSessionMain(s, t); ReleaseHub(h); return ret; } // Enumerate groups UINT StEnumGroup(ADMIN *a, RPC_ENUM_GROUP *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; StrCpy(hubname, sizeof(hubname), t->HubName); CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } AcLock(h); { UINT i, j; FreeRpcEnumGroup(t); Zero(t, sizeof(RPC_ENUM_GROUP)); StrCpy(t->HubName, sizeof(t->HubName), hubname); t->NumGroup = LIST_NUM(h->HubDb->GroupList); t->Groups = ZeroMalloc(sizeof(RPC_ENUM_GROUP_ITEM) * t->NumGroup); for (i = 0;i < t->NumGroup;i++) { RPC_ENUM_GROUP_ITEM *e = &t->Groups[i]; USERGROUP *g = LIST_DATA(h->HubDb->GroupList, i); Lock(g->lock); { StrCpy(e->Name, sizeof(e->Name), g->Name); UniStrCpy(e->Realname, sizeof(e->Realname), g->RealName); UniStrCpy(e->Note, sizeof(e->Note), g->Note); if (g->Policy != NULL) { if (g->Policy->Access == false) { e->DenyAccess = true; } } } Unlock(g->lock); e->NumUsers = 0; LockList(h->HubDb->UserList); { for (j = 0;j < LIST_NUM(h->HubDb->UserList);j++) { USER *u = LIST_DATA(h->HubDb->UserList, j); Lock(u->lock); { if (u->Group == g) { e->NumUsers++; } } Unlock(u->lock); } } UnlockList(h->HubDb->UserList); } } AcUnlock(h); ReleaseHub(h); return ERR_NO_ERROR; } // Delete a group UINT StDeleteGroup(ADMIN *a, RPC_DELETE_USER *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; if (IsEmptyStr(t->Name) || IsSafeStr(t->Name) == false) { return ERR_INVALID_PARAMETER; } CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_groups") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } AcLock(h); { if (AcDeleteGroup(h, t->Name) == false) { ret = ERR_OBJECT_NOT_FOUND; } } AcUnlock(h); if (ret == ERR_NO_ERROR) { ALog(a, h, "LA_DELETE_GROUP", t->Name); } ReleaseHub(h); IncrementServerConfigRevision(s); return ret; } // Get group information UINT StGetGroup(ADMIN *a, RPC_SET_GROUP *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; if (IsEmptyStr(t->Name) || IsSafeStr(t->Name) == false) { return ERR_INVALID_PARAMETER; } CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } StrCpy(hubname, sizeof(hubname), t->HubName); LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } AcLock(h); { USERGROUP *g = AcGetGroup(h, t->Name); if (g == NULL) { ret = ERR_OBJECT_NOT_FOUND; } else { FreeRpcSetGroup(t); Zero(t, sizeof(RPC_SET_GROUP)); StrCpy(t->HubName, sizeof(t->HubName), hubname); Lock(g->lock); { StrCpy(t->Name, sizeof(t->Name), g->Name); UniStrCpy(t->Realname, sizeof(t->Realname), g->RealName); UniStrCpy(t->Note, sizeof(t->Note), g->Note); Copy(&t->Traffic, g->Traffic, sizeof(TRAFFIC)); } Unlock(g->lock); t->Policy = GetGroupPolicy(g); ReleaseGroup(g); } } AcUnlock(h); ReleaseHub(h); return ret; } // Set group setting UINT StSetGroup(ADMIN *a, RPC_SET_GROUP *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; if (IsEmptyStr(t->Name) || IsSafeStr(t->Name) == false) { return ERR_INVALID_PARAMETER; } CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_groups") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } AcLock(h); { USERGROUP *g = AcGetGroup(h, t->Name); if (g == NULL) { ret = ERR_OBJECT_NOT_FOUND; } else { Lock(g->lock); { Free(g->RealName); Free(g->Note); g->RealName = UniCopyStr(t->Realname); g->Note = UniCopyStr(t->Note); } Unlock(g->lock); SetGroupPolicy(g, t->Policy); ReleaseGroup(g); ALog(a, h, "LA_SET_GROUP", t->Name); } } AcUnlock(h); ReleaseHub(h); IncrementServerConfigRevision(s); return ret; } // Create a group UINT StCreateGroup(ADMIN *a, RPC_SET_GROUP *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; if (IsEmptyStr(t->Name) || IsSafeStr(t->Name) == false) { return ERR_INVALID_PARAMETER; } if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_groups") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } AcLock(h); { if (AcIsGroup(h, t->Name)) { ret = ERR_GROUP_ALREADY_EXISTS; } else { USERGROUP *g = NewGroup(t->Name, t->Realname, t->Note); SetGroupPolicy(g, t->Policy); if ((LIST_NUM(h->HubDb->GroupList) >= GetServerCapsInt(a->Server, "i_max_users_per_hub")) || ((GetHubAdminOption(h, "max_groups") != 0) && (LIST_NUM(h->HubDb->GroupList) >= GetHubAdminOption(h, "max_groups")))) { ret = ERR_TOO_MANY_GROUP; } else { AcAddGroup(h, g); } ReleaseGroup(g); ALog(a, h, "LA_CREATE_GROUP", t->Name); } } AcUnlock(h); ReleaseHub(h); IncrementServerConfigRevision(s); return ret; } // Enumerate users UINT StEnumUser(ADMIN *a, RPC_ENUM_USER *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; UINT i, num; CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } FreeRpcEnumUser(t); StrCpy(hubname, sizeof(hubname), t->HubName); Zero(t, sizeof(RPC_ENUM_USER)); StrCpy(t->HubName, sizeof(t->HubName), hubname); LockList(h->HubDb->UserList); { num = LIST_NUM(h->HubDb->UserList); t->NumUser = num; t->Users = ZeroMalloc(sizeof(RPC_ENUM_USER_ITEM) * num); for (i = 0;i < num;i++) { USER *u = LIST_DATA(h->HubDb->UserList, i); Lock(u->lock); { RPC_ENUM_USER_ITEM *e = &t->Users[i]; StrCpy(e->Name, sizeof(e->Name), u->Name); StrCpy(e->GroupName, sizeof(e->GroupName), u->GroupName); UniStrCpy(e->Realname, sizeof(e->Realname), u->RealName); UniStrCpy(e->Note, sizeof(e->Note), u->Note); e->AuthType = u->AuthType; e->LastLoginTime = u->LastLoginTime; e->NumLogin = u->NumLogin; if (u->Policy != NULL) { e->DenyAccess = u->Policy->Access ? false : true; } Copy(&e->Traffic, u->Traffic, sizeof(TRAFFIC)); e->IsTrafficFilled = true; e->Expires = u->ExpireTime; e->IsExpiresFilled = true; } Unlock(u->lock); } } UnlockList(h->HubDb->UserList); ReleaseHub(h); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Delete a user UINT StDeleteUser(ADMIN *a, RPC_DELETE_USER *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; if (IsEmptyStr(t->Name) || IsUserName(t->Name) == false) { return ERR_INVALID_PARAMETER; } CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_users") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } ALog(a, h, "LA_DELETE_USER", t->Name); AcLock(h); { if (AcDeleteUser(h, t->Name) == false) { ret = ERR_OBJECT_NOT_FOUND; } } AcUnlock(h); ReleaseHub(h); IncrementServerConfigRevision(s); return ret; } // Get user setting UINT StGetUser(ADMIN *a, RPC_SET_USER *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; USER *u = NULL; USERGROUP *g = NULL; char name[MAX_USERNAME_LEN + 1]; char hubname[MAX_HUBNAME_LEN + 1]; StrCpy(name, sizeof(name), t->Name); StrCpy(hubname, sizeof(hubname), t->HubName); if (IsEmptyStr(t->Name) || IsUserName(t->Name) == false) { return ERR_INVALID_PARAMETER; } CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } FreeRpcSetUser(t); Zero(t, sizeof(RPC_SET_USER)); StrCpy(t->HubName, sizeof(t->HubName), hubname); StrCpy(t->Name, sizeof(t->Name), name); LockHubList(c); { h = GetHub(c, hubname); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } AcLock(h); { u = AcGetUser(h, name); if (u == NULL) { ret = ERR_OBJECT_NOT_FOUND; } else { Lock(u->lock); { StrCpy(t->GroupName, sizeof(t->GroupName), u->GroupName); UniStrCpy(t->Realname, sizeof(t->Realname), u->RealName); UniStrCpy(t->Note, sizeof(t->Note), u->Note); t->CreatedTime = u->CreatedTime; t->UpdatedTime = u->UpdatedTime; t->ExpireTime = u->ExpireTime; t->AuthType = u->AuthType; t->AuthData = CopyAuthData(u->AuthData, t->AuthType); t->NumLogin = u->NumLogin; Copy(&t->Traffic, u->Traffic, sizeof(TRAFFIC)); if (u->Policy != NULL) { t->Policy = ClonePolicy(u->Policy); } } Unlock(u->lock); ReleaseUser(u); } } AcUnlock(h); ReleaseHub(h); return ret; } // Set user setting UINT StSetUser(ADMIN *a, RPC_SET_USER *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; USER *u = NULL; USERGROUP *g = NULL; if (IsEmptyStr(t->Name) || IsUserName(t->Name) == false) { return ERR_INVALID_PARAMETER; } NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; if (GetGlobalServerFlag(GSF_DISABLE_RADIUS_AUTH) != 0) { if (t->AuthType == AUTHTYPE_USERCERT || t->AuthType == AUTHTYPE_RADIUS || t->AuthType == AUTHTYPE_ROOTCERT || t->AuthType == AUTHTYPE_NT) { return ERR_NOT_SUPPORTED_AUTH_ON_OPENSOURCE; } } if (StrCmpi(t->Name, "*") == 0) { if (t->AuthType != AUTHTYPE_RADIUS && t->AuthType != AUTHTYPE_NT) { return ERR_INVALID_PARAMETER; } } if (t->AuthType == AUTHTYPE_USERCERT) { AUTHUSERCERT *c = t->AuthData; if (c != NULL && c->UserX != NULL && c->UserX->is_compatible_bit == false) { return ERR_NOT_RSA_1024; } if (c == NULL || c->UserX == NULL) { return ERR_INVALID_PARAMETER; } } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_users") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } AcLock(h); { u = AcGetUser(h, t->Name); if (u == NULL) { ret = ERR_OBJECT_NOT_FOUND; } else { Lock(u->lock); { if (StrLen(t->GroupName) != 0) { g = AcGetGroup(h, t->GroupName); if (g != NULL) { JoinUserToGroup(u, g); ReleaseGroup(g); } else { ret = ERR_GROUP_NOT_FOUND; } } else { JoinUserToGroup(u, NULL); } if (ret != ERR_GROUP_NOT_FOUND) { Free(u->RealName); Free(u->Note); u->RealName = UniCopyStr(t->Realname); u->Note = UniCopyStr(t->Note); SetUserAuthData(u, t->AuthType, CopyAuthData(t->AuthData, t->AuthType)); u->ExpireTime = t->ExpireTime; u->UpdatedTime = SystemTime64(); SetUserPolicy(u, t->Policy); } } Unlock(u->lock); IncrementServerConfigRevision(s); ReleaseUser(u); } } AcUnlock(h); if (ret == ERR_NO_ERROR) { ALog(a, h, "LA_SET_USER", t->Name); } ReleaseHub(h); return ret; } // Create a user UINT StCreateUser(ADMIN *a, RPC_SET_USER *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; UINT ret = ERR_NO_ERROR; USER *u; USERGROUP *g = NULL; if (IsEmptyStr(t->Name) || IsUserName(t->Name) == false) { return ERR_INVALID_PARAMETER; } NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; if (GetGlobalServerFlag(GSF_DISABLE_RADIUS_AUTH) != 0) { if (t->AuthType == AUTHTYPE_USERCERT || t->AuthType == AUTHTYPE_RADIUS || t->AuthType == AUTHTYPE_ROOTCERT || t->AuthType == AUTHTYPE_NT) { return ERR_NOT_SUPPORTED_AUTH_ON_OPENSOURCE; } } if (t->AuthType == AUTHTYPE_USERCERT) { AUTHUSERCERT *c = t->AuthData; if (c != NULL && c->UserX != NULL && c->UserX->is_compatible_bit == false) { return ERR_NOT_RSA_1024; } if (c == NULL || c->UserX == NULL) { return ERR_INVALID_PARAMETER; } } if (IsUserName(t->Name) == false) { return ERR_INVALID_PARAMETER; } if (StrCmpi(t->Name, "*") == 0) { if (t->AuthType != AUTHTYPE_RADIUS && t->AuthType != AUTHTYPE_NT) { return ERR_INVALID_PARAMETER; } } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_users") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } u = NewUser(t->Name, t->Realname, t->Note, t->AuthType, CopyAuthData(t->AuthData, t->AuthType)); if (u == NULL) { ReleaseHub(h); return ERR_INTERNAL_ERROR; } u->ExpireTime = t->ExpireTime; SetUserPolicy(u, t->Policy); AcLock(h); { if ((LIST_NUM(h->HubDb->UserList) >= GetServerCapsInt(a->Server, "i_max_users_per_hub")) || ((GetHubAdminOption(h, "max_users") != 0) && (LIST_NUM(h->HubDb->UserList) >= GetHubAdminOption(h, "max_users")))) { ret = ERR_TOO_MANY_USER; } else if (SiTooManyUserObjectsInServer(s, false)) { ret = ERR_TOO_MANY_USERS_CREATED; ALog(a, h, "ERR_128"); } else if (AcIsUser(h, t->Name)) { ret = ERR_USER_ALREADY_EXISTS; } else { if (StrLen(t->GroupName) != 0) { g = AcGetGroup(h, t->GroupName); if (g == NULL) { ret = ERR_GROUP_NOT_FOUND; } } if (ret != ERR_GROUP_NOT_FOUND) { if (g != NULL) { JoinUserToGroup(u, g); ReleaseGroup(g); } AcAddUser(h, u); ALog(a, h, "LA_CREATE_USER", t->Name); IncrementServerConfigRevision(s); } } } AcUnlock(h); ReleaseUser(u); ReleaseHub(h); return ret; } // Get access list UINT StEnumAccess(ADMIN *a, RPC_ENUM_ACCESS_LIST *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT i; char hubname[MAX_HUBNAME_LEN + 1]; CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } StrCpy(hubname, sizeof(hubname), t->HubName); FreeRpcEnumAccessList(t); Zero(t, sizeof(RPC_ENUM_ACCESS_LIST)); StrCpy(t->HubName, sizeof(t->HubName), hubname); LockList(h->AccessList); { t->NumAccess = LIST_NUM(h->AccessList); t->Accesses = ZeroMalloc(sizeof(ACCESS) * t->NumAccess); for (i = 0;i < LIST_NUM(h->AccessList);i++) { ACCESS *a = &t->Accesses[i]; Copy(a, LIST_DATA(h->AccessList, i), sizeof(ACCESS)); a->UniqueId = HashPtrToUINT(LIST_DATA(h->AccessList, i)); } } UnlockList(h->AccessList); ReleaseHub(h); return ERR_NO_ERROR; } // Delete access list entry UINT StDeleteAccess(ADMIN *a, RPC_DELETE_ACCESS *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT i; bool exists; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_access_list") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } exists = false; LockList(h->AccessList); { for (i = 0;i < LIST_NUM(h->AccessList);i++) { ACCESS *access = LIST_DATA(h->AccessList, i); if ((t->Id < MAX_ACCESSLISTS && access->Id == t->Id) || (t->Id >= MAX_ACCESSLISTS && HashPtrToUINT(access) == t->Id)) { Free(access); Delete(h->AccessList, access); exists = true; break; } } } UnlockList(h->AccessList); if (exists == false) { ReleaseHub(h); return ERR_OBJECT_NOT_FOUND; } ALog(a, h, "LA_DELETE_ACCESS"); IncrementServerConfigRevision(s); ReleaseHub(h); return ERR_NO_ERROR; } // Set access list UINT StSetAccessList(ADMIN *a, RPC_ENUM_ACCESS_LIST *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT i; bool no_jitter = false; bool no_include = false; UINT ret = ERR_NO_ERROR; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; if (t->NumAccess > GetServerCapsInt(a->Server, "i_max_access_lists")) { return ERR_TOO_MANY_ACCESS_LIST; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } no_jitter = GetHubAdminOption(h, "no_delay_jitter_packet_loss"); no_include = GetHubAdminOption(h, "no_access_list_include_file"); if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_access_list") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } if (a->ServerAdmin == false && GetHubAdminOption(h, "max_accesslists") != 0 && t->NumAccess > GetHubAdminOption(h, "max_accesslists")) { ReleaseHub(h); return ERR_TOO_MANY_ACCESS_LIST; } LockList(h->AccessList); { UINT i; if (a->ClientBuild != 0) { // Confirm whether the access list of form which cannot handle by the old client already exists if (a->ClientBuild < 6560) { for (i = 0;i < LIST_NUM(h->AccessList);i++) { ACCESS *access = LIST_DATA(h->AccessList, i); if (access->IsIPv6 || access->Jitter != 0 || access->Loss != 0 || access->Delay != 0) { ret = ERR_VERSION_INVALID; break; } } } if (a->ClientBuild < 8234) { for (i = 0;i < LIST_NUM(h->AccessList);i++) { ACCESS *access = LIST_DATA(h->AccessList, i); if (IsEmptyStr(access->RedirectUrl) == false) { ret = ERR_VERSION_INVALID; break; } } } } if (ret == ERR_NO_ERROR) { // Delete whole access list for (i = 0;i < LIST_NUM(h->AccessList);i++) { ACCESS *access = LIST_DATA(h->AccessList, i); Free(access); } DeleteAll(h->AccessList); } } if (ret == ERR_NO_ERROR) { ALog(a, h, "LA_SET_ACCESS_LIST", t->NumAccess); // Add whole access list for (i = 0;i < t->NumAccess;i++) { ACCESS *a = &t->Accesses[i]; if (no_jitter) { a->Jitter = a->Loss = a->Delay = 0; } if (no_include) { if (StartWith(a->SrcUsername, ACCESS_LIST_INCLUDED_PREFIX) || StartWith(a->SrcUsername, ACCESS_LIST_EXCLUDED_PREFIX)) { ClearStr(a->SrcUsername, sizeof(a->SrcUsername)); } if (StartWith(a->DestUsername, ACCESS_LIST_INCLUDED_PREFIX) || StartWith(a->DestUsername, ACCESS_LIST_EXCLUDED_PREFIX)) { ClearStr(a->DestUsername, sizeof(a->DestUsername)); } } if (i == (t->NumAccess - 1)) { Sort(h->AccessList); } AddAccessListEx(h, a, ((i != (t->NumAccess - 1)) ? true : false), ((i != (t->NumAccess - 1)) ? true : false)); } UnlockList(h->AccessList); IncrementServerConfigRevision(s); h->CurrentVersion++; SiHubUpdateProc(h); } else { UnlockList(h->AccessList); } ReleaseHub(h); return ret; } // Add access list entry UINT StAddAccess(ADMIN *a, RPC_ADD_ACCESS *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; bool no_jitter = false; bool no_include = false; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } no_jitter = GetHubAdminOption(h, "no_delay_jitter_packet_loss"); no_include = GetHubAdminOption(h, "no_access_list_include_file"); if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_access_list") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } if ((LIST_NUM(h->AccessList) >= GetServerCapsInt(a->Server, "i_max_access_lists") || (GetHubAdminOption(h, "max_accesslists") != 0) && (LIST_NUM(h->AccessList) >= GetHubAdminOption(h, "max_accesslists")))) { ReleaseHub(h); return ERR_TOO_MANY_ACCESS_LIST; } ALog(a, h, "LA_ADD_ACCESS"); if (no_jitter) { t->Access.Jitter = t->Access.Delay = t->Access.Loss = 0; } if (no_include) { if (StartWith(t->Access.SrcUsername, ACCESS_LIST_INCLUDED_PREFIX) || StartWith(t->Access.SrcUsername, ACCESS_LIST_EXCLUDED_PREFIX)) { ClearStr(t->Access.SrcUsername, sizeof(t->Access.SrcUsername)); } if (StartWith(t->Access.DestUsername, ACCESS_LIST_INCLUDED_PREFIX) || StartWith(t->Access.DestUsername, ACCESS_LIST_EXCLUDED_PREFIX)) { ClearStr(t->Access.DestUsername, sizeof(t->Access.DestUsername)); } } AddAccessList(h, &t->Access); h->CurrentVersion++; SiHubUpdateProc(h); ReleaseHub(h); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Rename link (cascade connection) UINT StRenameLink(ADMIN *a, RPC_RENAME_LINK *t) { UINT i; SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; LINK *k; bool exists = false; if (UniIsEmptyStr(t->OldAccountName) || UniIsEmptyStr(t->NewAccountName)) { return ERR_INVALID_PARAMETER; } if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; if (UniStrCmpi(t->NewAccountName, t->OldAccountName) == 0) { // Noop if new name is same to old name return ERR_NO_ERROR; } h = GetHub(c, t->HubName); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_cascade") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } k = NULL; // Find specified link LockList(h->LinkList); { for (i = 0;i < LIST_NUM(h->LinkList);i++) { LINK *kk = LIST_DATA(h->LinkList, i); Lock(kk->lock); { if (UniStrCmpi(kk->Option->AccountName, t->OldAccountName) == 0) { k = kk; AddRef(kk->ref); } } Unlock(kk->lock); if (k != NULL) { break; } } exists = false; if (k != NULL) { // Check whether the new link name is same to other links for (i = 0;i < LIST_NUM(h->LinkList);i++) { LINK *kk = LIST_DATA(h->LinkList, i); Lock(kk->lock); { if (UniStrCmpi(kk->Option->AccountName, t->NewAccountName) == 0) { // duplicated exists = true; } } Unlock(kk->lock); } if (exists) { // Already same name exists ret = ERR_LINK_ALREADY_EXISTS; } else { // Do rename UniStrCpy(k->Option->AccountName, sizeof(k->Option->AccountName), t->NewAccountName); ALog(a, h, "LA_RENAME_LINK", t->OldAccountName, t->NewAccountName); IncrementServerConfigRevision(s); } } } UnlockList(h->LinkList); if (k == NULL) { // specified link is not found ReleaseHub(h); return ERR_OBJECT_NOT_FOUND; } ReleaseLink(k); ReleaseHub(h); return ret; } // Delete a link UINT StDeleteLink(ADMIN *a, RPC_LINK *t) { UINT i; SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; wchar_t accountname[MAX_ACCOUNT_NAME_LEN + 1]; LINK *k; if (UniIsEmptyStr(t->AccountName)) { return ERR_INVALID_PARAMETER; } if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_cascade") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } StrCpy(hubname, sizeof(hubname), t->HubName); UniStrCpy(accountname, sizeof(accountname), t->AccountName); k = NULL; // Find specified link LockList(h->LinkList); { for (i = 0;i < LIST_NUM(h->LinkList);i++) { LINK *kk = LIST_DATA(h->LinkList, i); Lock(kk->lock); { if (UniStrCmpi(kk->Option->AccountName, accountname) == 0) { k = kk; AddRef(kk->ref); } } Unlock(kk->lock); if (k != NULL) { break; } } } UnlockList(h->LinkList); if (k == NULL) { // Specified link is not found ReleaseHub(h); return ERR_OBJECT_NOT_FOUND; } k->NoOnline = true; ALog(a, h, "LA_DELETE_LINK", t->AccountName); SetLinkOffline(k); IncrementServerConfigRevision(s); DelLink(h, k); ReleaseLink(k); ReleaseHub(h); return ret; } // Make a link into off-line UINT StSetLinkOffline(ADMIN *a, RPC_LINK *t) { UINT i; SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; wchar_t accountname[MAX_ACCOUNT_NAME_LEN + 1]; LINK *k; if (UniIsEmptyStr(t->AccountName)) { return ERR_INVALID_PARAMETER; } if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_cascade") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } StrCpy(hubname, sizeof(hubname), t->HubName); UniStrCpy(accountname, sizeof(accountname), t->AccountName); k = NULL; // Find specified link LockList(h->LinkList); { for (i = 0;i < LIST_NUM(h->LinkList);i++) { LINK *kk = LIST_DATA(h->LinkList, i); Lock(kk->lock); { if (UniStrCmpi(kk->Option->AccountName, accountname) == 0) { k = kk; AddRef(kk->ref); } } Unlock(kk->lock); if (k != NULL) { break; } } } UnlockList(h->LinkList); if (k == NULL) { // Link is not found ReleaseHub(h); return ERR_OBJECT_NOT_FOUND; } ALog(a, h, "LA_SET_LINK_OFFLINE", t->AccountName); SetLinkOffline(k); IncrementServerConfigRevision(s); ReleaseLink(k); ReleaseHub(h); return ret; } // Make a link into on-line UINT StSetLinkOnline(ADMIN *a, RPC_LINK *t) { UINT i; SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; wchar_t accountname[MAX_ACCOUNT_NAME_LEN + 1]; LINK *k; if (UniIsEmptyStr(t->AccountName)) { return ERR_INVALID_PARAMETER; } if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_cascade") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } StrCpy(hubname, sizeof(hubname), t->HubName); UniStrCpy(accountname, sizeof(accountname), t->AccountName); k = NULL; // Find specified link LockList(h->LinkList); { for (i = 0;i < LIST_NUM(h->LinkList);i++) { LINK *kk = LIST_DATA(h->LinkList, i); Lock(kk->lock); { if (UniStrCmpi(kk->Option->AccountName, accountname) == 0) { k = kk; AddRef(kk->ref); } } Unlock(kk->lock); if (k != NULL) { break; } } } UnlockList(h->LinkList); if (k == NULL) { // Specified link is not found ReleaseHub(h); return ERR_OBJECT_NOT_FOUND; } ALog(a, h, "LA_SET_LINK_ONLINE", t->AccountName); SetLinkOnline(k); ReleaseLink(k); ReleaseHub(h); IncrementServerConfigRevision(s); return ret; } // Get link status UINT StGetLinkStatus(ADMIN *a, RPC_LINK_STATUS *t) { UINT i; SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; wchar_t accountname[MAX_ACCOUNT_NAME_LEN + 1]; LINK *k; SESSION *sess; if (UniIsEmptyStr(t->AccountName)) { return ERR_INVALID_PARAMETER; } if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } StrCpy(hubname, sizeof(hubname), t->HubName); UniStrCpy(accountname, sizeof(accountname), t->AccountName); FreeRpcLinkStatus(t); Zero(t, sizeof(RPC_LINK_STATUS)); StrCpy(t->HubName, sizeof(t->HubName), hubname); UniStrCpy(t->AccountName, sizeof(t->AccountName), accountname); k = NULL; // Find the link LockList(h->LinkList); { for (i = 0;i < LIST_NUM(h->LinkList);i++) { LINK *kk = LIST_DATA(h->LinkList, i); Lock(kk->lock); { if (UniStrCmpi(kk->Option->AccountName, accountname) == 0) { k = kk; AddRef(kk->ref); } } Unlock(kk->lock); if (k != NULL) { break; } } } UnlockList(h->LinkList); if (k == NULL) { // Specified link is not found ReleaseHub(h); return ERR_OBJECT_NOT_FOUND; } // Get status information from session Lock(k->lock); { sess = k->ClientSession; if (sess != NULL) { AddRef(sess->ref); } } Unlock(k->lock); if (sess != NULL && k->Offline == false) { CiGetSessionStatus(&t->Status, sess); } else { ret = ERR_LINK_IS_OFFLINE; } ReleaseSession(sess); ReleaseLink(k); ReleaseHub(h); return ret; } // Enumerate links UINT StEnumLink(ADMIN *a, RPC_ENUM_LINK *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; char hubname[MAX_HUBNAME_LEN + 1]; UINT i; if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } StrCpy(hubname, sizeof(hubname), t->HubName); FreeRpcEnumLink(t); Zero(t, sizeof(RPC_ENUM_LINK)); StrCpy(t->HubName, sizeof(t->HubName), hubname); LockList(h->LinkList); { t->NumLink = LIST_NUM(h->LinkList); t->Links = ZeroMalloc(sizeof(RPC_ENUM_LINK_ITEM) * t->NumLink); for (i = 0;i < LIST_NUM(h->LinkList);i++) { LINK *k = LIST_DATA(h->LinkList, i); RPC_ENUM_LINK_ITEM *e = &t->Links[i]; Lock(k->lock); { UniStrCpy(e->AccountName, sizeof(e->AccountName), k->Option->AccountName); StrCpy(e->Hostname, sizeof(e->Hostname), k->Option->Hostname); StrCpy(e->HubName, sizeof(e->HubName), k->Option->HubName); e->Online = k->Offline ? false : true; if (e->Online) { if (k->ClientSession != NULL) { e->ConnectedTime = TickToTime(k->ClientSession->CurrentConnectionEstablishTime); e->Connected = (k->ClientSession->ClientStatus == CLIENT_STATUS_ESTABLISHED); e->LastError = k->ClientSession->Err; } } } Unlock(k->lock); } } UnlockList(h->LinkList); ReleaseHub(h); return ERR_NO_ERROR; } // Get link configuration UINT StGetLink(ADMIN *a, RPC_CREATE_LINK *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; UINT i; char hubname[MAX_SIZE]; LINK *k; if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_LINK_CANT_CREATE_ON_FARM; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } k = NULL; // Find the link LockList(h->LinkList); { for (i = 0;i < LIST_NUM(h->LinkList);i++) { LINK *kk = LIST_DATA(h->LinkList, i); Lock(kk->lock); { if (UniStrCmpi(kk->Option->AccountName, t->ClientOption->AccountName) == 0) { k = kk; AddRef(kk->ref); } } Unlock(kk->lock); if (k != NULL) { break; } } } UnlockList(h->LinkList); if (k == NULL) { // The link is not found ReleaseHub(h); return ERR_OBJECT_NOT_FOUND; } StrCpy(hubname, sizeof(hubname), t->HubName); FreeRpcCreateLink(t); Zero(t, sizeof(RPC_CREATE_LINK)); StrCpy(t->HubName, sizeof(t->HubName), hubname); Lock(k->lock); { // Get configuration t->Online = k->Offline ? false : true; t->ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION)); Copy(t->ClientOption, k->Option, sizeof(CLIENT_OPTION)); t->ClientAuth = CopyClientAuth(k->Auth); Copy(&t->Policy, k->Policy, sizeof(POLICY)); t->CheckServerCert = k->CheckServerCert; t->ServerCert = CloneX(k->ServerCert); } Unlock(k->lock); ReleaseLink(k); ReleaseHub(h); return ret; } // Set link configuration UINT StSetLink(ADMIN *a, RPC_CREATE_LINK *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; UINT i; LINK *k; if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_NOT_SUPPORTED; } CHECK_RIGHT; if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_LINK_CANT_CREATE_ON_FARM; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_cascade") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } k = NULL; // Find the link LockList(h->LinkList); { for (i = 0;i < LIST_NUM(h->LinkList);i++) { LINK *kk = LIST_DATA(h->LinkList, i); Lock(kk->lock); { if (UniStrCmpi(kk->Option->AccountName, t->ClientOption->AccountName) == 0) { k = kk; AddRef(kk->ref); } } Unlock(kk->lock); if (k != NULL) { break; } } } UnlockList(h->LinkList); if (k == NULL) { // The link is not found ReleaseHub(h); return ERR_OBJECT_NOT_FOUND; } ALog(a, h, "LA_SET_LINK", t->ClientOption->AccountName); Lock(k->lock); { // Update the configuration of the link if (k->ServerCert != NULL) { FreeX(k->ServerCert); k->ServerCert = NULL; } Copy(k->Option, t->ClientOption, sizeof(CLIENT_OPTION)); StrCpy(k->Option->DeviceName, sizeof(k->Option->DeviceName), LINK_DEVICE_NAME); k->Option->NumRetry = INFINITE; k->Option->RetryInterval = 10; k->Option->NoRoutingTracking = true; CiFreeClientAuth(k->Auth); k->Auth = CopyClientAuth(t->ClientAuth); if (t->Policy.Ver3 == false) { Copy(k->Policy, &t->Policy, sizeof(UINT) * NUM_POLICY_ITEM_FOR_VER2); } else { Copy(k->Policy, &t->Policy, sizeof(POLICY)); } k->Option->RequireBridgeRoutingMode = true; // Enable Bridge / Routing mode k->Option->RequireMonitorMode = false; // Disable monitor mode k->CheckServerCert = t->CheckServerCert; k->ServerCert = CloneX(t->ServerCert); } Unlock(k->lock); IncrementServerConfigRevision(s); ReleaseLink(k); ReleaseHub(h); return ret; } // Create a new link(cascade) UINT StCreateLink(ADMIN *a, RPC_CREATE_LINK *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; UINT i; LINK *k; CHECK_RIGHT; if (s->ServerType != SERVER_TYPE_STANDALONE) { return ERR_LINK_CANT_CREATE_ON_FARM; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_cascade") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } k = NULL; // Check for existing a link which has same name LockList(h->LinkList); { for (i = 0;i < LIST_NUM(h->LinkList);i++) { LINK *kk = LIST_DATA(h->LinkList, i); Lock(kk->lock); { if (UniStrCmpi(kk->Option->AccountName, t->ClientOption->AccountName) == 0) { k = kk; AddRef(kk->ref); } } Unlock(kk->lock); if (k != NULL) { break; } } } UnlockList(h->LinkList); if (k != NULL) { // There is a link which has same name ReleaseLink(k); ReleaseHub(h); return ERR_LINK_ALREADY_EXISTS; } ALog(a, h, "LA_CREATE_LINK", t->ClientOption->AccountName); // Create a new link k = NewLink(c, h, t->ClientOption, t->ClientAuth, &t->Policy); if (k == NULL) { // Link creation failed ret = ERR_INTERNAL_ERROR; } else { // setting of verifying server certification // k->CheckServerCert = t->CheckServerCert; k->ServerCert = CloneX(t->ServerCert); // stay this off-line k->Offline = false; SetLinkOffline(k); ReleaseLink(k); IncrementServerConfigRevision(s); } ReleaseHub(h); return ret; } // Delete a CA(Certificate Authority) setting from the hub UINT StDeleteCa(ADMIN *a, RPC_HUB_DELETE_CA *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } NO_SUPPORT_FOR_BRIDGE; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_cert_list") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } LockList(h->HubDb->RootCertList); { if (IsInListKey(h->HubDb->RootCertList, t->Key)) { X *x = ListKeyToPointer(h->HubDb->RootCertList, t->Key); Delete(h->HubDb->RootCertList, x); FreeX(x); ALog(a, h, "LA_DELETE_CA"); IncrementServerConfigRevision(s); } else { ret = ERR_OBJECT_NOT_FOUND; } } UnlockList(h->HubDb->RootCertList); ReleaseHub(h); return ret; } // Get CA(Certificate Authority) setting from the hub UINT StGetCa(ADMIN *a, RPC_HUB_GET_CA *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; UINT key; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } NO_SUPPORT_FOR_BRIDGE; StrCpy(hubname, sizeof(hubname), t->HubName); key = t->Key; FreeRpcHubGetCa(t); Zero(t, sizeof(RPC_HUB_GET_CA)); t->Key = key; StrCpy(t->HubName, sizeof(t->HubName), hubname); CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } LockList(h->HubDb->RootCertList); { if (IsInListKey(h->HubDb->RootCertList, key)) { X *x = ListKeyToPointer(h->HubDb->RootCertList, key); t->Cert = CloneX(x); } else { ret = ERR_OBJECT_NOT_FOUND; } } UnlockList(h->HubDb->RootCertList); ReleaseHub(h); return ret; } // Enumerate CA(Certificate Authority) in the hub UINT StEnumCa(ADMIN *a, RPC_HUB_ENUM_CA *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; char hubname[MAX_HUBNAME_LEN + 1]; UINT i; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } NO_SUPPORT_FOR_BRIDGE; StrCpy(hubname, sizeof(hubname), t->HubName); FreeRpcHubEnumCa(t); Zero(t, sizeof(RPC_HUB_ENUM_CA)); StrCpy(t->HubName, sizeof(t->HubName), hubname); CHECK_RIGHT; LockHubList(c); { h = GetHub(c, hubname); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } Zero(t, sizeof(RPC_HUB_ENUM_CA)); StrCpy(t->HubName, sizeof(t->HubName), hubname); if (h->HubDb->RootCertList != NULL) { LockList(h->HubDb->RootCertList); { t->NumCa = LIST_NUM(h->HubDb->RootCertList); t->Ca = ZeroMalloc(sizeof(RPC_HUB_ENUM_CA_ITEM) * t->NumCa); for (i = 0;i < t->NumCa;i++) { RPC_HUB_ENUM_CA_ITEM *e = &t->Ca[i]; X *x = LIST_DATA(h->HubDb->RootCertList, i); e->Key = POINTER_TO_KEY(x); GetAllNameFromNameEx(e->SubjectName, sizeof(e->SubjectName), x->subject_name); GetAllNameFromNameEx(e->IssuerName, sizeof(e->IssuerName), x->issuer_name); e->Expires = x->notAfter; } } UnlockList(h->HubDb->RootCertList); } ReleaseHub(h); return ERR_NO_ERROR; } // Add CA(Certificate Authority) into the hub UINT StAddCa(ADMIN *a, RPC_HUB_ADD_CA *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } if (c->Bridge) { return ERR_NOT_SUPPORTED; } if (t->Cert == NULL) { return ERR_INVALID_PARAMETER; } if (t->Cert->is_compatible_bit == false) { return ERR_NOT_RSA_1024; } CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_cert_list") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } IncrementServerConfigRevision(s); ALog(a, h, "LA_ADD_CA"); AddRootCert(h, t->Cert); ReleaseHub(h); return ERR_NO_ERROR; } // Get logging configuration of the hub UINT StGetHubLog(ADMIN *a, RPC_HUB_LOG *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } GetHubLogSetting(h, &t->LogSetting); ReleaseHub(h); return ERR_NO_ERROR; } // Set logging configuration into the hub UINT StSetHubLog(ADMIN *a, RPC_HUB_LOG *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_log_config") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } ALog(a, h, "LA_SET_HUB_LOG"); SetHubLogSettingEx(h, &t->LogSetting, (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_log_switch_type") != 0)); h->CurrentVersion++; SiHubUpdateProc(h); ReleaseHub(h); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Get hub status UINT StGetHubStatus(ADMIN *a, RPC_HUB_STATUS *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } Zero(t, sizeof(RPC_HUB_STATUS)); Lock(h->lock); { StrCpy(t->HubName, sizeof(t->HubName), h->Name); t->HubType = h->Type; t->Online = h->Offline ? false : true; t->NumSessions = LIST_NUM(h->SessionList); t->NumSessionsClient = Count(h->NumSessionsClient); t->NumSessionsBridge = Count(h->NumSessionsBridge); t->NumAccessLists = LIST_NUM(h->AccessList); if (h->HubDb != NULL) { t->NumUsers = LIST_NUM(h->HubDb->UserList); t->NumGroups = LIST_NUM(h->HubDb->GroupList); } t->NumMacTables = HASH_LIST_NUM(h->MacHashTable); t->NumIpTables = LIST_NUM(h->IpTable); Lock(h->TrafficLock); { Copy(&t->Traffic, h->Traffic, sizeof(TRAFFIC)); } Unlock(h->TrafficLock); t->NumLogin = h->NumLogin; t->LastCommTime = h->LastCommTime; t->LastLoginTime = h->LastLoginTime; t->CreatedTime = h->CreatedTime; } Unlock(h->lock); if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { UINT i; LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { UINT k; FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { LockList(f->HubList); { for (k = 0;k < LIST_NUM(f->HubList);k++) { HUB_LIST *h = LIST_DATA(f->HubList, k); if (StrCmpi(h->Name, t->HubName) == 0) { t->NumSessions += h->NumSessions; t->NumSessionsClient += h->NumSessionsClient; t->NumSessionsBridge += h->NumSessionsBridge; t->NumMacTables += h->NumMacTables; t->NumIpTables += h->NumIpTables; } } } UnlockList(f->HubList); } } } UnlockList(s->FarmMemberList); } if (h->Type != HUB_TYPE_FARM_STATIC) { t->SecureNATEnabled = h->EnableSecureNAT; } ReleaseHub(h); return ERR_NO_ERROR; } // Enable SecureNAT function of the hub UINT StEnableSecureNAT(ADMIN *a, RPC_HUB *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (h->Type == HUB_TYPE_FARM_STATIC || GetServerCapsBool(s, "b_support_securenat") == false) { ReleaseHub(h); return ERR_NOT_SUPPORTED; } if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { ReleaseHub(h); return ERR_NOT_FARM_CONTROLLER; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_securenat") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } ALog(a, h, "LA_ENABLE_SNAT"); EnableSecureNAT(h, true); h->CurrentVersion++; SiHubUpdateProc(h); IncrementServerConfigRevision(s); ReleaseHub(h); return ERR_NO_ERROR; } // Disable the SecureNAT function of the hub UINT StDisableSecureNAT(ADMIN *a, RPC_HUB *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (h->Type == HUB_TYPE_FARM_STATIC || GetServerCapsBool(s, "b_support_securenat") == false) { ReleaseHub(h); return ERR_NOT_SUPPORTED; } if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { ReleaseHub(h); return ERR_NOT_FARM_CONTROLLER; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_securenat") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } ALog(a, h, "LA_DISABLE_SNAT"); EnableSecureNAT(h, false); h->CurrentVersion++; SiHubUpdateProc(h); IncrementServerConfigRevision(s); ReleaseHub(h); return ERR_NO_ERROR; } // Enumerate NAT entries of the SecureNAT UINT StEnumNAT(ADMIN *a, RPC_ENUM_NAT *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; UINT i; CHECK_RIGHT; StrCpy(hubname, sizeof(hubname), t->HubName); LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (h->Type == HUB_TYPE_FARM_STATIC || GetServerCapsBool(s, "b_support_securenat") == false) { ReleaseHub(h); return ERR_NOT_SUPPORTED; } Lock(h->lock_online); { if (h->SecureNAT == NULL) { ret = ERR_SNAT_NOT_RUNNING; } else { NtEnumNatList(h->SecureNAT->Nat, t); } } Unlock(h->lock_online); if (h->Type == HUB_TYPE_FARM_DYNAMIC) { if (ret == ERR_SNAT_NOT_RUNNING) { // Get status of remote SecureNAT LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { RPC_ENUM_NAT tmp; Zero(&tmp, sizeof(tmp)); SiCallEnumNat(s, f, hubname, &tmp); if (tmp.NumItem >= 1) { FreeRpcEnumNat(t); Copy(t, &tmp, sizeof(RPC_ENUM_NAT)); ret = ERR_NO_ERROR; break; } else { FreeRpcEnumNat(&tmp); } } } } UnlockList(s->FarmMemberList); } } ReleaseHub(h); ret = ERR_NO_ERROR; return ret; } // Get status of the SecureNAT UINT StGetSecureNATStatus(ADMIN *a, RPC_NAT_STATUS *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; UINT i; CHECK_RIGHT; StrCpy(hubname, sizeof(hubname), t->HubName); LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (h->Type == HUB_TYPE_FARM_STATIC || GetServerCapsBool(s, "b_support_securenat") == false) { ReleaseHub(h); return ERR_NOT_SUPPORTED; } Lock(h->lock_online); { if (h->SecureNAT == NULL) { ret = ERR_SNAT_NOT_RUNNING; } else { NtGetStatus(h->SecureNAT->Nat, t); } } Unlock(h->lock_online); if (h->Type == HUB_TYPE_FARM_DYNAMIC) { if (ret == ERR_SNAT_NOT_RUNNING) { // Get status of remote secureNAT LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { RPC_NAT_STATUS tmp; Zero(&tmp, sizeof(tmp)); SiCallGetNatStatus(s, f, hubname, &tmp); if (tmp.NumDhcpClients == 0 && tmp.NumTcpSessions == 0 && tmp.NumUdpSessions == 0) { } else { Copy(t, &tmp, sizeof(RPC_NAT_STATUS)); ret = ERR_NO_ERROR; break; } } } } UnlockList(s->FarmMemberList); } } ReleaseHub(h); StrCpy(t->HubName, sizeof(t->HubName), hubname); ret = ERR_NO_ERROR; return ret; } // Enumerate DHCP entries UINT StEnumDHCP(ADMIN *a, RPC_ENUM_DHCP *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; char hubname[MAX_HUBNAME_LEN + 1]; UINT i; StrCpy(hubname, sizeof(hubname), t->HubName); CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (h->Type == HUB_TYPE_FARM_STATIC || GetServerCapsBool(s, "b_support_securenat") == false) { ReleaseHub(h); return ERR_NOT_SUPPORTED; } Lock(h->lock_online); { if (h->SecureNAT == NULL) { ret = ERR_SNAT_NOT_RUNNING; } else { NtEnumDhcpList(h->SecureNAT->Nat, t); } } Unlock(h->lock_online); if (h->Type == HUB_TYPE_FARM_DYNAMIC) { if (ret == ERR_SNAT_NOT_RUNNING) { // Get status of remote DHCP service LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); if (f->Me == false) { RPC_ENUM_DHCP tmp; Zero(&tmp, sizeof(tmp)); SiCallEnumDhcp(s, f, hubname, &tmp); if (tmp.NumItem >= 1) { FreeRpcEnumDhcp(t); Copy(t, &tmp, sizeof(RPC_ENUM_DHCP)); ret = ERR_NO_ERROR; break; } else { FreeRpcEnumDhcp(&tmp); } } } } UnlockList(s->FarmMemberList); } } ReleaseHub(h); ret = ERR_NO_ERROR; return ret; } // Set SecureNAT options UINT StSetSecureNATOption(ADMIN *a, VH_OPTION *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; char push_routes_str_old[MAX_DHCP_CLASSLESS_ROUTE_TABLE_STR_SIZE]; if (IsZero(t->MacAddress, sizeof(t->MacAddress)) || IsHostIPAddress4(&t->Ip) == false || IsSubnetMask4(&t->Mask) == false) { return ERR_INVALID_PARAMETER; } if ((IPToUINT(&t->Ip) & (~(IPToUINT(&t->Mask)))) == 0) { return ERR_INVALID_PARAMETER; } if (GetServerCapsBool(s, "b_support_securenat") == false) { t->ApplyDhcpPushRoutes = false; } if (t->ApplyDhcpPushRoutes) { if (NormalizeClasslessRouteTableStr(t->DhcpPushRoutes, sizeof(t->DhcpPushRoutes), t->DhcpPushRoutes) == false) { return ERR_INVALID_PARAMETER; } } CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (h->Type == HUB_TYPE_FARM_STATIC || GetServerCapsBool(s, "b_support_securenat") == false) { ReleaseHub(h); return ERR_NOT_SUPPORTED; } if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { ReleaseHub(h); return ERR_NOT_FARM_CONTROLLER; } if (a->ServerAdmin == false && GetHubAdminOption(h, "no_securenat") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } if (h->SecureNATOption->UseNat == false && t->UseNat) { if (a->ServerAdmin == false && GetHubAdminOption(h, "no_securenat_enablenat") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } } if (h->SecureNATOption->UseDhcp == false && t->UseDhcp) { if (a->ServerAdmin == false && GetHubAdminOption(h, "no_securenat_enabledhcp") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } } StrCpy(push_routes_str_old, sizeof(push_routes_str_old), h->SecureNATOption->DhcpPushRoutes); Copy(h->SecureNATOption, t, sizeof(VH_OPTION)); if (t->ApplyDhcpPushRoutes == false) { StrCpy(h->SecureNATOption->DhcpPushRoutes, sizeof(h->SecureNATOption->DhcpPushRoutes), push_routes_str_old); } if (h->Type != HUB_TYPE_STANDALONE && h->Cedar != NULL && h->Cedar->Server != NULL && h->Cedar->Server->ServerType == SERVER_TYPE_FARM_CONTROLLER) { NiClearUnsupportedVhOptionForDynamicHub(h->SecureNATOption, false); } Lock(h->lock_online); { if (h->SecureNAT != NULL) { SetVirtualHostOption(h->SecureNAT->Nat->Virtual, t); } } Unlock(h->lock_online); ALog(a, h, "LA_SET_SNAT_OPTION"); h->CurrentVersion++; SiHubUpdateProc(h); IncrementServerConfigRevision(s); ReleaseHub(h); return ERR_NO_ERROR; } // Get SecureNAT options UINT StGetSecureNATOption(ADMIN *a, VH_OPTION *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; char hubname[MAX_HUBNAME_LEN + 1]; StrCpy(hubname, sizeof(hubname), t->HubName); CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (h->Type == HUB_TYPE_FARM_STATIC || GetServerCapsBool(s, "b_support_securenat") == false) { ReleaseHub(h); return ERR_NOT_SUPPORTED; } if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { ReleaseHub(h); return ERR_NOT_FARM_CONTROLLER; } Zero(t, sizeof(VH_OPTION)); Copy(t, h->SecureNATOption, sizeof(VH_OPTION)); StrCpy(t->HubName, sizeof(t->HubName), h->Name); t->ApplyDhcpPushRoutes = true; ReleaseHub(h); return ERR_NO_ERROR; } // Make a hub on-line or off-line UINT StSetHubOnline(ADMIN *a, RPC_SET_HUB_ONLINE *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } NO_SUPPORT_FOR_BRIDGE; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (a->ServerAdmin == false && t->Online && GetHubAdminOption(h, "no_online") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } if (a->ServerAdmin == false && t->Online == false && GetHubAdminOption(h, "no_offline") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } if (t->Online) { ALog(a, h, "LA_SET_HUB_ONLINE"); SetHubOnline(h); } else { ALog(a, h, "LA_SET_HUB_OFFLINE"); SetHubOffline(h); } h->CurrentVersion++; SiHubUpdateProc(h); IncrementServerConfigRevision(s); ReleaseHub(h); return ERR_NO_ERROR; } // Get connection information UINT StGetConnectionInfo(ADMIN *a, RPC_CONNECTION_INFO *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; CONNECTION *connection; char name[MAX_CONNECTION_NAME_LEN + 1]; if (IsEmptyStr(t->Name)) { return ERR_INVALID_PARAMETER; } SERVER_ADMIN_ONLY; LockList(c->ConnectionList); { CONNECTION tt; Zero(&tt, sizeof(tt)); tt.Name = t->Name; StrCpy(name, sizeof(name), t->Name); connection = Search(c->ConnectionList, &tt); if (connection != NULL) { AddRef(connection->ref); } } UnlockList(c->ConnectionList); if (connection == NULL) { return ERR_OBJECT_NOT_FOUND; } Zero(t, sizeof(RPC_CONNECTION_INFO)); StrCpy(t->Name, sizeof(t->Name), name); Lock(connection->lock); { SOCK *s = connection->FirstSock; if (s != NULL) { t->Ip = IPToUINT(&s->RemoteIP); t->Port = s->RemotePort; StrCpy(t->Hostname, sizeof(t->Hostname), s->RemoteHostname); } StrCpy(t->Name, sizeof(t->Name), connection->Name); t->ConnectedTime = TickToTime(connection->ConnectedTick); t->Type = connection->Type; StrCpy(t->ServerStr, sizeof(t->ServerStr), connection->ServerStr); StrCpy(t->ClientStr, sizeof(t->ClientStr), connection->ClientStr); t->ServerVer = connection->ServerVer; t->ServerBuild = connection->ServerBuild; t->ClientVer = connection->ClientVer; t->ClientBuild = connection->ClientBuild; } Unlock(connection->lock); ReleaseConnection(connection); return ERR_NO_ERROR; } // Disconnect a connection UINT StDisconnectConnection(ADMIN *a, RPC_DISCONNECT_CONNECTION *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; CONNECTION *connection; if (IsEmptyStr(t->Name)) { return ERR_INVALID_PARAMETER; } SERVER_ADMIN_ONLY; LockList(c->ConnectionList); { CONNECTION tt; Zero(&tt, sizeof(tt)); tt.Name = t->Name; connection = Search(c->ConnectionList, &tt); if (connection != NULL) { AddRef(connection->ref); } } UnlockList(c->ConnectionList); if (connection == NULL) { return ERR_OBJECT_NOT_FOUND; } StopConnection(connection, true); ReleaseConnection(connection); ALog(a, NULL, "LA_DISCONNECT_CONN", t->Name); return ERR_NO_ERROR; } // Enumerate connections UINT StEnumConnection(ADMIN *a, RPC_ENUM_CONNECTION *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; SERVER_ADMIN_ONLY; FreeRpcEnumConnection(t); Zero(t, sizeof(RPC_ENUM_CONNECTION)); LockList(c->ConnectionList); { UINT i; t->NumConnection = LIST_NUM(c->ConnectionList); t->Connections = ZeroMalloc(sizeof(RPC_ENUM_CONNECTION_ITEM) * t->NumConnection); for (i = 0;i < t->NumConnection;i++) { RPC_ENUM_CONNECTION_ITEM *e = &t->Connections[i]; CONNECTION *connection = LIST_DATA(c->ConnectionList, i); Lock(connection->lock); { SOCK *s = connection->FirstSock; if (s != NULL) { e->Ip = IPToUINT(&s->RemoteIP); e->Port = s->RemotePort; StrCpy(e->Hostname, sizeof(e->Hostname), s->RemoteHostname); } StrCpy(e->Name, sizeof(e->Name), connection->Name); e->ConnectedTime = TickToTime(connection->ConnectedTick); e->Type = connection->Type; } Unlock(connection->lock); } } UnlockList(c->ConnectionList); return ERR_NO_ERROR; } // Set Radius options of the hub UINT StSetHubRadius(ADMIN *a, RPC_RADIUS *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } if (GetGlobalServerFlag(GSF_DISABLE_RADIUS_AUTH) != 0 && IsEmptyStr(t->RadiusServerName) == false) { return ERR_NOT_SUPPORTED_FUNCTION_ON_OPENSOURCE; } CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } //SetRadiusServer(h, t->RadiusServerName, t->RadiusPort, t->RadiusSecret); SetRadiusServerEx(h, t->RadiusServerName, t->RadiusPort, t->RadiusSecret, t->RadiusRetryInterval); ALog(a, h, "LA_SET_HUB_RADIUS"); ReleaseHub(h); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Get Radius options of the hub UINT StGetHubRadius(ADMIN *a, RPC_RADIUS *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; CHECK_RIGHT; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_SUPPORTED; } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } Zero(t, sizeof(RPC_RADIUS)); //GetRadiusServer(h, t->RadiusServerName, sizeof(t->RadiusServerName), // &t->RadiusPort, t->RadiusSecret, sizeof(t->RadiusSecret)); GetRadiusServerEx(h, t->RadiusServerName, sizeof(t->RadiusServerName), &t->RadiusPort, t->RadiusSecret, sizeof(t->RadiusSecret), &t->RadiusRetryInterval); ReleaseHub(h); return ERR_NO_ERROR; } // Delete a hub UINT StDeleteHub(ADMIN *a, RPC_DELETE_HUB *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } if (IsEmptyStr(t->HubName) || IsSafeStr(t->HubName) == false) { return ERR_INVALID_PARAMETER; } NO_SUPPORT_FOR_BRIDGE; SERVER_ADMIN_ONLY; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } StopHub(h); IncrementServerConfigRevision(s); DelHub(c, h); ReleaseHub(h); ALog(a, NULL, "LA_DELETE_HUB", t->HubName); return ERR_NO_ERROR; } // Enumerate hubs UINT StEnumHub(ADMIN *a, RPC_ENUM_HUB *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h = NULL; FreeRpcEnumHub(t); Zero(t, sizeof(RPC_ENUM_HUB)); LockHubList(c); { UINT i, num, j; num = 0; for (i = 0;i < LIST_NUM(c->HubList);i++) { HUB *h = LIST_DATA(c->HubList, i); Lock(h->lock); if (a->ServerAdmin == false && h->Option != NULL && StrCmpi(h->Name, a->HubName) != 0) { // This hub is not listed } else { // This hub is listed num++; } } t->NumHub = num; t->Hubs = ZeroMalloc(sizeof(RPC_ENUM_HUB_ITEM) * num); i = 0; for (j = 0;j < LIST_NUM(c->HubList);j++) { HUB *h = LIST_DATA(c->HubList, j); if (a->ServerAdmin == false && h->Option != NULL && StrCmpi(h->Name, a->HubName) != 0) { // This hub is not listed } else { // This hub is listed RPC_ENUM_HUB_ITEM *e = &t->Hubs[i++]; StrCpy(e->HubName, sizeof(e->HubName), h->Name); e->Online = h->Offline ? false : true; e->HubType = h->Type; e->NumSessions = LIST_NUM(h->SessionList); LockHashList(h->MacHashTable); { e->NumMacTables = HASH_LIST_NUM(h->MacHashTable); } UnlockHashList(h->MacHashTable); LockList(h->IpTable); { e->NumIpTables = LIST_NUM(h->IpTable); } UnlockList(h->IpTable); if (h->HubDb != NULL) { LockList(h->HubDb->UserList); { e->NumUsers = LIST_NUM(h->HubDb->UserList); } UnlockList(h->HubDb->UserList); LockList(h->HubDb->GroupList); { e->NumGroups = LIST_NUM(h->HubDb->GroupList); } UnlockList(h->HubDb->GroupList); } e->LastCommTime = h->LastCommTime; e->LastLoginTime = h->LastLoginTime; e->NumLogin = h->NumLogin; e->CreatedTime = h->CreatedTime; Lock(h->TrafficLock); { Copy(&e->Traffic, h->Traffic, sizeof(TRAFFIC)); } Unlock(h->TrafficLock); e->IsTrafficFilled = true; } Unlock(h->lock); } } UnlockHubList(c); if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { UINT i, j, k; LockList(s->FarmMemberList); { for (i = 0;i < LIST_NUM(s->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); LockList(f->HubList); { if (f->Me == false) { for (j = 0;j < LIST_NUM(f->HubList);j++) { HUB_LIST *o = LIST_DATA(f->HubList, j); for (k = 0;k < t->NumHub;k++) { RPC_ENUM_HUB_ITEM *e = &t->Hubs[k]; if (StrCmpi(e->HubName, o->Name) == 0) { e->NumIpTables += o->NumIpTables; e->NumMacTables += o->NumMacTables; e->NumSessions += o->NumSessions; } } } } } UnlockList(f->HubList); } } UnlockList(s->FarmMemberList); } return ERR_NO_ERROR; } // Get hub configuration UINT StGetHub(ADMIN *a, RPC_CREATE_HUB *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT ret = ERR_NO_ERROR; HUB *h; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } if (IsEmptyStr(t->HubName) || IsSafeStr(t->HubName) == false) { return ERR_INVALID_PARAMETER; } if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } NO_SUPPORT_FOR_BRIDGE; CHECK_RIGHT; LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); Zero(t, sizeof(RPC_CREATE_HUB)); if (h == NULL) { return ERR_HUB_NOT_FOUND; } Lock(h->lock); { StrCpy(t->HubName, sizeof(t->HubName), h->Name); t->Online = h->Offline ? false : true; t->HubOption.MaxSession = h->Option->MaxSession; t->HubOption.NoEnum = h->Option->NoEnum; t->HubType = h->Type; } Unlock(h->lock); ReleaseHub(h); return ret; } // Set hub configuration UINT StSetHub(ADMIN *a, RPC_CREATE_HUB *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; UINT ret = ERR_NO_ERROR; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } if (IsEmptyStr(t->HubName) || IsSafeStr(t->HubName) == false) { return ERR_INVALID_PARAMETER; } CHECK_RIGHT; NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } if (s->ServerType == SERVER_TYPE_STANDALONE) { if (t->HubType != HUB_TYPE_STANDALONE) { return ERR_INVALID_PARAMETER; } } if (s->ServerType == SERVER_TYPE_FARM_CONTROLLER) { if (t->HubType == HUB_TYPE_STANDALONE) { return ERR_INVALID_PARAMETER; } } LockHubList(c); { h = GetHub(c, t->HubName); } UnlockHubList(c); if (h == NULL) { return ERR_HUB_NOT_FOUND; } if (h->Type != t->HubType) { ReleaseHub(h); return ERR_NOT_SUPPORTED; } // For JSON-RPC if (StrLen(t->AdminPasswordPlainText) != 0) { Sha0(t->HashedPassword, t->AdminPasswordPlainText, StrLen(t->AdminPasswordPlainText)); HashPassword(t->SecurePassword, ADMINISTRATOR_USERNAME, t->AdminPasswordPlainText); } if (IsZero(t->HashedPassword, sizeof(t->HashedPassword)) == false && IsZero(t->SecurePassword, sizeof(t->SecurePassword)) == false) { if (a->ServerAdmin == false && GetHubAdminOption(h, "no_change_admin_password") != 0) { ReleaseHub(h); return ERR_NOT_ENOUGH_RIGHT; } } // Is the password to be set blank { UCHAR hash1[SHA1_SIZE], hash2[SHA1_SIZE]; HashPassword(hash1, ADMINISTRATOR_USERNAME, ""); Sha0(hash2, "", 0); if (Cmp(t->HashedPassword, hash2, SHA1_SIZE) == 0 || Cmp(t->SecurePassword, hash1, SHA1_SIZE) == 0) { if (a->ServerAdmin == false && a->Rpc->Sock->RemoteIP.addr[0] != 127) { // Refuse to set a blank password to hub admin from remote host ReleaseHub(h); return ERR_INVALID_PARAMETER; } } } Lock(h->lock); { if (a->ServerAdmin == false && h->Type != t->HubType) { ret = ERR_NOT_ENOUGH_RIGHT; } else { h->Type = t->HubType; h->Option->MaxSession = t->HubOption.MaxSession; h->Option->NoEnum = t->HubOption.NoEnum; if (IsZero(t->HashedPassword, sizeof(t->HashedPassword)) == false && IsZero(t->SecurePassword, sizeof(t->SecurePassword)) == false) { Copy(h->HashedPassword, t->HashedPassword, SHA1_SIZE); Copy(h->SecurePassword, t->SecurePassword, SHA1_SIZE); } } } Unlock(h->lock); if (t->Online) { if (a->ServerAdmin || GetHubAdminOption(h, "no_online") == 0) { SetHubOnline(h); } } else { if (a->ServerAdmin || GetHubAdminOption(h, "no_offline") == 0) { SetHubOffline(h); } } if (h->Type == HUB_TYPE_FARM_STATIC) { EnableSecureNAT(h, false); } h->CurrentVersion++; SiHubUpdateProc(h); IncrementServerConfigRevision(s); ALog(a, h, "LA_SET_HUB"); ReleaseHub(h); return ret; } // Create a hub UINT StCreateHub(ADMIN *a, RPC_CREATE_HUB *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; HUB *h; HUB_OPTION o; UINT current_hub_num; bool b; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } if (IsEmptyStr(t->HubName) || IsSafeStr(t->HubName) == false) { return ERR_INVALID_PARAMETER; } NO_SUPPORT_FOR_BRIDGE; if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } SERVER_ADMIN_ONLY; Trim(t->HubName); if (StrLen(t->HubName) == 0) { return ERR_INVALID_PARAMETER; } if (StartWith(t->HubName, ".") || EndWith(t->HubName, ".")) { return ERR_INVALID_PARAMETER; } if (s->ServerType == SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_CONTROLLER; } if (s->ServerType == SERVER_TYPE_STANDALONE) { if (t->HubType != HUB_TYPE_STANDALONE) { return ERR_INVALID_PARAMETER; } } else if (t->HubType != HUB_TYPE_FARM_DYNAMIC && t->HubType != HUB_TYPE_FARM_STATIC) { return ERR_INVALID_PARAMETER; } // Create a hub object Zero(&o, sizeof(o)); o.MaxSession = t->HubOption.MaxSession; o.NoEnum = t->HubOption.NoEnum; // Default setting for hub admin options SiSetDefaultHubOption(&o); LockList(c->HubList); { current_hub_num = LIST_NUM(c->HubList); } UnlockList(c->HubList); if (current_hub_num > GetServerCapsInt(a->Server, "i_max_hubs")) { return ERR_TOO_MANY_HUBS; } LockList(c->HubList); { b = IsHub(c, t->HubName); } UnlockList(c->HubList); if (b) { return ERR_HUB_ALREADY_EXISTS; } ALog(a, NULL, "LA_CREATE_HUB", t->HubName); // For JSON-RPC if ((IsZero(t->HashedPassword, sizeof(t->HashedPassword)) && IsZero(t->SecurePassword, sizeof(t->SecurePassword))) || StrLen(t->AdminPasswordPlainText) != 0) { Sha0(t->HashedPassword, t->AdminPasswordPlainText, StrLen(t->AdminPasswordPlainText)); HashPassword(t->SecurePassword, ADMINISTRATOR_USERNAME, t->AdminPasswordPlainText); } h = NewHub(c, t->HubName, &o); Copy(h->HashedPassword, t->HashedPassword, SHA1_SIZE); Copy(h->SecurePassword, t->SecurePassword, SHA1_SIZE); h->Type = t->HubType; AddHub(c, h); if (t->Online) { h->Offline = true; SetHubOnline(h); } else { h->Offline = false; SetHubOffline(h); } h->CreatedTime = SystemTime64(); ReleaseHub(h); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Set cipher for SSL to the server UINT StSetServerCipher(ADMIN *a, RPC_STR *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; if (IsEmptyStr(t->String)) { return ERR_INVALID_PARAMETER; } SERVER_ADMIN_ONLY; StrUpper(t->String); ALog(a, NULL, "LA_SET_SERVER_CIPHER", t->String); Lock(c->lock); { SetCedarCipherList(c, t->String); } Unlock(c->lock); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Get cipher for SSL UINT StGetServerCipher(ADMIN *a, RPC_STR *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; FreeRpcStr(t); Zero(t, sizeof(RPC_STR)); Lock(c->lock); { t->String = CopyStr(c->CipherList); } Unlock(c->lock); return ERR_NO_ERROR; } // Get list of available ciphers for SSL UINT StGetServerCipherList(ADMIN *a, RPC_STR *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; FreeRpcStr(t); Zero(t, sizeof(RPC_STR)); Lock(c->lock); { UINT i; TOKEN_LIST *ciphers = GetCipherList(); if (ciphers->NumTokens > 0) { UINT size = StrSize(ciphers->Token[0]); t->String = Malloc(size); StrCpy(t->String, size, ciphers->Token[0]); i = 1; for (; i < ciphers->NumTokens; i++) { // We use StrSize() because we need the extra space for ';' size += StrSize(ciphers->Token[i]); t->String = ReAlloc(t->String, size); StrCat(t->String, size, ";"); StrCat(t->String, size, ciphers->Token[i]); } } FreeToken(ciphers); } Unlock(c->lock); return ERR_NO_ERROR; } // Get the server certification UINT StGetServerCert(ADMIN *a, RPC_KEY_PAIR *t) { bool admin; SERVER *s = a->Server; CEDAR *c = s->Cedar; bool is_vgs_cert = false; admin = a->ServerAdmin; FreeRpcKeyPair(t); Zero(t, sizeof(RPC_KEY_PAIR)); Lock(c->lock); { t->Cert = CloneX(c->ServerX); if (admin && is_vgs_cert == false) { t->Key = CloneK(c->ServerK); } } Unlock(c->lock); return ERR_NO_ERROR; } // Set the server certification UINT StSetServerCert(ADMIN *a, RPC_KEY_PAIR *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; SERVER_ADMIN_ONLY; if (t->Cert == NULL || t->Key == NULL) { return ERR_PROTOCOL_ERROR; } if (t->Cert->is_compatible_bit == false) { return ERR_NOT_RSA_1024; } if (CheckXandK(t->Cert, t->Key) == false) { return ERR_PROTOCOL_ERROR; } t->Flag1 = 1; if (t->Cert->root_cert == false) { if (DownloadAndSaveIntermediateCertificatesIfNecessary(t->Cert) == false) { t->Flag1 = 0; } } SetCedarCert(c, t->Cert, t->Key); ALog(a, NULL, "LA_SET_SERVER_CERT"); IncrementServerConfigRevision(s); return ERR_NO_ERROR; } // Get status of connection to cluster controller UINT StGetFarmConnectionStatus(ADMIN *a, RPC_FARM_CONNECTION_STATUS *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; FARM_CONTROLLER *fc; if (s->ServerType != SERVER_TYPE_FARM_MEMBER) { return ERR_NOT_FARM_MEMBER; } Zero(t, sizeof(RPC_FARM_CONNECTION_STATUS)); fc = s->FarmController; Lock(fc->lock); { if (fc->Sock != NULL) { t->Ip = IPToUINT(&fc->Sock->RemoteIP); t->Port = fc->Sock->RemotePort; } t->Online = fc->Online; t->LastError = ERR_NO_ERROR; if (t->Online == false) { t->LastError = fc->LastError; } else { t->CurrentConnectedTime = fc->CurrentConnectedTime; } t->StartedTime = fc->StartedTime; t->FirstConnectedTime = fc->FirstConnectedTime; t->NumConnected = fc->NumConnected; t->NumTry = fc->NumTry; t->NumFailed = fc->NumFailed; } Unlock(fc->lock); return ERR_NO_ERROR; } // Enumerate cluster members UINT StEnumFarmMember(ADMIN *a, RPC_ENUM_FARM *t) { SERVER *s = a->Server; CEDAR *c = s->Cedar; UINT i; FreeRpcEnumFarm(t); Zero(t, sizeof(RPC_ENUM_FARM)); if (s->ServerType != SERVER_TYPE_FARM_CONTROLLER) { return ERR_NOT_FARM_CONTROLLER; } Zero(t, sizeof(RPC_ENUM_FARM)); LockList(s->FarmMemberList); { t->NumFarm = LIST_NUM(s->FarmMemberList); t->Farms = ZeroMalloc(sizeof(RPC_ENUM_FARM_ITEM) * t->NumFarm); for (i = 0;i < t->NumFarm;i++) { FARM_MEMBER *f = LIST_DATA(s->FarmMemberList, i); RPC_ENUM_FARM_ITEM *e = &t->Farms[i]; e->Id = POINTER_TO_KEY(f); e->Controller = f->Me; if (e->Controller) { e->ConnectedTime = TickToTime(c->CreatedTick); e->Ip = 0x0100007f; GetMachineName(e->Hostname, sizeof(e->Hostname)); e->Point = f->Point; e->NumSessions = Count(c->CurrentSessions); e->NumTcpConnections = Count(c->CurrentTcpConnections); e->AssignedBridgeLicense = Count(c->AssignedBridgeLicense); e->AssignedClientLicense = Count(c->AssignedClientLicense); } else { e->ConnectedTime = f->ConnectedTime; e->Ip = f->Ip; StrCpy(e->Hostname, sizeof(e->Hostname), f->hostname); e->Point = f->Point; e->NumSessions = f->NumSessions; e->NumTcpConnections = f->NumTcpConnections; e->AssignedBridgeLicense = f->AssignedBridgeLicense; e->AssignedClientLicense = f->AssignedClientLicense; } e->NumHubs = LIST_NUM(f->HubList); } } UnlockList(s->FarmMemberList); return ERR_NO_ERROR; } // Get cluster member information UINT StGetFarmInfo(ADMIN *a, RPC_FARM_INFO *t) { SERVER *s = a->Server; UINT id = t->Id; UINT i; UINT ret = ERR_NO_ERROR; FreeRpcFarmInfo(t); Zero(t, sizeof(RPC_FARM_INFO)); if (s->ServerType != SERVER_TYPE_FARM_CONTROLLER) { return ERR_NOT_FARM_CONTROLLER; } LockList(s->FarmMemberList); { if (IsInListKey(s->FarmMemberList, id)) { FARM_MEMBER *f = ListKeyToPointer(s->FarmMemberList, id); t->Id = id; t->Controller = f->Me; t->Weight = f->Weight; LockList(f->HubList); { t->NumFarmHub = LIST_NUM(f->HubList); t->FarmHubs = ZeroMalloc(sizeof(RPC_FARM_HUB) * t->NumFarmHub); for (i = 0;i < t->NumFarmHub;i++) { RPC_FARM_HUB *h = &t->FarmHubs[i]; HUB_LIST *hh = LIST_DATA(f->HubList, i); h->DynamicHub = hh->DynamicHub; StrCpy(h->HubName, sizeof(h->HubName), hh->Name); } } UnlockList(f->HubList); if (t->Controller) { t->ConnectedTime = TickToTime(s->Cedar->CreatedTick); t->Ip = 0x0100007f; GetMachineName(t->Hostname, sizeof(t->Hostname)); t->Point = f->Point; LockList(s->ServerListenerList); { UINT i, n; t->NumPort = 0; for (i = 0;i < LIST_NUM(s->ServerListenerList);i++) { SERVER_LISTENER *o = LIST_DATA(s->ServerListenerList, i); if (o->Enabled) { t->NumPort++; } } t->Ports = ZeroMalloc(sizeof(UINT) * t->NumPort); n = 0; for (i = 0;i < LIST_NUM(s->ServerListenerList);i++) { SERVER_LISTENER *o = LIST_DATA(s->ServerListenerList, i); if (o->Enabled) { t->Ports[n++] = o->Port; } } } UnlockList(s->ServerListenerList); t->ServerCert = CloneX(s->Cedar->ServerX); t->NumSessions = Count(s->Cedar->CurrentSessions); t->NumTcpConnections = Count(s->Cedar->CurrentTcpConnections); } else { t->ConnectedTime = f->ConnectedTime; t->Ip = f->Ip; StrCpy(t->Hostname, sizeof(t->Hostname), f->hostname); t->Point = f->Point; t->NumPort = f->NumPort; t->Ports = ZeroMalloc(sizeof(UINT) * t->NumPort); Copy(t->Ports, f->Ports, sizeof(UINT) * t->NumPort); t->ServerCert = CloneX(f->ServerCert); t->NumSessions = f->NumSessions; t->NumTcpConnections = f->NumTcpConnections; } } else { ret = ERR_OBJECT_NOT_FOUND; } } UnlockList(s->FarmMemberList); return ret; } // Get clustering configuration UINT StGetFarmSetting(ADMIN *a, RPC_FARM *t) { SERVER *s; FreeRpcFarm(t); Zero(t, sizeof(RPC_FARM)); s = a->Server; t->ServerType = s->ServerType; t->ControllerOnly = s->ControllerOnly; t->Weight = s->Weight; if (t->ServerType == SERVER_TYPE_FARM_MEMBER) { t->NumPort = s->NumPublicPort; t->Ports = ZeroMalloc(sizeof(UINT) * t->NumPort); Copy(t->Ports, s->PublicPorts, sizeof(UINT) * t->NumPort); t->PublicIp = s->PublicIp; StrCpy(t->ControllerName, sizeof(t->ControllerName), s->ControllerName); t->ControllerPort = s->ControllerPort; } else { t->NumPort = 0; t->Ports = ZeroMalloc(0); } return ERR_NO_ERROR; } // Set clustering configuration UINT StSetFarmSetting(ADMIN *a, RPC_FARM *t) { bool cluster_allowed = false; SERVER_ADMIN_ONLY; NO_SUPPORT_FOR_BRIDGE; cluster_allowed = GetServerCapsInt(a->Server, "b_support_cluster"); if (t->ServerType != SERVER_TYPE_STANDALONE && cluster_allowed == false) { // When clustering function is disabled, deny turning into clustering mode return ERR_NOT_SUPPORTED; } if (IsZero(t->MemberPassword, sizeof(t->MemberPassword))) { if (IsEmptyStr(t->MemberPasswordPlaintext) == false) { // For JSON-RPC HashAdminPassword(t->MemberPassword, t->MemberPasswordPlaintext); } } ALog(a, NULL, "LA_SET_FARM_SETTING"); IncrementServerConfigRevision(a->Server); SiSetServerType(a->Server, t->ServerType, t->PublicIp, t->NumPort, t->Ports, t->ControllerName, t->ControllerPort, t->MemberPassword, t->Weight, t->ControllerOnly); return ERR_NO_ERROR; } // Set server password UINT StSetServerPassword(ADMIN *a, RPC_SET_PASSWORD *t) { SERVER_ADMIN_ONLY; if (IsZero(t->HashedPassword, sizeof(t->HashedPassword))) { // For JSON-RPC HashAdminPassword(t->HashedPassword, t->PlainTextPassword); } Copy(a->Server->HashedPassword, t->HashedPassword, SHA1_SIZE); ALog(a, NULL, "LA_SET_SERVER_PASSWORD"); IncrementServerConfigRevision(a->Server); return ERR_NO_ERROR; } // Enable / Disable listener UINT StEnableListener(ADMIN *a, RPC_LISTENER *t) { UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; LockList(a->Server->ServerListenerList); { if (t->Enable) { if (SiEnableListener(a->Server, t->Port) == false) { ret = ERR_LISTENER_NOT_FOUND; } else { ALog(a, NULL, "LA_ENABLE_LISTENER", t->Port); } } else { if (SiDisableListener(a->Server, t->Port) == false) { ret = ERR_LISTENER_NOT_FOUND; } else { ALog(a, NULL, "LA_DISABLE_LISTENER", t->Port); } } } UnlockList(a->Server->ServerListenerList); IncrementServerConfigRevision(a->Server); SleepThread(250); return ret; } // Delete a listener UINT StDeleteListener(ADMIN *a, RPC_LISTENER *t) { UINT ret = ERR_NO_ERROR; SERVER_ADMIN_ONLY; LockList(a->Server->ServerListenerList); { if (SiDeleteListener(a->Server, t->Port) == false) { ret = ERR_LISTENER_NOT_FOUND; } else { ALog(a, NULL, "LA_DELETE_LISTENER", t->Port); IncrementServerConfigRevision(a->Server); } } UnlockList(a->Server->ServerListenerList); return ret; } // Enumerating listeners UINT StEnumListener(ADMIN *a, RPC_LISTENER_LIST *t) { CEDAR *c = a->Server->Cedar; UINT i; FreeRpcListenerList(t); Zero(t, sizeof(RPC_LISTENER_LIST)); LockList(a->Server->ServerListenerList); { t->NumPort = LIST_NUM(a->Server->ServerListenerList); t->Ports = ZeroMalloc(sizeof(UINT) * t->NumPort); t->Enables = ZeroMalloc(sizeof(bool) * t->NumPort); t->Errors = ZeroMalloc(sizeof(bool) * t->NumPort); for (i = 0;i < t->NumPort;i++) { SERVER_LISTENER *o = LIST_DATA(a->Server->ServerListenerList, i); t->Ports[i] = o->Port; t->Enables[i] = o->Enabled; if (t->Enables[i]) { if (o->Listener->Status == LISTENER_STATUS_TRYING) { t->Errors[i] = true; } } } } UnlockList(a->Server->ServerListenerList); return ERR_NO_ERROR; } // Create a listener UINT StCreateListener(ADMIN *a, RPC_LISTENER *t) { UINT ret = ERR_NO_ERROR; CEDAR *c = a->Server->Cedar; if (t->Port == 0 || t->Port > 65535) { return ERR_INVALID_PARAMETER; } SERVER_ADMIN_ONLY; LockList(a->Server->ServerListenerList); { if (SiAddListener(a->Server, t->Port, t->Enable) == false) { ret = ERR_LISTENER_ALREADY_EXISTS; } else { ALog(a, NULL, "LA_CREATE_LISTENER", t->Port); IncrementServerConfigRevision(a->Server); } } UnlockList(a->Server->ServerListenerList); SleepThread(250); return ret; } // Set UDP ports the server should listen on UINT StSetPortsUDP(ADMIN *a, RPC_PORTS *t) { UINT i; LIST *ports, *server_ports; SERVER_ADMIN_ONLY; ports = NewIntList(true); for (i = 0; i < t->Num; ++i) { const UINT port = t->Ports[i]; if (port < 1 || port > 65535) { ReleaseIntList(ports); return ERR_INVALID_PARAMETER; } AddIntDistinct(ports, port); } server_ports = a->Server->PortsUDP; LockList(server_ports); { char tmp[MAX_SIZE]; wchar_t str[MAX_SIZE]; for (i = 0; i < LIST_NUM(server_ports); ++i) { Free(LIST_DATA(server_ports, i)); } DeleteAll(server_ports); for (i = 0; i < LIST_NUM(ports); ++i) { const UINT port = *(UINT *)LIST_DATA(ports, i); AddInt(server_ports, port); } ProtoSetUdpPorts(a->Server->Proto, server_ports); IntListToStr(tmp, sizeof(tmp), server_ports, ", "); StrToUni(str, sizeof(str), tmp); ALog(a, NULL, "LA_SET_PORTS_UDP", str); } UnlockList(server_ports); ReleaseIntList(ports); IncrementServerConfigRevision(a->Server); return ERR_NO_ERROR; } // List UDP ports the server is listening on UINT StGetPortsUDP(ADMIN *a, RPC_PORTS *t) { LIST *ports = a->Server->PortsUDP; FreeRpcPorts(t); LockList(ports); { t->Num = LIST_NUM(ports); t->Ports = t->Num > 0 ? Malloc(sizeof(UINT) * t->Num) : NULL; if (t->Ports != NULL) { UINT i; for (i = 0; i < t->Num; ++i) { const UINT port = *(UINT *)LIST_DATA(ports, i); t->Ports[i] = port; } } } UnlockList(ports); return ERR_NO_ERROR; } // Get server status UINT StGetServerStatus(ADMIN *a, RPC_SERVER_STATUS *t) { CEDAR *c; UINT i; c = a->Server->Cedar; Zero(t, sizeof(RPC_SERVER_STATUS)); Lock(c->TrafficLock); { Copy(&t->Traffic, c->Traffic, sizeof(TRAFFIC)); } Unlock(c->TrafficLock); GetMemInfo(&t->MemInfo); t->ServerType = a->Server->ServerType; t->NumTcpConnections = t->NumTcpConnectionsLocal = t->NumTcpConnectionsRemote = 0; t->NumSessionsTotal = t->NumSessionsLocal = t->NumSessionsRemote = 0; t->NumTcpConnectionsLocal = Count(c->CurrentTcpConnections); if (a->Server->ServerType == SERVER_TYPE_FARM_CONTROLLER) { LockList(a->Server->FarmMemberList); { for (i = 0;i < LIST_NUM(a->Server->FarmMemberList);i++) { FARM_MEMBER *f = LIST_DATA(a->Server->FarmMemberList, i); if (f->Me == false) { t->NumTcpConnectionsRemote += f->NumTcpConnections; t->NumSessionsRemote += f->NumSessions; AddTraffic(&t->Traffic, &f->Traffic); } } } UnlockList(a->Server->FarmMemberList); } t->NumMacTables = t->NumIpTables = t->NumUsers = t->NumGroups = 0; // The number of hubs LockList(c->HubList); { t->NumHubTotal = LIST_NUM(c->HubList); t->NumHubStandalone = t->NumHubDynamic = t->NumHubStatic = 0; for (i = 0;i < LIST_NUM(c->HubList);i++) { HUB *h = LIST_DATA(c->HubList, i); Lock(h->lock); { switch (h->Type) { case HUB_TYPE_STANDALONE: t->NumHubStandalone++; break; case HUB_TYPE_FARM_STATIC: t->NumHubStatic++; break; case HUB_TYPE_FARM_DYNAMIC: t->NumHubDynamic++; break; } } t->NumMacTables += HASH_LIST_NUM(h->MacHashTable); t->NumIpTables += LIST_NUM(h->IpTable); if (h->HubDb != NULL) { t->NumUsers += LIST_NUM(h->HubDb->UserList); t->NumGroups += LIST_NUM(h->HubDb->GroupList); } Unlock(h->lock); } } UnlockList(c->HubList); // The number of sessions t->NumSessionsLocal = Count(c->CurrentSessions); t->NumSessionsTotal = t->NumSessionsLocal + t->NumSessionsRemote; t->NumTcpConnections = t->NumTcpConnectionsLocal + t->NumTcpConnectionsRemote; t->AssignedBridgeLicenses = Count(c->AssignedBridgeLicense); t->AssignedClientLicenses = Count(c->AssignedClientLicense); t->AssignedBridgeLicensesTotal = a->Server->CurrentAssignedBridgeLicense; t->AssignedClientLicensesTotal = a->Server->CurrentAssignedClientLicense; t->CurrentTick = Tick64(); t->CurrentTime = SystemTime64(); t->StartTime = a->Server->StartTime; return ERR_NO_ERROR; } // Get server information UINT StGetServerInfo(ADMIN *a, RPC_SERVER_INFO *t) { CEDAR *c; OS_INFO *info; SYSTEMTIME st; // Validate arguments if (a == NULL || t == NULL) { return ERR_INTERNAL_ERROR; } FreeRpcServerInfo(t); Zero(t, sizeof(RPC_SERVER_INFO)); c = a->Server->Cedar; GetServerProductName(a->Server, t->ServerProductName, sizeof(t->ServerProductName)); StrCpy(t->ServerVersionString, sizeof(t->ServerVersionString), c->VerString); StrCpy(t->ServerBuildInfoString, sizeof(t->ServerBuildInfoString), c->BuildInfo); t->ServerVerInt = c->Version; t->ServerBuildInt = c->Build; GetMachineName(t->ServerHostName, sizeof(t->ServerHostName)); t->ServerType = c->Server->ServerType; Zero(&st, sizeof(st)); st.wYear = BUILD_DATE_Y; st.wMonth = BUILD_DATE_M; st.wDay = BUILD_DATE_D; st.wHour = BUILD_DATE_HO; st.wMinute = BUILD_DATE_MI; st.wSecond = BUILD_DATE_SE; t->ServerBuildDate = SystemToUINT64(&st); StrCpy(t->ServerFamilyName, sizeof(t->ServerFamilyName), UPDATE_FAMILY_NAME); info = GetOsInfo(); if (info != NULL) { CopyOsInfo(&t->OsInfo, info); } return ERR_NO_ERROR; } // Copy OS_INFO void CopyOsInfo(OS_INFO *dst, OS_INFO *info) { // Validate arguments if (info == NULL || dst == NULL) { return; } dst->OsType = info->OsType; dst->OsServicePack = info->OsServicePack; dst->OsSystemName = CopyStr(info->OsSystemName); dst->OsProductName = CopyStr(info->OsProductName); dst->OsVendorName = CopyStr(info->OsVendorName); dst->OsVersion = CopyStr(info->OsVersion); dst->KernelName = CopyStr(info->KernelName); dst->KernelVersion = CopyStr(info->KernelVersion); } // OPENVPN_SSTP_CONFIG void InOpenVpnSstpConfig(OPENVPN_SSTP_CONFIG *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(OPENVPN_SSTP_CONFIG)); t->EnableOpenVPN = PackGetBool(p, "EnableOpenVPN"); t->EnableSSTP = PackGetBool(p, "EnableSSTP"); t->OpenVPNObfuscation= PackGetBool(p, "OpenVPNObfuscation"); PackGetStr(p, "OpenVPNObfuscationMask", t->OpenVPNObfuscationMask, sizeof(t->OpenVPNObfuscationMask)); } void OutOpenVpnSstpConfig(PACK *p, OPENVPN_SSTP_CONFIG *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddBool(p, "EnableOpenVPN", t->EnableOpenVPN); PackAddBool(p, "EnableSSTP", t->EnableSSTP); PackAddBool(p, "OpenVPNObfuscation", t->OpenVPNObfuscation); PackAddStr(p, "OpenVPNObfuscationMask", t->OpenVPNObfuscationMask); } // DDNS_CLIENT_STATUS void InDDnsClientStatus(DDNS_CLIENT_STATUS *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(DDNS_CLIENT_STATUS)); t->Err_IPv4 = PackGetInt(p, "Err_IPv4"); t->Err_IPv6 = PackGetInt(p, "Err_IPv6"); PackGetStr(p, "CurrentHostName", t->CurrentHostName, sizeof(t->CurrentHostName)); PackGetStr(p, "CurrentFqdn", t->CurrentFqdn, sizeof(t->CurrentFqdn)); PackGetStr(p, "DnsSuffix", t->DnsSuffix, sizeof(t->DnsSuffix)); PackGetStr(p, "CurrentIPv4", t->CurrentIPv4, sizeof(t->CurrentIPv4)); PackGetStr(p, "CurrentIPv6", t->CurrentIPv6, sizeof(t->CurrentIPv6)); PackGetUniStr(p, "ErrStr_IPv4", t->ErrStr_IPv4, sizeof(t->ErrStr_IPv4)); PackGetUniStr(p, "ErrStr_IPv6", t->ErrStr_IPv6, sizeof(t->ErrStr_IPv6)); } void OutDDnsClientStatus(PACK *p, DDNS_CLIENT_STATUS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "Err_IPv4", t->Err_IPv4); PackAddInt(p, "Err_IPv6", t->Err_IPv6); PackAddStr(p, "CurrentHostName", t->CurrentHostName); PackAddStr(p, "CurrentFqdn", t->CurrentFqdn); PackAddStr(p, "DnsSuffix", t->DnsSuffix); PackAddStr(p, "CurrentIPv4", t->CurrentIPv4); PackAddStr(p, "CurrentIPv6", t->CurrentIPv6); PackAddUniStr(p, "ErrStr_IPv4", t->ErrStr_IPv4); PackAddUniStr(p, "ErrStr_IPv6", t->ErrStr_IPv6); } // INTERNET_SETTING void InRpcInternetSetting(INTERNET_SETTING *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } t->ProxyType = PackGetInt(p, "ProxyType"); PackGetStr(p, "ProxyHostName", t->ProxyHostName, sizeof(t->ProxyHostName)); t->ProxyPort = PackGetInt(p, "ProxyPort"); PackGetStr(p, "ProxyUsername", t->ProxyUsername, sizeof(t->ProxyUsername)); PackGetStr(p, "ProxyPassword", t->ProxyPassword, sizeof(t->ProxyPassword)); PackGetStr(p, "CustomHttpHeader", t->CustomHttpHeader, sizeof(t->CustomHttpHeader)); } void OutRpcInternetSetting(PACK *p, INTERNET_SETTING *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "ProxyType", t->ProxyType); PackAddStr(p, "ProxyHostName", t->ProxyHostName); PackAddInt(p, "ProxyPort", t->ProxyPort); PackAddStr(p, "ProxyUsername", t->ProxyUsername); PackAddStr(p, "ProxyPassword", t->ProxyPassword); PackAddStr(p, "CustomHttpHeader", t->CustomHttpHeader); } // RPC_AZURE_STATUS void InRpcAzureStatus(RPC_AZURE_STATUS *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_AZURE_STATUS)); t->IsConnected = PackGetBool(p, "IsConnected"); t->IsEnabled = PackGetBool(p, "IsEnabled"); } void OutRpcAzureStatus(PACK *p, RPC_AZURE_STATUS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddBool(p, "IsConnected", t->IsConnected); PackAddBool(p, "IsEnabled", t->IsEnabled); } // RPC_SPECIAL_LISTENER void InRpcSpecialListener(RPC_SPECIAL_LISTENER *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_SPECIAL_LISTENER)); t->VpnOverIcmpListener = PackGetBool(p, "VpnOverIcmpListener"); t->VpnOverDnsListener = PackGetBool(p, "VpnOverDnsListener"); } void OutRpcSpecialListener(PACK *p, RPC_SPECIAL_LISTENER *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddBool(p, "VpnOverIcmpListener", t->VpnOverIcmpListener); PackAddBool(p, "VpnOverDnsListener", t->VpnOverDnsListener); } // ETHERIP_ID void InEtherIpId(ETHERIP_ID *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(ETHERIP_ID)); PackGetStr(p, "Id", t->Id, sizeof(t->Id)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); PackGetStr(p, "UserName", t->UserName, sizeof(t->UserName)); PackGetStr(p, "Password", t->Password, sizeof(t->Password)); } void OutEtherIpId(PACK *p, ETHERIP_ID *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "Id", t->Id); PackAddStr(p, "HubName", t->HubName); PackAddStr(p, "UserName", t->UserName); PackAddStr(p, "Password", t->Password); } // RPC_ENUM_ETHERIP_ID void InRpcEnumEtherIpId(RPC_ENUM_ETHERIP_ID *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_ETHERIP_ID)); t->NumItem = PackGetInt(p, "NumItem"); t->IdList = ZeroMalloc(sizeof(ETHERIP_ID) * t->NumItem); for (i = 0;i < t->NumItem;i++) { ETHERIP_ID *e = &t->IdList[i]; PackGetStrEx(p, "Id", e->Id, sizeof(e->Id), i); PackGetStrEx(p, "HubName", e->HubName, sizeof(e->HubName), i); PackGetStrEx(p, "UserName", e->UserName, sizeof(e->UserName), i); PackGetStrEx(p, "Password", e->Password, sizeof(e->Password), i); } } void OutRpcEnumEtherIpId(PACK *p, RPC_ENUM_ETHERIP_ID *t) { UINT i; // Validate arguments if (p == NULL || t == NULL) { return; } PackAddInt(p, "NumItem", t->NumItem); PackSetCurrentJsonGroupName(p, "Settings"); for (i = 0;i < t->NumItem;i++) { ETHERIP_ID *e = &t->IdList[i]; PackAddStrEx(p, "Id", e->Id, i, t->NumItem); PackAddStrEx(p, "HubName", e->HubName, i, t->NumItem); PackAddStrEx(p, "UserName", e->UserName, i, t->NumItem); PackAddStrEx(p, "Password", e->Password, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumEtherIpId(RPC_ENUM_ETHERIP_ID *t) { // Validate arguments if (t == NULL) { return; } Free(t->IdList); } // IPSEC_SERVICES void InIPsecServices(IPSEC_SERVICES *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(IPSEC_SERVICES)); t->L2TP_Raw = PackGetBool(p, "L2TP_Raw"); t->L2TP_IPsec = PackGetBool(p, "L2TP_IPsec"); t->EtherIP_IPsec = PackGetBool(p, "EtherIP_IPsec"); PackGetStr(p, "IPsec_Secret", t->IPsec_Secret, sizeof(t->IPsec_Secret)); PackGetStr(p, "L2TP_DefaultHub", t->L2TP_DefaultHub, sizeof(t->L2TP_DefaultHub)); } void OutIPsecServices(PACK *p, IPSEC_SERVICES *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddBool(p, "L2TP_Raw", t->L2TP_Raw); PackAddBool(p, "L2TP_IPsec", t->L2TP_IPsec); PackAddBool(p, "EtherIP_IPsec", t->EtherIP_IPsec); PackAddStr(p, "IPsec_Secret", t->IPsec_Secret); PackAddStr(p, "L2TP_DefaultHub", t->L2TP_DefaultHub); } // RPC_WINVER void InRpcWinVer(RPC_WINVER *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_WINVER)); t->IsWindows = PackGetBool(p, "V_IsWindows"); t->IsNT = PackGetBool(p, "V_IsNT"); t->IsServer = PackGetBool(p, "V_IsServer"); t->IsBeta = PackGetBool(p, "V_IsBeta"); t->VerMajor = PackGetInt(p, "V_VerMajor"); t->VerMinor = PackGetInt(p, "V_VerMinor"); t->Build = PackGetInt(p, "V_Build"); t->ServicePack = PackGetInt(p, "V_ServicePack"); PackGetStr(p, "V_Title", t->Title, sizeof(t->Title)); } void OutRpcWinVer(PACK *p, RPC_WINVER *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddBool(p, "V_IsWindows", t->IsWindows); PackAddBool(p, "V_IsNT", t->IsNT); PackAddBool(p, "V_IsServer", t->IsServer); PackAddBool(p, "V_IsBeta", t->IsBeta); PackAddInt(p, "V_VerMajor", t->VerMajor); PackAddInt(p, "V_VerMinor", t->VerMinor); PackAddInt(p, "V_Build", t->Build); PackAddInt(p, "V_ServicePack", t->ServicePack); PackAddStr(p, "V_Title", t->Title); } // RPC_MSG void InRpcMsg(RPC_MSG *t, PACK *p) { UINT size; char *utf8; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_MSG)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); size = PackGetDataSize(p, "Msg"); utf8 = ZeroMalloc(size + 8); PackGetData(p, "Msg", utf8); t->Msg = CopyUtfToUni(utf8); Free(utf8); } void OutRpcMsg(PACK *p, RPC_MSG *t) { UINT size; char *utf8; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); utf8 = CopyUniToUtf(t->Msg); size = StrLen(utf8); PackAddData(p, "Msg", utf8, size); Free(utf8); } void FreeRpcMsg(RPC_MSG *t) { // Validate arguments if (t == NULL) { return; } Free(t->Msg); } // RPC_ENUM_ETH_VLAN void InRpcEnumEthVLan(RPC_ENUM_ETH_VLAN *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_ETH_VLAN)); t->NumItem = PackGetIndexCount(p, "DeviceName"); t->Items = ZeroMalloc(sizeof(RPC_ENUM_ETH_VLAN_ITEM) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_ETH_VLAN_ITEM *e = &t->Items[i]; PackGetStrEx(p, "DeviceName", e->DeviceName, sizeof(e->DeviceName), i); PackGetStrEx(p, "Guid", e->Guid, sizeof(e->Guid), i); PackGetStrEx(p, "DeviceInstanceId", e->DeviceInstanceId, sizeof(e->DeviceInstanceId), i); PackGetStrEx(p, "DriverName", e->DriverName, sizeof(e->DriverName), i); PackGetStrEx(p, "DriverType", e->DriverType, sizeof(e->DriverType), i); e->Support = PackGetBoolEx(p, "Support", i); e->Enabled = PackGetBoolEx(p, "Enabled", i); } } void OutRpcEnumEthVLan(PACK *p, RPC_ENUM_ETH_VLAN *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackSetCurrentJsonGroupName(p, "Devices"); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_ETH_VLAN_ITEM *e = &t->Items[i]; PackAddStrEx(p, "DeviceName", e->DeviceName, i, t->NumItem); PackAddStrEx(p, "Guid", e->Guid, i, t->NumItem); PackAddStrEx(p, "DeviceInstanceId", e->DeviceInstanceId, i, t->NumItem); PackAddStrEx(p, "DriverName", e->DriverName, i, t->NumItem); PackAddStrEx(p, "DriverType", e->DriverType, i, t->NumItem); PackAddBoolEx(p, "Support", e->Support, i, t->NumItem); PackAddBoolEx(p, "Enabled", e->Enabled, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumEthVLan(RPC_ENUM_ETH_VLAN *t) { // Validate arguments if (t == NULL) { return; } Free(t->Items); } // RPC_ENUM_LOG_FILE void InRpcEnumLogFile(RPC_ENUM_LOG_FILE *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_LOG_FILE)); t->NumItem = PackGetInt(p, "NumItem"); t->Items = ZeroMalloc(sizeof(RPC_ENUM_LOG_FILE_ITEM) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_LOG_FILE_ITEM *e = &t->Items[i]; PackGetStrEx(p, "FilePath", e->FilePath, sizeof(e->FilePath), i); PackGetStrEx(p, "ServerName", e->ServerName, sizeof(e->ServerName), i); e->FileSize = PackGetIntEx(p, "FileSize", i); e->UpdatedTime = PackGetInt64Ex(p, "UpdatedTime", i); } } void OutRpcEnumLogFile(PACK *p, RPC_ENUM_LOG_FILE *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "NumItem", t->NumItem); PackSetCurrentJsonGroupName(p, "LogFiles"); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_LOG_FILE_ITEM *e = &t->Items[i]; PackAddStrEx(p, "FilePath", e->FilePath, i, t->NumItem); PackAddStrEx(p, "ServerName", e->ServerName, i, t->NumItem); PackAddIntEx(p, "FileSize", e->FileSize, i, t->NumItem); PackAddTime64Ex(p, "UpdatedTime", e->UpdatedTime, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumLogFile(RPC_ENUM_LOG_FILE *t) { // Validate arguments if (t == NULL) { return; } Free(t->Items); } void AdjoinRpcEnumLogFile(RPC_ENUM_LOG_FILE *t, RPC_ENUM_LOG_FILE *src) { LIST *o; UINT i; // Validate arguments if (t == NULL || src == NULL) { return; } o = NewListFast(CmpLogFile); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_LOG_FILE_ITEM *e = &t->Items[i]; LOG_FILE *f = ZeroMalloc(sizeof(LOG_FILE)); f->FileSize = e->FileSize; StrCpy(f->Path, sizeof(f->Path), e->FilePath); StrCpy(f->ServerName, sizeof(f->ServerName), e->ServerName); f->UpdatedTime = e->UpdatedTime; Add(o, f); } for (i = 0;i < src->NumItem;i++) { RPC_ENUM_LOG_FILE_ITEM *e = &src->Items[i]; LOG_FILE *f = ZeroMalloc(sizeof(LOG_FILE)); f->FileSize = e->FileSize; StrCpy(f->Path, sizeof(f->Path), e->FilePath); StrCpy(f->ServerName, sizeof(f->ServerName), e->ServerName); f->UpdatedTime = e->UpdatedTime; Add(o, f); } FreeRpcEnumLogFile(t); Sort(o); Zero(t, sizeof(RPC_ENUM_LOG_FILE)); t->NumItem = LIST_NUM(o); t->Items = ZeroMalloc(sizeof(RPC_ENUM_LOG_FILE_ITEM) * t->NumItem); for (i = 0;i < t->NumItem;i++) { LOG_FILE *f = LIST_DATA(o, i); RPC_ENUM_LOG_FILE_ITEM *e = &t->Items[i]; StrCpy(e->FilePath, sizeof(e->FilePath), f->Path); StrCpy(e->ServerName, sizeof(e->ServerName), f->ServerName); e->FileSize = f->FileSize; e->UpdatedTime = f->UpdatedTime; } FreeEnumLogFile(o); } // RPC_READ_LOG_FILE void InRpcReadLogFile(RPC_READ_LOG_FILE *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_READ_LOG_FILE)); PackGetStr(p, "FilePath", t->FilePath, sizeof(t->FilePath)); PackGetStr(p, "ServerName", t->ServerName, sizeof(t->ServerName)); t->Offset = PackGetInt(p, "Offset"); t->Buffer = PackGetBuf(p, "Buffer"); } void OutRpcReadLogFile(PACK *p, RPC_READ_LOG_FILE *t) { // Validate arguments if (p == NULL || t == NULL) { return; } PackAddStr(p, "FilePath", t->FilePath); PackAddStr(p, "ServerName", t->ServerName); PackAddInt(p, "Offset", t->Offset); if (t->Buffer != NULL) { PackAddBuf(p, "Buffer", t->Buffer); } } void FreeRpcReadLogFile(RPC_READ_LOG_FILE *t) { // Validate arguments if (t == NULL) { return; } if (t->Buffer != NULL) { FreeBuf(t->Buffer); } } // RPC_AC_LIST void InRpcAcList(RPC_AC_LIST *t, PACK *p) { UINT i; LIST *o; UINT num; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_AC_LIST)); o = NewAcList(); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); num = PackGetIndexCount(p, "IpAddress"); for (i = 0;i < num;i++) { AC *ac = ZeroMalloc(sizeof(AC)); ac->Id = PackGetIntEx(p, "Id", i); ac->Deny = PackGetBoolEx(p, "Deny", i); PackGetIpEx(p, "IpAddress", &ac->IpAddress, i); ac->Masked = PackGetBoolEx(p, "Masked", i); if (ac->Masked) { PackGetIpEx(p, "SubnetMask", &ac->SubnetMask, i); } ac->Priority = PackGetIntEx(p, "Priority", i); AddAc(o, ac); Free(ac); } t->o = o; } void OutRpcAcList(PACK *p, RPC_AC_LIST *t) { UINT i, num; LIST *o; // Validate arguments if (t == NULL || p == NULL) { return; } o = t->o; num = LIST_NUM(o); PackAddInt(p, "NumItem", num); PackAddStr(p, "HubName", t->HubName); PackSetCurrentJsonGroupName(p, "ACList"); for (i = 0;i < num;i++) { AC *ac = LIST_DATA(o, i); PackAddIntEx(p, "Id", ac->Id, i, num); PackAddBoolEx(p, "Deny", ac->Deny, i, num); PackAddIpEx(p, "IpAddress", &ac->IpAddress, i, num); PackAddBoolEx(p, "Masked", ac->Masked, i, num); PackAddIpEx(p, "SubnetMask", &ac->SubnetMask, i, num); PackAddIntEx(p, "Priority", ac->Priority, i, num); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcAcList(RPC_AC_LIST *t) { // Validate arguments if (t == NULL) { return; } FreeAcList(t->o); } // RPC_INT void InRpcInt(RPC_INT *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_INT)); t->IntValue = PackGetInt(p, "IntValue"); } void OutRpcInt(PACK *p, RPC_INT *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "IntValue", t->IntValue); } // RPC_ENUM_CRL void InRpcEnumCrl(RPC_ENUM_CRL *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_CRL)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->NumItem = PackGetInt(p, "NumItem"); t->Items = ZeroMalloc(sizeof(RPC_ENUM_CRL_ITEM) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_CRL_ITEM *e = &t->Items[i]; e->Key = PackGetIntEx(p, "Key", i); PackGetUniStrEx(p, "CrlInfo", e->CrlInfo, sizeof(e->CrlInfo), i); } } void OutRpcEnumCrl(PACK *p, RPC_ENUM_CRL *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddInt(p, "NumItem", t->NumItem); PackSetCurrentJsonGroupName(p, "CRLList"); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_CRL_ITEM *e = &t->Items[i]; PackAddIntEx(p, "Key", e->Key, i, t->NumItem); PackAddUniStrEx(p, "CrlInfo", e->CrlInfo, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumCrl(RPC_ENUM_CRL *t) { // Validate arguments if (t == NULL) { return; } Free(t->Items); } // RPC_CRL void InRpcCrl(RPC_CRL *t, PACK *p) { BUF *b; NAME *n; wchar_t tmp[MAX_SIZE]; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_CRL)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->Key = PackGetInt(p, "Key"); b = PackGetBuf(p, "Serial"); t->Crl = ZeroMalloc(sizeof(CRL)); if (b != NULL) { t->Crl->Serial = NewXSerial(b->Buf, b->Size); FreeBuf(b); } t->Crl->Name = ZeroMalloc(sizeof(NAME)); n = t->Crl->Name; if (PackGetUniStr(p, "CommonName", tmp, sizeof(tmp))) { n->CommonName = CopyUniStr(tmp); } if (PackGetUniStr(p, "Organization", tmp, sizeof(tmp))) { n->Organization = CopyUniStr(tmp); } if (PackGetUniStr(p, "Unit", tmp, sizeof(tmp))) { n->Unit = CopyUniStr(tmp); } if (PackGetUniStr(p, "Country", tmp, sizeof(tmp))) { n->Country = CopyUniStr(tmp); } if (PackGetUniStr(p, "State", tmp, sizeof(tmp))) { n->State = CopyUniStr(tmp); } if (PackGetUniStr(p, "Local", tmp, sizeof(tmp))) { n->Local = CopyUniStr(tmp); } if (PackGetDataSize(p, "DigestMD5") == MD5_SIZE) { PackGetData(p, "DigestMD5", t->Crl->DigestMD5); } if (PackGetDataSize(p, "DigestSHA1") == SHA1_SIZE) { PackGetData(p, "DigestSHA1", t->Crl->DigestSHA1); } } void OutRpcCrl(PACK *p, RPC_CRL *t) { NAME *n; // Validate arguments if (p == NULL || t == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddInt(p, "Key", t->Key); if (t->Crl == NULL) { return; } if (t->Crl->Serial != NULL) { PackAddData(p, "Serial", t->Crl->Serial->data, t->Crl->Serial->size); } n = t->Crl->Name; if (n->CommonName != NULL) { PackAddUniStr(p, "CommonName", n->CommonName); } if (n->Organization != NULL) { PackAddUniStr(p, "Organization", n->Organization); } if (n->Unit != NULL) { PackAddUniStr(p, "Unit", n->Unit); } if (n->Country != NULL) { PackAddUniStr(p, "Country", n->Country); } if (n->State != NULL) { PackAddUniStr(p, "State", n->State); } if (n->Local != NULL) { PackAddUniStr(p, "Local", n->Local); } if (IsZero(t->Crl->DigestMD5, MD5_SIZE) == false) { PackAddData(p, "DigestMD5", t->Crl->DigestMD5, MD5_SIZE); } if (IsZero(t->Crl->DigestSHA1, SHA1_SIZE) == false) { PackAddData(p, "DigestSHA1", t->Crl->DigestSHA1, SHA1_SIZE); } } void FreeRpcCrl(RPC_CRL *t) { // Validate arguments if (t == NULL) { return; } FreeCrl(t->Crl); } // RPC_ENUM_L3TABLE void InRpcEnumL3Table(RPC_ENUM_L3TABLE *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_L3TABLE)); t->NumItem = PackGetInt(p, "NumItem"); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); t->Items = ZeroMalloc(sizeof(RPC_L3TABLE) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_L3TABLE *e = &t->Items[i]; e->NetworkAddress = PackGetIp32Ex(p, "NetworkAddress", i); e->SubnetMask = PackGetIp32Ex(p, "SubnetMask", i); e->GatewayAddress = PackGetIp32Ex(p, "GatewayAddress", i); e->Metric = PackGetIntEx(p, "Metric", i); } } void OutRpcEnumL3Table(PACK *p, RPC_ENUM_L3TABLE *t) { UINT i; // Validate arguments if (p == NULL || t == NULL) { return; } PackAddInt(p, "NumItem", t->NumItem); PackAddStr(p, "Name", t->Name); PackSetCurrentJsonGroupName(p, "L3Table"); for (i = 0;i < t->NumItem;i++) { RPC_L3TABLE *e = &t->Items[i]; PackAddIp32Ex(p, "NetworkAddress", e->NetworkAddress, i, t->NumItem); PackAddIp32Ex(p, "SubnetMask", e->SubnetMask, i, t->NumItem); PackAddIp32Ex(p, "GatewayAddress", e->GatewayAddress, i, t->NumItem); PackAddIntEx(p, "Metric", e->Metric, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumL3Table(RPC_ENUM_L3TABLE *t) { Free(t->Items); } // RPC_L3TABLE void InRpcL3Table(RPC_L3TABLE *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_L3TABLE)); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); t->NetworkAddress = PackGetIp32(p, "NetworkAddress"); t->SubnetMask = PackGetIp32(p, "SubnetMask"); t->GatewayAddress = PackGetIp32(p, "GatewayAddress"); t->Metric = PackGetInt(p, "Metric"); } void OutRpcL3Table(PACK *p, RPC_L3TABLE *t) { // Validate arguments if (p == NULL || t == NULL) { return; } PackAddStr(p, "Name", t->Name); PackAddIp32(p, "NetworkAddress", t->NetworkAddress); PackAddIp32(p, "SubnetMask", t->SubnetMask); PackAddIp32(p, "GatewayAddress", t->GatewayAddress); PackAddInt(p, "Metric", t->Metric); } // RPC_ENUM_L3IF void InRpcEnumL3If(RPC_ENUM_L3IF *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_L3IF)); t->NumItem = PackGetInt(p, "NumItem"); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); t->Items = ZeroMalloc(sizeof(RPC_L3IF) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_L3IF *f = &t->Items[i]; PackGetStrEx(p, "HubName", f->HubName, sizeof(f->HubName), i); f->IpAddress = PackGetIp32Ex(p, "IpAddress", i); f->SubnetMask = PackGetIp32Ex(p, "SubnetMask", i); } } void OutRpcEnumL3If(PACK *p, RPC_ENUM_L3IF *t) { UINT i; // Validate arguments if (p == NULL || t == NULL) { return; } PackAddInt(p, "NumItem", t->NumItem); PackAddStr(p, "Name", t->Name); PackSetCurrentJsonGroupName(p, "L3IFList"); for (i = 0;i < t->NumItem;i++) { RPC_L3IF *f = &t->Items[i]; PackAddStrEx(p, "HubName", f->HubName, i, t->NumItem); PackAddIp32Ex(p, "IpAddress", f->IpAddress, i, t->NumItem); PackAddIp32Ex(p, "SubnetMask", f->SubnetMask, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumL3If(RPC_ENUM_L3IF *t) { // Validate arguments if (t == NULL) { return; } Free(t->Items); } // RPC_L3IF void InRpcL3If(RPC_L3IF *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_L3IF)); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->IpAddress = PackGetIp32(p, "IpAddress"); t->SubnetMask = PackGetIp32(p, "SubnetMask"); } void OutRpcL3If(PACK *p, RPC_L3IF *t) { // Validate arguments if (p == NULL || t == NULL) { return; } PackAddStr(p, "Name", t->Name); PackAddStr(p, "HubName", t->HubName); PackAddIp32(p, "IpAddress", t->IpAddress); PackAddIp32(p, "SubnetMask", t->SubnetMask); } // RPC_L3SW void InRpcL3Sw(RPC_L3SW *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_L3SW)); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); } void OutRpcL3Sw(PACK *p, RPC_L3SW *t) { // Validate arguments if (p == NULL || t == NULL) { return; } PackAddStr(p, "Name", t->Name); } // RPC_ENUM_L3SW void InRpcEnumL3Sw(RPC_ENUM_L3SW *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_L3SW)); t->NumItem = PackGetInt(p, "NumItem"); t->Items = ZeroMalloc(sizeof(RPC_ENUM_L3SW_ITEM) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_L3SW_ITEM *s = &t->Items[i]; PackGetStrEx(p, "Name", s->Name, sizeof(s->Name), i); s->NumInterfaces = PackGetIntEx(p, "NumInterfaces", i); s->NumTables = PackGetIntEx(p, "NumTables", i); s->Active = PackGetBoolEx(p, "Active", i); s->Online = PackGetBoolEx(p, "Online", i); } } void OutRpcEnumL3Sw(PACK *p, RPC_ENUM_L3SW *t) { UINT i; // Validate arguments if (p == NULL || t == NULL) { return; } PackAddInt(p, "NumItem", t->NumItem); PackSetCurrentJsonGroupName(p, "L3SWList"); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_L3SW_ITEM *s = &t->Items[i]; PackAddStrEx(p, "Name", s->Name, i, t->NumItem); PackAddIntEx(p, "NumInterfaces", s->NumInterfaces, i, t->NumItem); PackAddIntEx(p, "NumTables", s->NumTables, i, t->NumItem); PackAddBoolEx(p, "Active", s->Active, i, t->NumItem); PackAddBoolEx(p, "Online", s->Online, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumL3Sw(RPC_ENUM_L3SW *t) { // Validate arguments if (t == NULL) { return; } Free(t->Items); } // RPC_ENUM_ETH void InRpcEnumEth(RPC_ENUM_ETH *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_ETH)); t->NumItem = PackGetInt(p, "NumItem"); t->Items = ZeroMalloc(sizeof(RPC_ENUM_ETH_ITEM) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_ETH_ITEM *e = &t->Items[i]; PackGetStrEx(p, "DeviceName", e->DeviceName, sizeof(e->DeviceName), i); PackGetUniStrEx(p, "NetworkConnectionName", e->NetworkConnectionName, sizeof(e->NetworkConnectionName), i); } } void OutRpcEnumEth(PACK *p, RPC_ENUM_ETH *t) { UINT i; // Validate arguments if (p == NULL || t == NULL) { return; } PackAddInt(p, "NumItem", t->NumItem); PackSetCurrentJsonGroupName(p, "EthList"); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_ETH_ITEM *e = &t->Items[i]; PackAddStrEx(p, "DeviceName", e->DeviceName, i, t->NumItem); PackAddUniStrEx(p, "NetworkConnectionName", e->NetworkConnectionName, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumEth(RPC_ENUM_ETH *t) { // Validate arguments if (t == NULL) { return; } Free(t->Items); } // RPC_LOCALBRIDGE void InRpcLocalBridge(RPC_LOCALBRIDGE *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_LOCALBRIDGE)); PackGetStr(p, "DeviceName", t->DeviceName, sizeof(t->DeviceName)); PackGetStr(p, "HubNameLB", t->HubName, sizeof(t->HubName)); t->TapMode = PackGetBool(p, "TapMode"); } void OutRpcLocalBridge(PACK *p, RPC_LOCALBRIDGE *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "DeviceName", t->DeviceName); PackAddStr(p, "HubNameLB", t->HubName); PackAddBool(p, "TapMode", t->TapMode); } // RPC_ENUM_LOCALBRIDGE void InRpcEnumLocalBridge(RPC_ENUM_LOCALBRIDGE *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_LOCALBRIDGE)); t->NumItem = PackGetInt(p, "NumItem"); t->Items = ZeroMalloc(sizeof(RPC_LOCALBRIDGE) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_LOCALBRIDGE *e = &t->Items[i]; PackGetStrEx(p, "DeviceName", e->DeviceName, sizeof(e->DeviceName), i); PackGetStrEx(p, "HubNameLB", e->HubName, sizeof(e->HubName), i); e->Online = PackGetBoolEx(p, "Online", i); e->Active = PackGetBoolEx(p, "Active", i); e->TapMode = PackGetBoolEx(p, "TapMode", i); } } void OutRpcEnumLocalBridge(PACK *p, RPC_ENUM_LOCALBRIDGE *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "NumItem", t->NumItem); PackSetCurrentJsonGroupName(p, "LocalBridgeList"); for (i = 0;i < t->NumItem;i++) { RPC_LOCALBRIDGE *e = &t->Items[i]; PackAddStrEx(p, "DeviceName", e->DeviceName, i, t->NumItem); PackAddStrEx(p, "HubNameLB", e->HubName, i, t->NumItem); PackAddBoolEx(p, "Online", e->Online, i, t->NumItem); PackAddBoolEx(p, "Active", e->Active, i, t->NumItem); PackAddBoolEx(p, "TapMode", e->TapMode, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumLocalBridge(RPC_ENUM_LOCALBRIDGE *t) { // Validate arguments if (t == NULL) { return; } Free(t->Items); } // MEMINFO void InRpcMemInfo(MEMINFO *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(MEMINFO)); t->TotalMemory = PackGetInt64(p, "TotalMemory"); t->UsedMemory = PackGetInt64(p, "UsedMemory"); t->FreeMemory = PackGetInt64(p, "FreeMemory"); t->TotalPhys = PackGetInt64(p, "TotalPhys"); t->UsedPhys = PackGetInt64(p, "UsedPhys"); t->FreePhys = PackGetInt64(p, "FreePhys"); } void OutRpcMemInfo(PACK *p, MEMINFO *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt64(p, "TotalMemory", t->TotalMemory); PackAddInt64(p, "UsedMemory", t->UsedMemory); PackAddInt64(p, "FreeMemory", t->FreeMemory); PackAddInt64(p, "TotalPhys", t->TotalPhys); PackAddInt64(p, "UsedPhys", t->UsedPhys); PackAddInt64(p, "FreePhys", t->FreePhys); } // OS_INFO void InRpcOsInfo(OS_INFO *t, PACK *p) { char tmp[MAX_SIZE]; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(OS_INFO)); t->OsType = PackGetInt(p, "OsType"); t->OsServicePack = PackGetInt(p, "OsServicePack"); if (PackGetStr(p, "OsSystemName", tmp, sizeof(tmp))) { t->OsSystemName = CopyStr(tmp); } if (PackGetStr(p, "OsProductName", tmp, sizeof(tmp))) { t->OsProductName = CopyStr(tmp); } if (PackGetStr(p, "OsVendorName", tmp, sizeof(tmp))) { t->OsVendorName = CopyStr(tmp); } if (PackGetStr(p, "OsVersion", tmp, sizeof(tmp))) { t->OsVersion = CopyStr(tmp); } if (PackGetStr(p, "KernelName", tmp, sizeof(tmp))) { t->KernelName = CopyStr(tmp); } if (PackGetStr(p, "KernelVersion", tmp, sizeof(tmp))) { t->KernelVersion = CopyStr(tmp); } } void OutRpcOsInfo(PACK *p, OS_INFO *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "OsType", t->OsType); PackAddInt(p, "OsServicePack", t->OsServicePack); PackAddStr(p, "OsSystemName", t->OsSystemName); PackAddStr(p, "OsProductName", t->OsProductName); PackAddStr(p, "OsVendorName", t->OsVendorName); PackAddStr(p, "OsVersion", t->OsVersion); PackAddStr(p, "KernelName", t->KernelName); PackAddStr(p, "KernelVersion", t->KernelVersion); } void FreeRpcOsInfo(OS_INFO *t) { // Validate arguments if (t == NULL) { return; } Free(t->OsSystemName); Free(t->OsProductName); Free(t->OsVendorName); Free(t->OsVersion); Free(t->KernelName); Free(t->KernelVersion); } // Read a local log file void SiReadLocalLogFile(SERVER *s, char *filepath, UINT offset, RPC_READ_LOG_FILE *t) { char exe_dir[MAX_PATH], full_path[MAX_PATH]; IO *o; // Validate arguments if (s == NULL || t == NULL || filepath == NULL) { return; } Zero(t, sizeof(RPC_READ_LOG_FILE)); GetLogDir(exe_dir, sizeof(exe_dir)); Format(full_path, sizeof(full_path), "%s/%s", exe_dir, filepath); // Read file o = FileOpenEx(full_path, false, false); if (o != NULL) { UINT filesize = FileSize(o); if (offset < filesize) { UINT readsize = MIN(filesize - offset, FTP_BLOCK_SIZE); void *buf = ZeroMalloc(readsize); FileSeek(o, FILE_BEGIN, offset); FileRead(o, buf, readsize); t->Buffer = NewBuf(); WriteBuf(t->Buffer, buf, readsize); Free(buf); } FileClose(o); } } // Enumerate local log files void SiEnumLocalLogFileList(SERVER *s, char *hubname, RPC_ENUM_LOG_FILE *t) { LIST *o; UINT i; // Validate arguments if (s == NULL || t == NULL) { return; } Zero(t, sizeof(RPC_ENUM_LOG_FILE)); o = EnumLogFile(hubname); t->NumItem = LIST_NUM(o); t->Items = ZeroMalloc(sizeof(RPC_ENUM_LOG_FILE_ITEM) * t->NumItem); for (i = 0;i < LIST_NUM(o);i++) { LOG_FILE *f = LIST_DATA(o, i); RPC_ENUM_LOG_FILE_ITEM *e = &t->Items[i]; StrCpy(e->FilePath, sizeof(e->FilePath), f->Path); StrCpy(e->ServerName, sizeof(e->ServerName), f->ServerName); e->FileSize = f->FileSize; e->UpdatedTime = f->UpdatedTime; } FreeEnumLogFile(o); } // Enumerate local sessions void SiEnumLocalSession(SERVER *s, char *hubname, RPC_ENUM_SESSION *t) { HUB *h; UINT64 now = Tick64(); UINT64 dormant_interval = 0; // Validate arguments if (s == NULL || hubname == NULL || t == NULL) { return; } LockHubList(s->Cedar); h = GetHub(s->Cedar, hubname); UnlockHubList(s->Cedar); if (h == NULL) { t->NumSession = 0; t->Sessions = ZeroMalloc(0); return; } if (h->Option != NULL) { dormant_interval = h->Option->DetectDormantSessionInterval * (UINT64)1000; } LockList(h->SessionList); { UINT i; t->NumSession = LIST_NUM(h->SessionList); t->Sessions = ZeroMalloc(sizeof(RPC_ENUM_SESSION_ITEM) * t->NumSession); for (i = 0;i < t->NumSession;i++) { SESSION *s = LIST_DATA(h->SessionList, i); RPC_ENUM_SESSION_ITEM *e = &t->Sessions[i]; Lock(s->lock); { StrCpy(e->Name, sizeof(e->Name), s->Name); StrCpy(e->Username, sizeof(e->Username), s->Username); e->Ip = IPToUINT(&s->Connection->ClientIp); CopyIP(&e->ClientIP, &s->Connection->ClientIp); StrCpy(e->Hostname, sizeof(e->Hostname), s->Connection->ClientHostname); e->MaxNumTcp = s->MaxConnection; e->CreatedTime = Tick64ToTime64(s->CreatedTime); e->LastCommTime = Tick64ToTime64(s->LastCommTime); e->LinkMode = s->LinkModeServer; e->SecureNATMode = s->SecureNATMode; e->BridgeMode = s->BridgeMode; e->Layer3Mode = s->L3SwitchMode; e->VLanId = s->VLanId; LockList(s->Connection->Tcp->TcpSockList); { e->CurrentNumTcp = s->Connection->Tcp->TcpSockList->num_item; } UnlockList(s->Connection->Tcp->TcpSockList); Lock(s->TrafficLock); { e->PacketSize = GetTrafficPacketSize(s->Traffic); e->PacketNum = GetTrafficPacketNum(s->Traffic); } Unlock(s->TrafficLock); e->Client_BridgeMode = s->IsBridgeMode; e->Client_MonitorMode = s->IsMonitorMode; Copy(e->UniqueId, s->NodeInfo.UniqueId, 16); if (s->NormalClient) { e->IsDormantEnabled = (dormant_interval == 0 ? false : true); if (e->IsDormantEnabled) { if (s->LastCommTimeForDormant == 0) { e->LastCommDormant = (UINT64)0x7FFFFFFF; } else { e->LastCommDormant = now - s->LastCommTimeForDormant; } if (s->LastCommTimeForDormant == 0) { e->IsDormant = true; } else { if ((s->LastCommTimeForDormant + dormant_interval) < now) { e->IsDormant = true; } } } } } Unlock(s->lock); GetMachineName(e->RemoteHostname, sizeof(e->RemoteHostname)); } } UnlockList(h->SessionList); ReleaseHub(h); } // RPC_ENUM_LICENSE_KEY void InRpcEnumLicenseKey(RPC_ENUM_LICENSE_KEY *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_LICENSE_KEY)); t->NumItem = PackGetInt(p, "NumItem"); t->Items = ZeroMalloc(sizeof(RPC_ENUM_LICENSE_KEY_ITEM) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_LICENSE_KEY_ITEM *e = &t->Items[i]; e->Id = PackGetIntEx(p, "Id", i); PackGetStrEx(p, "LicenseKey", e->LicenseKey, sizeof(e->LicenseKey), i); PackGetStrEx(p, "LicenseId", e->LicenseId, sizeof(e->LicenseId), i); PackGetStrEx(p, "LicenseName", e->LicenseName, sizeof(e->LicenseName), i); e->Expires = PackGetInt64Ex(p, "Expires", i); e->Status = PackGetIntEx(p, "Status", i); e->ProductId = PackGetIntEx(p, "ProductId", i); e->SystemId = PackGetInt64Ex(p, "SystemId", i); e->SerialId = PackGetIntEx(p, "SerialId", i); } } void OutRpcEnumLicenseKey(PACK *p, RPC_ENUM_LICENSE_KEY *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "NumItem", t->NumItem); PackSetCurrentJsonGroupName(p, "LicenseKeyList"); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_LICENSE_KEY_ITEM *e = &t->Items[i]; PackAddIntEx(p, "Id", e->Id, i, t->NumItem); PackAddStrEx(p, "LicenseKey", e->LicenseKey, i, t->NumItem); PackAddStrEx(p, "LicenseId", e->LicenseId, i, t->NumItem); PackAddStrEx(p, "LicenseName", e->LicenseName, i, t->NumItem); PackAddTime64Ex(p, "Expires", e->Expires, i, t->NumItem); PackAddIntEx(p, "Status", e->Status, i, t->NumItem); PackAddIntEx(p, "ProductId", e->ProductId, i, t->NumItem); PackAddInt64Ex(p, "SystemId", e->SystemId, i, t->NumItem); PackAddIntEx(p, "SerialId", e->SerialId, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumLicenseKey(RPC_ENUM_LICENSE_KEY *t) { // Validate arguments if (t == NULL) { return; } Free(t->Items); } // RPC_LICENSE_STATUS void InRpcLicenseStatus(RPC_LICENSE_STATUS *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_LICENSE_STATUS)); t->EditionId = PackGetInt(p, "EditionId"); PackGetStr(p, "EditionStr", t->EditionStr, sizeof(t->EditionStr) ); t->SystemId = PackGetInt64(p, "SystemId"); t->SystemExpires = PackGetInt64(p, "SystemExpires"); t->NumClientConnectLicense = PackGetInt(p, "NumClientConnectLicense"); t->NumBridgeConnectLicense = PackGetInt(p, "NumBridgeConnectLicense"); // v3.0 t->NeedSubscription = PackGetBool(p, "NeedSubscription"); t->AllowEnterpriseFunction = PackGetBool(p, "AllowEnterpriseFunction"); t->SubscriptionExpires = PackGetInt64(p, "SubscriptionExpires"); t->IsSubscriptionExpired = PackGetBool(p, "IsSubscriptionExpired"); t->NumUserCreationLicense = PackGetInt(p, "NumUserCreationLicense"); t->ReleaseDate = PackGetInt64(p, "ReleaseDate"); } void OutRpcLicenseStatus(PACK *p, RPC_LICENSE_STATUS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "EditionId", t->EditionId); PackAddStr(p, "EditionStr", t->EditionStr); PackAddInt64(p, "SystemId", t->SystemId); PackAddTime64(p, "SystemExpires", t->SystemExpires); PackAddInt(p, "NumClientConnectLicense", t->NumClientConnectLicense); PackAddInt(p, "NumBridgeConnectLicense", t->NumBridgeConnectLicense); // v3.0 PackAddBool(p, "NeedSubscription", t->NeedSubscription); PackAddBool(p, "AllowEnterpriseFunction", t->AllowEnterpriseFunction); PackAddTime64(p, "SubscriptionExpires", t->SubscriptionExpires); PackAddBool(p, "IsSubscriptionExpired", t->IsSubscriptionExpired); PackAddInt(p, "NumUserCreationLicense", t->NumUserCreationLicense); PackAddTime64(p, "ReleaseDate", t->ReleaseDate); } // RPC_ADMIN_OPTION void InRpcAdminOption(RPC_ADMIN_OPTION *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ADMIN_OPTION)); t->NumItem = PackGetIndexCount(p, "Name"); t->Items = ZeroMalloc(sizeof(ADMIN_OPTION) * t->NumItem); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); for (i = 0;i < t->NumItem;i++) { ADMIN_OPTION *o = &t->Items[i]; PackGetStrEx(p, "Name", o->Name, sizeof(o->Name), i); o->Value = PackGetIntEx(p, "Value", i); PackGetUniStrEx(p, "Descrption", o->Descrption, sizeof(o->Descrption), i); } } void OutRpcAdminOption(PACK *p, RPC_ADMIN_OPTION *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "NumItem", t->NumItem); PackAddStr(p, "HubName", t->HubName); PackSetCurrentJsonGroupName(p, "AdminOptionList"); for (i = 0;i < t->NumItem;i++) { ADMIN_OPTION *o = &t->Items[i]; PackAddStrEx(p, "Name", o->Name, i, t->NumItem); PackAddIntEx(p, "Value", o->Value, i, t->NumItem); PackAddUniStrEx(p, "Descrption", o->Descrption, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcAdminOption(RPC_ADMIN_OPTION *t) { // Validate arguments if (t == NULL) { return; } Free(t->Items); } // RPC_CONFIG void InRpcConfig(RPC_CONFIG *t, PACK *p) { UINT size; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_CONFIG)); PackGetStr(p, "FileName", t->FileName, sizeof(t->FileName)); size = PackGetDataSize(p, "FileData"); t->FileData = ZeroMalloc(size + 1); PackGetData(p, "FileData", t->FileData); } void OutRpcConfig(PACK *p, RPC_CONFIG *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "FileName", t->FileName); PackAddData(p, "FileData", t->FileData, StrLen(t->FileData)); } void FreeRpcConfig(RPC_CONFIG *t) { // Validate arguments if (t == NULL) { return; } Free(t->FileData); } // RPC_BRIDGE_SUPPORT void InRpcBridgeSupport(RPC_BRIDGE_SUPPORT *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_BRIDGE_SUPPORT)); t->IsBridgeSupportedOs = PackGetBool(p, "IsBridgeSupportedOs"); t->IsWinPcapNeeded = PackGetBool(p, "IsWinPcapNeeded"); } void OutRpcBridgeSupport(PACK *p, RPC_BRIDGE_SUPPORT *t) { // Validate arguments if (p == NULL || t == NULL) { return; } PackAddBool(p, "IsBridgeSupportedOs", t->IsBridgeSupportedOs); PackAddBool(p, "IsWinPcapNeeded",t->IsWinPcapNeeded); } // RPC_ADD_ACCESS void InRpcAddAccess(RPC_ADD_ACCESS *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ADD_ACCESS)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); InRpcAccess(&t->Access, p); } void OutRpcAddAccess(PACK *p, RPC_ADD_ACCESS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); OutRpcAccess(p, &t->Access); } // RPC_DELETE_ACCESS void InRpcDeleteAccess(RPC_DELETE_ACCESS *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_DELETE_ACCESS)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->Id = PackGetInt(p, "Id"); } void OutRpcDeleteAccess(PACK *p, RPC_DELETE_ACCESS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddInt(p, "Id", t->Id); } // RPC_SERVER_INFO void InRpcServerInfo(RPC_SERVER_INFO *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_SERVER_INFO)); PackGetStr(p, "ServerProductName", t->ServerProductName, sizeof(t->ServerProductName)); PackGetStr(p, "ServerVersionString", t->ServerVersionString, sizeof(t->ServerVersionString)); PackGetStr(p, "ServerBuildInfoString", t->ServerBuildInfoString, sizeof(t->ServerBuildInfoString)); t->ServerVerInt = PackGetInt(p, "ServerVerInt"); t->ServerBuildInt = PackGetInt(p, "ServerBuildInt"); PackGetStr(p, "ServerHostName", t->ServerHostName, sizeof(t->ServerHostName)); t->ServerType = PackGetInt(p, "ServerType"); t->ServerBuildDate = PackGetInt64(p, "ServerBuildDate"); PackGetStr(p, "ServerFamilyName", t->ServerFamilyName, sizeof(t->ServerFamilyName)); InRpcOsInfo(&t->OsInfo, p); } void OutRpcServerInfo(PACK *p, RPC_SERVER_INFO *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "ServerProductName", t->ServerProductName); PackAddStr(p, "ServerVersionString", t->ServerVersionString); PackAddStr(p, "ServerBuildInfoString", t->ServerBuildInfoString); PackAddInt(p, "ServerVerInt", t->ServerVerInt); PackAddInt(p, "ServerBuildInt", t->ServerBuildInt); PackAddStr(p, "ServerHostName", t->ServerHostName); PackAddInt(p, "ServerType", t->ServerType); PackAddTime64(p, "ServerBuildDate", t->ServerBuildDate); PackAddStr(p, "ServerFamilyName", t->ServerFamilyName); OutRpcOsInfo(p, &t->OsInfo); } void FreeRpcServerInfo(RPC_SERVER_INFO *t) { // Validate arguments if (t == NULL) { return; } FreeRpcOsInfo(&t->OsInfo); } // RPC_SERVER_STATUS void InRpcServerStatus(RPC_SERVER_STATUS *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_SERVER_STATUS)); t->ServerType = PackGetInt(p, "ServerType"); t->NumTcpConnections = PackGetInt(p, "NumTcpConnections"); t->NumTcpConnectionsLocal = PackGetInt(p, "NumTcpConnectionsLocal"); t->NumTcpConnectionsRemote = PackGetInt(p, "NumTcpConnectionsRemote"); t->NumHubTotal = PackGetInt(p, "NumHubTotal"); t->NumHubStandalone = PackGetInt(p, "NumHubStandalone"); t->NumHubStatic = PackGetInt(p, "NumHubStatic"); t->NumHubDynamic = PackGetInt(p, "NumHubDynamic"); t->NumSessionsTotal = PackGetInt(p, "NumSessionsTotal"); t->NumSessionsLocal = PackGetInt(p, "NumSessionsLocal"); t->NumSessionsRemote = PackGetInt(p, "NumSessionsRemote"); t->NumMacTables = PackGetInt(p, "NumMacTables"); t->NumIpTables = PackGetInt(p, "NumIpTables"); t->NumUsers = PackGetInt(p, "NumUsers"); t->NumGroups = PackGetInt(p, "NumGroups"); t->CurrentTime = PackGetInt64(p, "CurrentTime"); t->CurrentTick = PackGetInt64(p, "CurrentTick"); t->AssignedBridgeLicenses = PackGetInt(p, "AssignedBridgeLicenses"); t->AssignedClientLicenses = PackGetInt(p, "AssignedClientLicenses"); t->AssignedBridgeLicensesTotal = PackGetInt(p, "AssignedBridgeLicensesTotal"); t->AssignedClientLicensesTotal = PackGetInt(p, "AssignedClientLicensesTotal"); t->StartTime = PackGetInt64(p, "StartTime"); InRpcTraffic(&t->Traffic, p); InRpcMemInfo(&t->MemInfo, p); } void OutRpcServerStatus(PACK *p, RPC_SERVER_STATUS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "ServerType", t->ServerType); PackAddInt(p, "NumHubTotal", t->NumHubTotal); PackAddInt(p, "NumHubStandalone", t->NumHubStandalone); PackAddInt(p, "NumHubStatic", t->NumHubStatic); PackAddInt(p, "NumHubDynamic", t->NumHubDynamic); PackAddInt(p, "NumSessionsTotal", t->NumSessionsTotal); PackAddInt(p, "NumSessionsLocal", t->NumSessionsLocal); PackAddInt(p, "NumSessionsRemote", t->NumSessionsRemote); PackAddInt(p, "NumTcpConnections", t->NumTcpConnections); PackAddInt(p, "NumTcpConnectionsLocal", t->NumTcpConnectionsLocal); PackAddInt(p, "NumTcpConnectionsRemote", t->NumTcpConnectionsRemote); PackAddInt(p, "NumMacTables", t->NumMacTables); PackAddInt(p, "NumIpTables", t->NumIpTables); PackAddInt(p, "NumUsers", t->NumUsers); PackAddInt(p, "NumGroups", t->NumGroups); PackAddTime64(p, "CurrentTime", t->CurrentTime); PackAddInt64(p, "CurrentTick", t->CurrentTick); PackAddInt(p, "AssignedBridgeLicenses", t->AssignedBridgeLicenses); PackAddInt(p, "AssignedClientLicenses", t->AssignedClientLicenses); PackAddInt(p, "AssignedBridgeLicensesTotal", t->AssignedBridgeLicensesTotal); PackAddInt(p, "AssignedClientLicensesTotal", t->AssignedClientLicensesTotal); PackAddTime64(p, "StartTime", t->StartTime); OutRpcTraffic(p, &t->Traffic); OutRpcMemInfo(p, &t->MemInfo); } // RPC_LISTENER void InRpcListener(RPC_LISTENER *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_LISTENER)); t->Port = PackGetInt(p, "Port"); t->Enable = PackGetBool(p, "Enable"); } void OutRpcListener(PACK *p, RPC_LISTENER *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "Port", t->Port); PackAddBool(p, "Enable", t->Enable); } // RPC_LISTENER_LIST void InRpcListenerList(RPC_LISTENER_LIST *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_LISTENER_LIST)); t->NumPort = PackGetIndexCount(p, "Ports"); t->Ports = ZeroMalloc(sizeof(UINT) * t->NumPort); t->Enables = ZeroMalloc(sizeof(UINT) * t->NumPort); t->Errors = ZeroMalloc(sizeof(UINT) * t->NumPort); for (i = 0;i < t->NumPort;i++) { t->Ports[i] = PackGetIntEx(p, "Ports", i); t->Enables[i] = PackGetBoolEx(p, "Enables", i); t->Errors[i] = PackGetBoolEx(p, "Errors", i); } } void OutRpcListenerList(PACK *p, RPC_LISTENER_LIST *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackSetCurrentJsonGroupName(p, "ListenerList"); for (i = 0;i < t->NumPort;i++) { PackAddIntEx(p, "Ports", t->Ports[i], i, t->NumPort); PackAddBoolEx(p, "Enables", t->Enables[i], i, t->NumPort); PackAddBoolEx(p, "Errors", t->Errors[i], i, t->NumPort); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcListenerList(RPC_LISTENER_LIST *t) { // Validate arguments if (t == NULL) { return; } Free(t->Ports); Free(t->Enables); Free(t->Errors); } // RPC_PORTS void InRpcPorts(RPC_PORTS *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } t->Num = PackGetIndexCount(p, "Ports"); t->Ports = ZeroMalloc(sizeof(UINT) * t->Num); for (i = 0; i < t->Num; ++i) { t->Ports[i] = PackGetIntEx(p, "Ports", i); } } void OutRpcPorts(PACK *p, RPC_PORTS *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } for (i = 0; i < t->Num; ++i) { PackAddIntEx(p, "Ports", t->Ports[i], i, t->Num); } } void FreeRpcPorts(RPC_PORTS *t) { // Validate arguments if (t == NULL) { return; } Free(t->Ports); } // RPC_STR void InRpcStr(RPC_STR *t, PACK *p) { UINT size = 65536; char *tmp = Malloc(size); // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_STR)); if (PackGetStr(p, "String", tmp, size) == false) { t->String = CopyStr(""); } else { t->String = CopyStr(tmp); } Free(tmp); } void OutRpcStr(PACK *p, RPC_STR *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "String", t->String); } void FreeRpcStr(RPC_STR *t) { // Validate arguments if (t == NULL ) { return; } Free(t->String); } // RPC_SET_PASSWORD void InRpcSetPassword(RPC_SET_PASSWORD *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_SET_PASSWORD)); PackGetData2(p, "HashedPassword", t->HashedPassword, sizeof(t->HashedPassword)); PackGetStr(p, "PlainTextPassword", t->PlainTextPassword, sizeof(t->PlainTextPassword)); } void OutRpcSetPassword(PACK *p, RPC_SET_PASSWORD *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddData(p, "HashedPassword", t->HashedPassword, sizeof(t->HashedPassword)); PackAddStr(p, "PlainTextPassword", t->PlainTextPassword); } // RPC_FARM void InRpcFarm(RPC_FARM *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_FARM)); t->ServerType = PackGetInt(p, "ServerType"); t->NumPort = PackGetIndexCount(p, "Ports"); t->Ports = ZeroMalloc(sizeof(UINT) * t->NumPort); for (i = 0;i < t->NumPort;i++) { t->Ports[i] = PackGetIntEx(p, "Ports", i); } t->PublicIp = PackGetIp32(p, "PublicIp"); PackGetStr(p, "ControllerName", t->ControllerName, sizeof(t->ControllerName)); t->ControllerPort = PackGetInt(p, "ControllerPort"); PackGetData2(p, "MemberPassword", t->MemberPassword, sizeof(t->MemberPassword)); PackGetStr(p, "MemberPasswordPlaintext", t->MemberPasswordPlaintext, sizeof(t->MemberPasswordPlaintext)); t->Weight = PackGetInt(p, "Weight"); t->ControllerOnly = PackGetBool(p, "ControllerOnly"); } void OutRpcFarm(PACK *p, RPC_FARM *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "ServerType", t->ServerType); for (i = 0;i < t->NumPort;i++) { PackAddIntEx(p, "Ports", t->Ports[i], i, t->NumPort); } PackAddIp32(p, "PublicIp", t->PublicIp); PackAddStr(p, "ControllerName", t->ControllerName); PackAddInt(p, "ControllerPort", t->ControllerPort); PackAddData(p, "MemberPassword", t->MemberPassword, sizeof(t->MemberPassword)); PackAddStr(p, "MemberPasswordPlaintext", t->MemberPasswordPlaintext); PackAddInt(p, "Weight", t->Weight); PackAddBool(p, "ControllerOnly", t->ControllerOnly); } void FreeRpcFarm(RPC_FARM *t) { // Validate arguments if (t == NULL) { return; } Free(t->Ports); } // RPC_FARM_HUB void InRpcFarmHub(RPC_FARM_HUB *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_FARM_HUB)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->DynamicHub = PackGetBool(p, "DynamicHub"); } void OutRpcFarmHub(PACK *p, RPC_FARM_HUB *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddBool(p, "DynamicHub", t->DynamicHub); } // RPC_FARM_INFO void InRpcFarmInfo(RPC_FARM_INFO *t, PACK *p) { UINT i; // Validate arguments if (t == NULL) { return; } Zero(t, sizeof(RPC_FARM_INFO)); t->Id = PackGetInt(p, "Id"); t->Controller = PackGetBool(p, "Controller"); t->ConnectedTime = PackGetInt64(p, "ConnectedTime"); t->Ip = PackGetIp32(p, "Ip"); PackGetStr(p, "Hostname", t->Hostname, sizeof(t->Hostname)); t->Point = PackGetInt(p, "Point"); t->NumPort = PackGetIndexCount(p, "Ports"); t->Ports = ZeroMalloc(sizeof(UINT) * t->NumPort); for (i = 0;i < t->NumPort;i++) { t->Ports[i] = PackGetIntEx(p, "Ports", i); } t->ServerCert = PackGetX(p, "ServerCert"); t->NumFarmHub = PackGetIndexCount(p, "HubName"); t->FarmHubs = ZeroMalloc(sizeof(RPC_FARM_HUB) * t->NumFarmHub); for (i = 0;i < t->NumFarmHub;i++) { PackGetStrEx(p, "HubName", t->FarmHubs[i].HubName, sizeof(t->FarmHubs[i].HubName), i); t->FarmHubs[i].DynamicHub = PackGetBoolEx(p, "DynamicHub", i); } t->NumSessions = PackGetInt(p, "NumSessions"); t->NumTcpConnections = PackGetInt(p, "NumTcpConnections"); t->Weight = PackGetInt(p, "Weight"); } void OutRpcFarmInfo(PACK *p, RPC_FARM_INFO *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "Id", t->Id); PackAddBool(p, "Controller", t->Controller); PackAddTime64(p, "ConnectedTime", t->ConnectedTime); PackAddIp32(p, "Ip", t->Ip); PackAddStr(p, "Hostname", t->Hostname); PackAddInt(p, "Point", t->Point); for (i = 0;i < t->NumPort;i++) { PackAddIntEx(p, "Ports", t->Ports[i], i, t->NumPort); } PackAddX(p, "ServerCert", t->ServerCert); PackSetCurrentJsonGroupName(p, "HubsList"); for (i = 0;i < t->NumFarmHub;i++) { PackAddStrEx(p, "HubName", t->FarmHubs[i].HubName, i, t->NumFarmHub); PackAddBoolEx(p, "DynamicHub", t->FarmHubs[i].DynamicHub, i, t->NumFarmHub); } PackSetCurrentJsonGroupName(p, NULL); PackAddInt(p, "NumSessions", t->NumSessions); PackAddInt(p, "NumTcpConnections", t->NumTcpConnections); PackAddInt(p, "Weight", t->Weight); } void FreeRpcFarmInfo(RPC_FARM_INFO *t) { // Validate arguments if (t == NULL) { return; } Free(t->Ports); Free(t->FarmHubs); FreeX(t->ServerCert); } void InRpcEnumFarm(RPC_ENUM_FARM *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_FARM)); t->NumFarm = PackGetIndexCount(p, "Id"); t->Farms = ZeroMalloc(sizeof(RPC_ENUM_FARM_ITEM) * t->NumFarm); for (i = 0;i < t->NumFarm;i++) { RPC_ENUM_FARM_ITEM *e = &t->Farms[i]; e->Id = PackGetIntEx(p, "Id", i); e->Controller = PackGetBoolEx(p, "Controller", i); e->ConnectedTime = PackGetInt64Ex(p, "ConnectedTime", i); e->Ip = PackGetIp32Ex(p, "Ip", i); PackGetStrEx(p, "Hostname", e->Hostname, sizeof(e->Hostname), i); e->Point = PackGetIntEx(p, "Point", i); e->NumSessions = PackGetIntEx(p, "NumSessions", i); e->NumTcpConnections = PackGetIntEx(p, "NumTcpConnections", i); e->NumHubs = PackGetIntEx(p, "NumHubs", i); e->AssignedClientLicense = PackGetIntEx(p, "AssignedClientLicense", i); e->AssignedBridgeLicense = PackGetIntEx(p, "AssignedBridgeLicense", i); } } void OutRpcEnumFarm(PACK *p, RPC_ENUM_FARM *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackSetCurrentJsonGroupName(p, "FarmMemberList"); for (i = 0;i < t->NumFarm;i++) { RPC_ENUM_FARM_ITEM *e = &t->Farms[i]; PackAddIntEx(p, "Id", e->Id, i, t->NumFarm); PackAddBoolEx(p, "Controller", e->Controller, i, t->NumFarm); PackAddTime64Ex(p, "ConnectedTime", e->ConnectedTime, i, t->NumFarm); PackAddIp32Ex(p, "Ip", e->Ip, i, t->NumFarm); PackAddStrEx(p, "Hostname", e->Hostname, i, t->NumFarm); PackAddIntEx(p, "Point", e->Point, i, t->NumFarm); PackAddIntEx(p, "NumSessions", e->NumSessions, i, t->NumFarm); PackAddIntEx(p, "NumTcpConnections", e->NumTcpConnections, i, t->NumFarm); PackAddIntEx(p, "NumHubs", e->NumHubs, i, t->NumFarm); PackAddIntEx(p, "AssignedClientLicense", e->AssignedClientLicense, i, t->NumFarm); PackAddIntEx(p, "AssignedBridgeLicense", e->AssignedBridgeLicense, i, t->NumFarm); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumFarm(RPC_ENUM_FARM *t) { // Validate arguments if (t == NULL) { return; } Free(t->Farms); } // RPC_FARM_CONNECTION_STATUS void InRpcFarmConnectionStatus(RPC_FARM_CONNECTION_STATUS *t, PACK *p) { Zero(t, sizeof(RPC_FARM_CONNECTION_STATUS)); // Validate arguments if (t == NULL || p == NULL) { return; } t->Ip = PackGetIp32(p, "Ip"); t->Port = PackGetInt(p, "Port"); t->Online = PackGetBool(p, "Online"); t->LastError = PackGetInt(p, "LastError"); t->StartedTime = PackGetInt64(p, "StartedTime"); t->CurrentConnectedTime = PackGetInt64(p, "CurrentConnectedTime"); t->FirstConnectedTime = PackGetInt64(p, "FirstConnectedTime"); t->NumConnected = PackGetInt(p, "NumConnected"); t->NumTry = PackGetInt(p, "NumTry"); t->NumFailed = PackGetInt(p, "NumFailed"); } void OutRpcFarmConnectionStatus(PACK *p, RPC_FARM_CONNECTION_STATUS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddIp32(p, "Ip", t->Ip); PackAddInt(p, "Port", t->Port); PackAddBool(p, "Online", t->Online); PackAddInt(p, "LastError", t->LastError); PackAddTime64(p, "StartedTime", t->StartedTime); PackAddTime64(p, "CurrentConnectedTime", t->CurrentConnectedTime); PackAddTime64(p, "FirstConnectedTime", t->FirstConnectedTime); PackAddInt(p, "NumConnected", t->NumConnected); PackAddInt(p, "NumTry", t->NumTry); PackAddInt(p, "NumFailed", t->NumFailed); } // RPC_HUB_OPTION void InRpcHubOption(RPC_HUB_OPTION *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_HUB_OPTION)); t->MaxSession = PackGetInt(p, "MaxSession"); t->NoEnum = PackGetBool(p, "NoEnum"); } void OutRpcHubOption(PACK *p, RPC_HUB_OPTION *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "MaxSession", t->MaxSession); PackAddBool(p, "NoEnum", t->NoEnum); } // RPC_RADIUS void InRpcRadius(RPC_RADIUS *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_RADIUS)); PackGetStr(p, "RadiusServerName", t->RadiusServerName, sizeof(t->RadiusServerName)); t->RadiusPort = PackGetInt(p, "RadiusPort"); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); PackGetStr(p, "RadiusSecret", t->RadiusSecret, sizeof(t->RadiusSecret)); t->RadiusRetryInterval = PackGetInt(p, "RadiusRetryInterval"); } void OutRpcRadius(PACK *p, RPC_RADIUS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "RadiusServerName", t->RadiusServerName); PackAddInt(p, "RadiusPort", t->RadiusPort); PackAddStr(p, "HubName", t->HubName); PackAddStr(p, "RadiusSecret", t->RadiusSecret); PackAddInt(p, "RadiusRetryInterval", t->RadiusRetryInterval); } // RPC_HUB void InRpcHub(RPC_HUB *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_HUB)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); } void OutRpcHub(PACK *p, RPC_HUB *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); } // RPC_CREATE_HUB void InRpcCreateHub(RPC_CREATE_HUB *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_CREATE_HUB)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); PackGetData2(p, "HashedPassword", t->HashedPassword, sizeof(t->HashedPassword)); PackGetData2(p, "SecurePassword", t->SecurePassword, sizeof(t->SecurePassword)); PackGetStr(p, "AdminPasswordPlainText", t->AdminPasswordPlainText, sizeof(t->AdminPasswordPlainText)); t->Online = PackGetBool(p, "Online"); InRpcHubOption(&t->HubOption, p); t->HubType = PackGetInt(p, "HubType"); } void OutRpcCreateHub(PACK *p, RPC_CREATE_HUB *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddData(p, "HashedPassword", t->HashedPassword, sizeof(t->HashedPassword)); PackAddData(p, "SecurePassword", t->SecurePassword, sizeof(t->SecurePassword)); PackAddBool(p, "Online", t->Online); PackAddStr(p, "AdminPasswordPlainText", t->AdminPasswordPlainText); OutRpcHubOption(p, &t->HubOption); PackAddInt(p, "HubType", t->HubType); } // RPC_ENUM_HUB void InRpcEnumHub(RPC_ENUM_HUB *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_HUB)); t->NumHub = PackGetIndexCount(p, "HubName"); t->Hubs = ZeroMalloc(sizeof(RPC_ENUM_HUB_ITEM) * t->NumHub); for (i = 0;i < t->NumHub;i++) { RPC_ENUM_HUB_ITEM *e = &t->Hubs[i]; PackGetStrEx(p, "HubName", e->HubName, sizeof(e->HubName), i); e->Online = PackGetBoolEx(p, "Online", i); e->HubType = PackGetIntEx(p, "HubType", i); e->NumSessions = PackGetIntEx(p, "NumSessions", i); e->NumUsers = PackGetIntEx(p, "NumUsers", i); e->NumGroups = PackGetIntEx(p, "NumGroups", i); e->NumMacTables = PackGetIntEx(p, "NumMacTables", i); e->NumIpTables = PackGetIntEx(p, "NumIpTables", i); e->LastCommTime = PackGetInt64Ex(p, "LastCommTime", i); e->CreatedTime = PackGetInt64Ex(p, "CreatedTime", i); e->LastLoginTime = PackGetInt64Ex(p, "LastLoginTime", i); e->NumLogin = PackGetIntEx(p, "NumLogin", i); e->IsTrafficFilled = PackGetBoolEx(p, "IsTrafficFilled", i); InRpcTrafficEx(&e->Traffic, p, i); } } void OutRpcEnumHub(PACK *p, RPC_ENUM_HUB *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackSetCurrentJsonGroupName(p, "HubList"); for (i = 0;i < t->NumHub;i++) { RPC_ENUM_HUB_ITEM *e = &t->Hubs[i]; PackAddStrEx(p, "HubName", e->HubName, i, t->NumHub); PackAddBoolEx(p, "Online", e->Online, i, t->NumHub); PackAddIntEx(p, "HubType", e->HubType, i, t->NumHub); PackAddIntEx(p, "NumSessions", e->NumSessions, i, t->NumHub); PackAddIntEx(p, "NumUsers", e->NumUsers, i, t->NumHub); PackAddIntEx(p, "NumGroups", e->NumGroups, i, t->NumHub); PackAddIntEx(p, "NumMacTables", e->NumMacTables, i, t->NumHub); PackAddIntEx(p, "NumIpTables", e->NumIpTables, i, t->NumHub); PackAddTime64Ex(p, "LastCommTime", e->LastCommTime, i, t->NumHub); PackAddTime64Ex(p, "CreatedTime", e->CreatedTime, i, t->NumHub); PackAddTime64Ex(p, "LastLoginTime", e->LastLoginTime, i, t->NumHub); PackAddIntEx(p, "NumLogin", e->NumLogin, i, t->NumHub); PackAddBoolEx(p, "IsTrafficFilled", e->IsTrafficFilled, i, t->NumHub); OutRpcTrafficEx(&e->Traffic, p, i, t->NumHub); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumHub(RPC_ENUM_HUB *t) { // Validate arguments if (t == NULL) { return; } Free(t->Hubs); } // RPC_DELETE_HUB void InRpcDeleteHub(RPC_DELETE_HUB *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_DELETE_HUB)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); } void OutRpcDeleteHub(PACK *p, RPC_DELETE_HUB *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); } // RPC_ENUM_CONNECTION void InRpcEnumConnection(RPC_ENUM_CONNECTION *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_CONNECTION)); t->NumConnection = PackGetIndexCount(p, "Name"); t->Connections = ZeroMalloc(sizeof(RPC_ENUM_CONNECTION_ITEM) * t->NumConnection); for (i = 0;i < t->NumConnection;i++) { RPC_ENUM_CONNECTION_ITEM *e = &t->Connections[i]; e->Ip = PackGetIp32Ex(p, "Ip", i); e->Port = PackGetIntEx(p, "Port", i); PackGetStrEx(p, "Name", e->Name, sizeof(e->Name), i); PackGetStrEx(p, "Hostname", e->Hostname, sizeof(e->Hostname), i); e->ConnectedTime = PackGetInt64Ex(p, "ConnectedTime", i); e->Type = PackGetIntEx(p, "Type", i); } } void OutRpcEnumConnection(PACK *p, RPC_ENUM_CONNECTION *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackSetCurrentJsonGroupName(p, "ConnectionList"); for (i = 0;i < t->NumConnection;i++) { RPC_ENUM_CONNECTION_ITEM *e = &t->Connections[i]; PackAddIp32Ex(p, "Ip", e->Ip, i, t->NumConnection); PackAddIntEx(p, "Port", e->Port, i, t->NumConnection); PackAddStrEx(p, "Name", e->Name, i, t->NumConnection); PackAddStrEx(p, "Hostname", e->Hostname, i, t->NumConnection); PackAddTime64Ex(p, "ConnectedTime", e->ConnectedTime, i, t->NumConnection); PackAddIntEx(p, "Type", e->Type, i, t->NumConnection); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumConnection(RPC_ENUM_CONNECTION *t) { // Validate arguments if (t == NULL) { return; } Free(t->Connections); } // RPC_DISCONNECT_CONNECTION void InRpcDisconnectConnection(RPC_DISCONNECT_CONNECTION *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_DISCONNECT_CONNECTION)); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); } void OutRpcDisconnectConnection(PACK *p, RPC_DISCONNECT_CONNECTION *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "Name", t->Name); } // RPC_CONNECTION_INFO void InRpcConnectionInfo(RPC_CONNECTION_INFO *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_CONNECTION_INFO)); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); t->Ip = PackGetIp32(p, "Ip"); t->Port = PackGetInt(p, "Port"); t->ConnectedTime = PackGetInt64(p, "ConnectedTime"); PackGetStr(p, "Hostname", t->Hostname, sizeof(t->Hostname)); PackGetStr(p, "ServerStr", t->ServerStr, sizeof(t->ServerStr)); PackGetStr(p, "ClientStr", t->ClientStr, sizeof(t->ClientStr)); t->ServerVer = PackGetInt(p, "ServerVer"); t->ServerBuild = PackGetInt(p, "ServerBuild"); t->ClientVer = PackGetInt(p, "ClientVer"); t->ClientBuild = PackGetInt(p, "ClientBuild"); t->Type = PackGetInt(p, "Type"); } void OutRpcConnectionInfo(PACK *p, RPC_CONNECTION_INFO *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "Name", t->Name); PackAddIp32(p, "Ip", t->Ip); PackAddInt(p, "Port", t->Port); PackAddTime64(p, "ConnectedTime", t->ConnectedTime); PackAddStr(p, "Hostname", t->Hostname); PackAddStr(p, "ServerStr", t->ServerStr); PackAddStr(p, "ClientStr", t->ClientStr); PackAddInt(p, "ServerVer", t->ServerVer); PackAddInt(p, "ServerBuild", t->ServerBuild); PackAddInt(p, "ClientVer", t->ClientVer); PackAddInt(p, "ClientBuild", t->ClientBuild); PackAddInt(p, "Type", t->Type); } // RPC_SET_HUB_ONLINE void InRpcSetHubOnline(RPC_SET_HUB_ONLINE *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_SET_HUB_ONLINE)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->Online = PackGetBool(p, "Online"); } void OutRpcSetHubOnline(PACK *p, RPC_SET_HUB_ONLINE *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddBool(p, "Online", t->Online); } // RPC_HUB_STATUS void InRpcHubStatus(RPC_HUB_STATUS *t, PACK *p) { Zero(t, sizeof(RPC_HUB_STATUS)); // Validate arguments if (t == NULL || p == NULL) { return; } PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->Online = PackGetBool(p, "Online"); t->HubType = PackGetInt(p, "HubType"); t->NumSessions = PackGetInt(p, "NumSessions"); t->NumSessionsClient = PackGetInt(p, "NumSessionsClient"); t->NumSessionsBridge = PackGetInt(p, "NumSessionsBridge"); t->NumAccessLists = PackGetInt(p, "NumAccessLists"); t->NumUsers = PackGetInt(p, "NumUsers"); t->NumGroups = PackGetInt(p, "NumGroups"); t->NumMacTables = PackGetInt(p, "NumMacTables"); t->NumIpTables = PackGetInt(p, "NumIpTables"); t->SecureNATEnabled = PackGetBool(p, "SecureNATEnabled"); InRpcTraffic(&t->Traffic, p); t->LastCommTime = PackGetInt64(p, "LastCommTime"); t->CreatedTime = PackGetInt64(p, "CreatedTime"); t->LastLoginTime = PackGetInt64(p, "LastLoginTime"); t->NumLogin = PackGetInt(p, "NumLogin"); } void OutRpcHubStatus(PACK *p, RPC_HUB_STATUS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddBool(p, "Online", t->Online); PackAddInt(p, "HubType", t->HubType); PackAddInt(p, "NumSessions", t->NumSessions); PackAddInt(p, "NumSessionsClient", t->NumSessionsClient); PackAddInt(p, "NumSessionsBridge", t->NumSessionsBridge); PackAddInt(p, "NumAccessLists", t->NumAccessLists); PackAddInt(p, "NumUsers", t->NumUsers); PackAddInt(p, "NumGroups", t->NumGroups); PackAddInt(p, "NumMacTables", t->NumMacTables); PackAddInt(p, "NumIpTables", t->NumIpTables); PackAddBool(p, "SecureNATEnabled", t->SecureNATEnabled); OutRpcTraffic(p, &t->Traffic); PackAddTime64(p, "LastCommTime", t->LastCommTime); PackAddTime64(p, "CreatedTime", t->CreatedTime); PackAddTime64(p, "LastLoginTime", t->LastLoginTime); PackAddInt(p, "NumLogin", t->NumLogin); } // RPC_HUB_LOG void InRpcHubLog(RPC_HUB_LOG *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_HUB_LOG)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->LogSetting.SaveSecurityLog = PackGetBool(p, "SaveSecurityLog"); t->LogSetting.SecurityLogSwitchType = PackGetInt(p, "SecurityLogSwitchType"); t->LogSetting.SavePacketLog = PackGetBool(p, "SavePacketLog"); t->LogSetting.PacketLogSwitchType = PackGetInt(p, "PacketLogSwitchType"); for (i = 0;i < NUM_PACKET_LOG;i++) { t->LogSetting.PacketLogConfig[i] = PackGetIntEx(p, "PacketLogConfig", i); } } void OutRpcHubLog(PACK *p, RPC_HUB_LOG *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddBool(p, "SaveSecurityLog", t->LogSetting.SaveSecurityLog); PackAddInt(p, "SecurityLogSwitchType", t->LogSetting.SecurityLogSwitchType); PackAddBool(p, "SavePacketLog", t->LogSetting.SavePacketLog); PackAddInt(p, "PacketLogSwitchType", t->LogSetting.PacketLogSwitchType); for (i = 0;i < NUM_PACKET_LOG;i++) { PackAddIntEx(p, "PacketLogConfig", t->LogSetting.PacketLogConfig[i], i, NUM_PACKET_LOG); } } // RPC_HUB_ADD_CA void InRpcHubAddCa(RPC_HUB_ADD_CA *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_HUB_ADD_CA)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->Cert = PackGetX(p, "Cert"); } void OutRpcHubAddCa(PACK *p, RPC_HUB_ADD_CA *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddX(p, "Cert", t->Cert); } void FreeRpcHubAddCa(RPC_HUB_ADD_CA *t) { // Validate arguments if (t == NULL) { return; } FreeX(t->Cert); } // RPC_HUB_ENUM_CA void InRpcHubEnumCa(RPC_HUB_ENUM_CA *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_HUB_ENUM_CA)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->NumCa = PackGetIndexCount(p, "Key"); t->Ca = ZeroMalloc(sizeof(RPC_HUB_ENUM_CA_ITEM) * t->NumCa); for (i = 0;i < t->NumCa;i++) { RPC_HUB_ENUM_CA_ITEM *e = &t->Ca[i]; e->Key = PackGetIntEx(p, "Key", i); PackGetUniStrEx(p, "SubjectName", e->SubjectName, sizeof(e->SubjectName), i); PackGetUniStrEx(p, "IssuerName", e->IssuerName, sizeof(e->IssuerName), i); e->Expires = PackGetInt64Ex(p, "Expires", i); } } void OutRpcHubEnumCa(PACK *p, RPC_HUB_ENUM_CA *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackSetCurrentJsonGroupName(p, "CAList"); for (i = 0;i < t->NumCa;i++) { RPC_HUB_ENUM_CA_ITEM *e = &t->Ca[i]; PackAddIntEx(p, "Key", e->Key, i, t->NumCa); PackAddUniStrEx(p, "SubjectName", e->SubjectName, i, t->NumCa); PackAddUniStrEx(p, "IssuerName", e->IssuerName, i, t->NumCa); PackAddTime64Ex(p, "Expires", e->Expires, i, t->NumCa); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcHubEnumCa(RPC_HUB_ENUM_CA *t) { // Validate arguments if (t == NULL) { return; } Free(t->Ca); } // RPC_HUB_GET_CA void InRpcHubGetCa(RPC_HUB_GET_CA *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_HUB_GET_CA)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->Key = PackGetInt(p, "Key"); t->Cert = PackGetX(p, "Cert"); } void OutRpcHubGetCa(PACK *p, RPC_HUB_GET_CA *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddInt(p, "Key", t->Key); PackAddX(p, "Cert", t->Cert); } void FreeRpcHubGetCa(RPC_HUB_GET_CA *t) { // Validate arguments if (t == NULL) { return; } FreeX(t->Cert); } // RPC_HUB_DELETE_CA void InRpcHubDeleteCa(RPC_HUB_DELETE_CA *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_HUB_DELETE_CA)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->Key = PackGetInt(p, "Key"); } void OutRpcHubDeleteCa(PACK *p, RPC_HUB_DELETE_CA *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddInt(p, "Key", t->Key); } // RPC_CREATE_LINK void InRpcCreateLink(RPC_CREATE_LINK *t, PACK *p) { BUF *b; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_CREATE_LINK)); PackGetStr(p, "HubName_Ex", t->HubName, sizeof(t->HubName)); t->Online = PackGetBool(p, "Online"); t->ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION)); InRpcClientOption(t->ClientOption, p); t->ClientAuth = ZeroMalloc(sizeof(CLIENT_AUTH)); InRpcClientAuth(t->ClientAuth, p); InRpcPolicy(&t->Policy, p); t->CheckServerCert = PackGetBool(p, "CheckServerCert"); b = PackGetBuf(p, "ServerCert"); if (b != NULL) { t->ServerCert = BufToX(b, false); FreeBuf(b); } } void OutRpcCreateLink(PACK *p, RPC_CREATE_LINK *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName_Ex",t->HubName); PackAddBool(p, "Online", t->Online); OutRpcClientOption(p, t->ClientOption); OutRpcClientAuth(p, t->ClientAuth); OutRpcPolicy(p, &t->Policy); PackAddBool(p, "CheckServerCert", t->CheckServerCert); if (t->ServerCert != NULL) { BUF *b; b = XToBuf(t->ServerCert, false); PackAddBuf(p, "ServerCert", b); FreeBuf(b); } } void FreeRpcCreateLink(RPC_CREATE_LINK *t) { // Validate arguments if (t == NULL) { return; } if (t->ServerCert != NULL) { FreeX(t->ServerCert); } Free(t->ClientOption); CiFreeClientAuth(t->ClientAuth); } // RPC_ENUM_LINK void InRpcEnumLink(RPC_ENUM_LINK *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_LINK)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->NumLink = PackGetIndexCount(p, "AccountName"); t->Links = ZeroMalloc(sizeof(RPC_ENUM_LINK_ITEM) * t->NumLink); for (i = 0;i < t->NumLink;i++) { RPC_ENUM_LINK_ITEM *e = &t->Links[i]; PackGetUniStrEx(p, "AccountName", e->AccountName, sizeof(e->AccountName), i); PackGetStrEx(p, "Hostname", e->Hostname, sizeof(e->Hostname), i); PackGetStrEx(p, "ConnectedHubName", e->HubName, sizeof(e->HubName), i); e->Online = PackGetBoolEx(p, "Online", i); e->ConnectedTime = PackGetInt64Ex(p, "ConnectedTime", i); e->Connected = PackGetBoolEx(p, "Connected", i); e->LastError = PackGetIntEx(p, "LastError", i); PackGetStrEx(p, "LinkHubName", e->HubName, sizeof(e->HubName), i); } } void OutRpcEnumLink(PACK *p, RPC_ENUM_LINK *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackSetCurrentJsonGroupName(p, "LinkList"); for (i = 0;i < t->NumLink;i++) { RPC_ENUM_LINK_ITEM *e = &t->Links[i]; PackAddUniStrEx(p, "AccountName", e->AccountName, i, t->NumLink); PackAddStrEx(p, "ConnectedHubName", e->HubName, i, t->NumLink); PackAddStrEx(p, "Hostname", e->Hostname, i, t->NumLink); PackAddBoolEx(p, "Online", e->Online, i, t->NumLink); PackAddTime64Ex(p, "ConnectedTime", e->ConnectedTime, i, t->NumLink); PackAddBoolEx(p, "Connected", e->Connected, i, t->NumLink); PackAddIntEx(p, "LastError", e->LastError, i, t->NumLink); PackAddStrEx(p, "TargetHubName", e->HubName, i, t->NumLink); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumLink(RPC_ENUM_LINK *t) { // Validate arguments if (t == NULL) { return; } Free(t->Links); } // RPC_LINK_STATUS void InRpcLinkStatus(RPC_LINK_STATUS *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_LINK_STATUS)); PackGetStr(p, "HubName_Ex", t->HubName, sizeof(t->HubName)); PackGetUniStr(p, "AccountName", t->AccountName, sizeof(t->AccountName)); InRpcClientGetConnectionStatus(&t->Status, p); } void OutRpcLinkStatus(PACK *p, RPC_LINK_STATUS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName_Ex", t->HubName); PackAddUniStr(p, "AccountName", t->AccountName); OutRpcClientGetConnectionStatus(p, &t->Status); } void FreeRpcLinkStatus(RPC_LINK_STATUS *t) { // Validate arguments if (t == NULL) { return; } CiFreeClientGetConnectionStatus(&t->Status); } // RPC_LINK void InRpcLink(RPC_LINK *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_LINK)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); PackGetUniStr(p, "AccountName", t->AccountName, sizeof(t->AccountName)); } void OutRpcLink(PACK *p, RPC_LINK *t) { // Validate arguments if (t == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddUniStr(p, "AccountName", t->AccountName); } // RPC_RENAME_LINK void InRpcRenameLink(RPC_RENAME_LINK *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_RENAME_LINK)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); PackGetUniStr(p, "OldAccountName", t->OldAccountName, sizeof(t->OldAccountName)); PackGetUniStr(p, "NewAccountName", t->NewAccountName, sizeof(t->NewAccountName)); } void OutRpcRenameLink(PACK *p, RPC_RENAME_LINK *t) { // Validate arguments if (p == NULL || t == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddUniStr(p, "OldAccountName", t->OldAccountName); PackAddUniStr(p, "NewAccountName", t->NewAccountName); } // ACCESS void InRpcAccessEx(ACCESS *a, PACK *p, UINT index) { // Validate arguments if (a == NULL || p == NULL) { return; } Zero(a, sizeof(ACCESS)); a->Id = PackGetIntEx(p, "Id", index); PackGetUniStrEx(p, "Note", a->Note, sizeof(a->Note), index); a->Active = PackGetBoolEx(p, "Active", index); a->Priority = PackGetIntEx(p, "Priority", index); a->Discard = PackGetBoolEx(p, "Discard", index); a->SrcIpAddress = PackGetIp32Ex(p, "SrcIpAddress", index); a->SrcSubnetMask = PackGetIp32Ex(p, "SrcSubnetMask", index); a->DestIpAddress = PackGetIp32Ex(p, "DestIpAddress", index); a->DestSubnetMask = PackGetIp32Ex(p, "DestSubnetMask", index); a->Protocol = PackGetIntEx(p, "Protocol", index); a->SrcPortStart = PackGetIntEx(p, "SrcPortStart", index); a->SrcPortEnd = PackGetIntEx(p, "SrcPortEnd", index); a->DestPortStart = PackGetIntEx(p, "DestPortStart", index); a->DestPortEnd = PackGetIntEx(p, "DestPortEnd", index); //a->SrcUsernameHash = PackGetIntEx(p, "SrcUsernameHash", index); PackGetStrEx(p, "SrcUsername", a->SrcUsername, sizeof(a->SrcUsername), index); //a->DestUsernameHash = PackGetIntEx(p, "DestUsernameHash", index); PackGetStrEx(p, "DestUsername", a->DestUsername, sizeof(a->DestUsername), index); a->CheckSrcMac = PackGetBoolEx(p, "CheckSrcMac", index); PackGetDataEx2(p, "SrcMacAddress", a->SrcMacAddress, sizeof(a->SrcMacAddress), index); PackGetDataEx2(p, "SrcMacMask", a->SrcMacMask, sizeof(a->SrcMacMask), index); a->CheckDstMac = PackGetBoolEx(p, "CheckDstMac", index); PackGetDataEx2(p, "DstMacAddress", a->DstMacAddress, sizeof(a->DstMacAddress), index); PackGetDataEx2(p, "DstMacMask", a->DstMacMask, sizeof(a->DstMacMask), index); a->CheckTcpState = PackGetBoolEx(p, "CheckTcpState", index); a->Established = PackGetBoolEx(p, "Established", index); a->Delay = PackGetIntEx(p, "Delay", index); a->Jitter = PackGetIntEx(p, "Jitter", index); a->Loss = PackGetIntEx(p, "Loss", index); a->IsIPv6 = PackGetBoolEx(p, "IsIPv6", index); a->UniqueId = PackGetIntEx(p, "UniqueId", index); PackGetStrEx(p, "RedirectUrl", a->RedirectUrl, sizeof(a->RedirectUrl), index); if (a->IsIPv6) { PackGetIp6AddrEx(p, "SrcIpAddress6", &a->SrcIpAddress6, index); PackGetIp6AddrEx(p, "SrcSubnetMask6", &a->SrcSubnetMask6, index); PackGetIp6AddrEx(p, "DestIpAddress6", &a->DestIpAddress6, index); PackGetIp6AddrEx(p, "DestSubnetMask6", &a->DestSubnetMask6, index); } } void InRpcAccess(ACCESS *a, PACK *p) { // Validate arguments if (a == NULL || p == NULL) { return; } InRpcAccessEx(a, p, 0); } void OutRpcAccessEx(PACK *p, ACCESS *a, UINT index, UINT total) { // Validate arguments if (a == NULL || p == NULL) { return; } PackAddIntEx(p, "Id", a->Id, index, total); PackAddUniStrEx(p, "Note", a->Note, index, total); PackAddBoolEx(p, "Active", a->Active, index, total); PackAddIntEx(p, "Priority", a->Priority, index, total); PackAddBoolEx(p, "Discard", a->Discard, index, total); if (a->IsIPv6) { PackAddIp32Ex(p, "SrcIpAddress", 0xFDFFFFDF, index, total); PackAddIp32Ex(p, "SrcSubnetMask", 0xFFFFFFFF, index, total); PackAddIp32Ex(p, "DestIpAddress", 0xFDFFFFDF, index, total); PackAddIp32Ex(p, "DestSubnetMask", 0xFFFFFFFF, index, total); } else { PackAddIp32Ex(p, "SrcIpAddress", a->SrcIpAddress, index, total); PackAddIp32Ex(p, "SrcSubnetMask", a->SrcSubnetMask, index, total); PackAddIp32Ex(p, "DestIpAddress", a->DestIpAddress, index, total); PackAddIp32Ex(p, "DestSubnetMask", a->DestSubnetMask, index, total); } PackAddIntEx(p, "Protocol", a->Protocol, index, total); PackAddIntEx(p, "SrcPortStart", a->SrcPortStart, index, total); PackAddIntEx(p, "SrcPortEnd", a->SrcPortEnd, index, total); PackAddIntEx(p, "DestPortStart", a->DestPortStart, index, total); PackAddIntEx(p, "DestPortEnd", a->DestPortEnd, index, total); //PackAddIntEx(p, "SrcUsernameHash", a->SrcUsernameHash, index, total); PackAddStrEx(p, "SrcUsername", a->SrcUsername, index, total); //PackAddIntEx(p, "DestUsernameHash", a->DestUsernameHash, index, total); PackAddStrEx(p, "DestUsername", a->DestUsername, index, total); PackAddBoolEx(p, "CheckSrcMac", a->CheckSrcMac, index, total); PackAddDataEx(p, "SrcMacAddress", a->SrcMacAddress, sizeof(a->SrcMacAddress), index, total); PackAddDataEx(p, "SrcMacMask", a->SrcMacMask, sizeof(a->SrcMacMask), index, total); PackAddBoolEx(p, "CheckDstMac", a->CheckDstMac, index, total); PackAddDataEx(p, "DstMacAddress", a->DstMacAddress, sizeof(a->DstMacAddress), index, total); PackAddDataEx(p, "DstMacMask", a->DstMacMask, sizeof(a->DstMacMask), index, total); PackAddBoolEx(p, "CheckTcpState", a->CheckTcpState, index, total); PackAddBoolEx(p, "Established", a->Established, index, total); PackAddIntEx(p, "Delay", a->Delay, index, total); PackAddIntEx(p, "Jitter", a->Jitter, index, total); PackAddIntEx(p, "Loss", a->Loss, index, total); PackAddBoolEx(p, "IsIPv6", a->IsIPv6, index, total); PackAddIntEx(p, "UniqueId", a->UniqueId, index, total); PackAddStrEx(p, "RedirectUrl", a->RedirectUrl, index, total); if (a->IsIPv6) { PackAddIp6AddrEx(p, "SrcIpAddress6", &a->SrcIpAddress6, index, total); PackAddIp6AddrEx(p, "SrcSubnetMask6", &a->SrcSubnetMask6, index, total); PackAddIp6AddrEx(p, "DestIpAddress6", &a->DestIpAddress6, index, total); PackAddIp6AddrEx(p, "DestSubnetMask6", &a->DestSubnetMask6, index, total); } else { IPV6_ADDR zero; Zero(&zero, sizeof(zero)); PackAddIp6AddrEx(p, "SrcIpAddress6", &zero, index, total); PackAddIp6AddrEx(p, "SrcSubnetMask6", &zero, index, total); PackAddIp6AddrEx(p, "DestIpAddress6", &zero, index, total); PackAddIp6AddrEx(p, "DestSubnetMask6", &zero, index, total); } } void OutRpcAccess(PACK *p, ACCESS *a) { // Validate arguments if (a == NULL || p == NULL) { return; } OutRpcAccessEx(p, a, 0, 1); } // RPC_ENUM_ACCESS_LIST void InRpcEnumAccessList(RPC_ENUM_ACCESS_LIST *a, PACK *p) { UINT i; // Validate arguments if (a == NULL || p == NULL) { return; } Zero(a, sizeof(RPC_ENUM_ACCESS_LIST)); PackGetStr(p, "HubName", a->HubName, sizeof(a->HubName)); a->NumAccess = PackGetIndexCount(p, "Protocol"); a->Accesses = ZeroMalloc(sizeof(ACCESS) * a->NumAccess); for (i = 0;i < a->NumAccess;i++) { ACCESS *e = &a->Accesses[i]; InRpcAccessEx(e, p, i); } } void OutRpcEnumAccessList(PACK *p, RPC_ENUM_ACCESS_LIST *a) { UINT i; // Validate arguments if (a == NULL || p == NULL) { return; } PackAddStr(p, "HubName", a->HubName); PackSetCurrentJsonGroupName(p, "AccessList"); for (i = 0;i < a->NumAccess;i++) { ACCESS *e = &a->Accesses[i]; OutRpcAccessEx(p, e, i, a->NumAccess); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumAccessList(RPC_ENUM_ACCESS_LIST *a) { // Validate arguments if (a == NULL) { return; } Free(a->Accesses); } // AUTHDATA void *InRpcAuthData(PACK *p, UINT *authtype, char *username) { wchar_t tmp[MAX_SIZE]; AUTHPASSWORD *pw; AUTHUSERCERT *usercert; AUTHROOTCERT *rootcert; AUTHRADIUS *radius; AUTHNT *nt; BUF *b; char plain_pw[MAX_SIZE]; // Validate arguments if (p == NULL) { return NULL; } if (authtype == NULL) { return NULL; } *authtype = PackGetInt(p, "AuthType"); switch (*authtype) { case AUTHTYPE_PASSWORD: pw = ZeroMalloc(sizeof(AUTHPASSWORD)); PackGetData2(p, "HashedKey", pw->HashedKey, sizeof(pw->HashedKey)); PackGetData2(p, "NtLmSecureHash", pw->NtLmSecureHash, sizeof(pw->NtLmSecureHash)); if (PackGetStr(p, "Auth_Password", plain_pw, sizeof(plain_pw))) { if (IsZero(pw->HashedKey, sizeof(pw->HashedKey))) { HashPassword(pw->HashedKey, username, plain_pw); GenerateNtPasswordHash(pw->NtLmSecureHash, plain_pw); } } return pw; case AUTHTYPE_USERCERT: usercert = ZeroMalloc(sizeof(AUTHUSERCERT)); usercert->UserX = PackGetX(p, "UserX"); return usercert; case AUTHTYPE_ROOTCERT: rootcert = ZeroMalloc(sizeof(AUTHROOTCERT)); b = PackGetBuf(p, "Serial"); if (b != NULL) { rootcert->Serial = NewXSerial(b->Buf, b->Size); FreeBuf(b); } if (PackGetUniStr(p, "CommonName", tmp, sizeof(tmp))) { rootcert->CommonName = CopyUniStr(tmp); } return rootcert; case AUTHTYPE_RADIUS: radius = ZeroMalloc(sizeof(AUTHRADIUS)); if (PackGetUniStr(p, "RadiusUsername", tmp, sizeof(tmp))) { radius->RadiusUsername = CopyUniStr(tmp); } else { radius->RadiusUsername = CopyUniStr(L""); } return radius; case AUTHTYPE_NT: nt = ZeroMalloc(sizeof(AUTHNT)); if (PackGetUniStr(p, "NtUsername", tmp, sizeof(tmp))) { nt->NtUsername = CopyUniStr(tmp); } else { nt->NtUsername = CopyUniStr(L""); } return nt; } return NULL; } void OutRpcAuthData(PACK *p, void *authdata, UINT authtype) { AUTHPASSWORD *pw = authdata; AUTHUSERCERT *usercert = authdata; AUTHROOTCERT *rootcert = authdata; AUTHRADIUS *radius = authdata; AUTHNT *nt = authdata; // Validate arguments if (p == NULL) { return; } PackAddInt(p, "AuthType", authtype); switch (authtype) { case AUTHTYPE_PASSWORD: PackAddData(p, "HashedKey", pw->HashedKey, sizeof(pw->HashedKey)); PackAddData(p, "NtLmSecureHash", pw->NtLmSecureHash, sizeof(pw->NtLmSecureHash)); break; case AUTHTYPE_USERCERT: PackAddX(p, "UserX", usercert->UserX); break; case AUTHTYPE_ROOTCERT: if (rootcert->Serial != NULL) { PackAddData(p, "Serial", rootcert->Serial->data, rootcert->Serial->size); } if (rootcert->CommonName != NULL) { PackAddUniStr(p, "CommonName", rootcert->CommonName); } break; case AUTHTYPE_RADIUS: PackAddUniStr(p, "RadiusUsername", radius->RadiusUsername); break; case AUTHTYPE_NT: PackAddUniStr(p, "NtUsername", nt->NtUsername); break; } } void FreeRpcAuthData(void *authdata, UINT authtype) { FreeAuthData(authtype, authdata); } // RPC_SET_USER void InRpcSetUser(RPC_SET_USER *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_SET_USER)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); PackGetStr(p, "GroupName", t->GroupName, sizeof(t->GroupName)); PackGetUniStr(p, "Realname", t->Realname, sizeof(t->Realname)); PackGetUniStr(p, "Note", t->Note, sizeof(t->Note)); t->CreatedTime = PackGetInt64(p, "CreatedTime"); t->UpdatedTime = PackGetInt64(p, "UpdatedTime"); t->ExpireTime = PackGetInt64(p, "ExpireTime"); t->AuthData = InRpcAuthData(p, &t->AuthType, t->Name); t->NumLogin = PackGetInt(p, "NumLogin"); InRpcTraffic(&t->Traffic, p); if (PackGetBool(p, "UsePolicy")) { t->Policy = ZeroMalloc(sizeof(POLICY)); InRpcPolicy(t->Policy, p); } } void OutRpcSetUser(PACK *p, RPC_SET_USER *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddStr(p, "Name", t->Name); PackAddStr(p, "GroupName", t->GroupName); PackAddUniStr(p, "Realname", t->Realname); PackAddUniStr(p, "Note", t->Note); PackAddTime64(p, "CreatedTime", t->CreatedTime); PackAddTime64(p, "UpdatedTime", t->UpdatedTime); PackAddTime64(p, "ExpireTime", t->ExpireTime); OutRpcAuthData(p, t->AuthData, t->AuthType); PackAddInt(p, "NumLogin", t->NumLogin); OutRpcTraffic(p, &t->Traffic); if (t->Policy != NULL) { PackAddBool(p, "UsePolicy", true); OutRpcPolicy(p, t->Policy); } } void FreeRpcSetUser(RPC_SET_USER *t) { // Validate arguments if (t == NULL) { return; } FreeRpcAuthData(t->AuthData, t->AuthType); if (t->Policy) { Free(t->Policy); } } // RPC_ENUM_USER void InRpcEnumUser(RPC_ENUM_USER *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_USER)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->NumUser = PackGetIndexCount(p, "Name"); t->Users = ZeroMalloc(sizeof(RPC_ENUM_USER_ITEM) * t->NumUser); for (i = 0;i < t->NumUser;i++) { RPC_ENUM_USER_ITEM *e = &t->Users[i]; PackGetStrEx(p, "Name", e->Name, sizeof(e->Name), i); PackGetStrEx(p, "GroupName", e->GroupName, sizeof(e->GroupName), i); PackGetUniStrEx(p, "Realname", e->Realname, sizeof(e->Realname), i); PackGetUniStrEx(p, "Note", e->Note, sizeof(e->Note), i); e->AuthType = PackGetIntEx(p, "AuthType", i); e->LastLoginTime = PackGetInt64Ex(p, "LastLoginTime", i); e->NumLogin = PackGetIntEx(p, "NumLogin", i); e->DenyAccess = PackGetBoolEx(p, "DenyAccess", i); e->IsTrafficFilled = PackGetBoolEx(p, "IsTrafficFilled", i); InRpcTrafficEx(&e->Traffic, p, i); e->IsExpiresFilled = PackGetBoolEx(p, "IsExpiresFilled", i); e->Expires = PackGetInt64Ex(p, "Expires", i); } } void OutRpcEnumUser(PACK *p, RPC_ENUM_USER *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackSetCurrentJsonGroupName(p, "UserList"); for (i = 0;i < t->NumUser;i++) { RPC_ENUM_USER_ITEM *e = &t->Users[i]; PackAddStrEx(p, "Name", e->Name, i, t->NumUser); PackAddStrEx(p, "GroupName", e->GroupName, i, t->NumUser); PackAddUniStrEx(p, "Realname", e->Realname, i, t->NumUser); PackAddUniStrEx(p, "Note", e->Note, i, t->NumUser); PackAddIntEx(p, "AuthType", e->AuthType, i, t->NumUser); PackAddTime64Ex(p, "LastLoginTime", e->LastLoginTime, i, t->NumUser); PackAddIntEx(p, "NumLogin", e->NumLogin, i, t->NumUser); PackAddBoolEx(p, "DenyAccess", e->DenyAccess, i, t->NumUser); PackAddBoolEx(p, "IsTrafficFilled", e->IsTrafficFilled, i, t->NumUser); OutRpcTrafficEx(&e->Traffic, p, i, t->NumUser); PackAddBoolEx(p, "IsExpiresFilled", e->IsExpiresFilled, i, t->NumUser); PackAddTime64Ex(p, "Expires", e->Expires, i, t->NumUser); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumUser(RPC_ENUM_USER *t) { // Validate arguments if (t == NULL) { return; } Free(t->Users); } // RPC_SET_GROUP void InRpcSetGroup(RPC_SET_GROUP *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_SET_GROUP)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); PackGetUniStr(p, "Realname", t->Realname, sizeof(t->Realname)); PackGetUniStr(p, "Note", t->Note, sizeof(t->Note)); InRpcTraffic(&t->Traffic, p); if (PackGetBool(p, "UsePolicy")) { t->Policy = ZeroMalloc(sizeof(POLICY)); InRpcPolicy(t->Policy, p); } } void OutRpcSetGroup(PACK *p, RPC_SET_GROUP *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddStr(p, "Name", t->Name); PackAddUniStr(p, "Realname", t->Realname); PackAddUniStr(p, "Note", t->Note); OutRpcTraffic(p, &t->Traffic); if (t->Policy != NULL) { PackAddBool(p, "UsePolicy", true); OutRpcPolicy(p, t->Policy); } } void FreeRpcSetGroup(RPC_SET_GROUP *t) { Free(t->Policy); } // RPC_ENUM_GROUP void InRpcEnumGroup(RPC_ENUM_GROUP *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_GROUP)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->NumGroup = PackGetIndexCount(p, "Name"); t->Groups = ZeroMalloc(sizeof(RPC_ENUM_GROUP_ITEM) * t->NumGroup); for (i = 0;i < t->NumGroup;i++) { RPC_ENUM_GROUP_ITEM *e = &t->Groups[i]; PackGetStrEx(p, "Name", e->Name, sizeof(e->Name), i); PackGetUniStrEx(p, "Realname", e->Realname, sizeof(e->Realname), i); PackGetUniStrEx(p, "Note", e->Note, sizeof(e->Note), i); e->NumUsers = PackGetIntEx(p, "NumUsers", i); e->DenyAccess = PackGetBoolEx(p, "DenyAccess", i); } } void OutRpcEnumGroup(PACK *p, RPC_ENUM_GROUP *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackSetCurrentJsonGroupName(p, "GroupList"); for (i = 0;i < t->NumGroup;i++) { RPC_ENUM_GROUP_ITEM *e = &t->Groups[i]; PackAddStrEx(p, "Name", e->Name, i, t->NumGroup); PackAddUniStrEx(p, "Realname", e->Realname, i, t->NumGroup); PackAddUniStrEx(p, "Note", e->Note, i, t->NumGroup); PackAddIntEx(p, "NumUsers", e->NumUsers, i, t->NumGroup); PackAddBoolEx(p, "DenyAccess", e->DenyAccess, i, t->NumGroup); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumGroup(RPC_ENUM_GROUP *t) { // Validate arguments if (t == NULL) { return; } Free(t->Groups); } // RPC_DELETE_USER void InRpcDeleteUser(RPC_DELETE_USER *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_DELETE_USER)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); } void OutRpcDeleteUser(PACK *p, RPC_DELETE_USER *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddStr(p, "Name", t->Name); } // RPC_ENUM_SESSION void InRpcEnumSession(RPC_ENUM_SESSION *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_SESSION)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->NumSession = PackGetIndexCount(p, "Name"); t->Sessions = ZeroMalloc(sizeof(RPC_ENUM_SESSION_ITEM) * t->NumSession); for (i = 0;i < t->NumSession;i++) { RPC_ENUM_SESSION_ITEM *e = &t->Sessions[i]; PackGetStrEx(p, "Name", e->Name, sizeof(e->Name), i); PackGetStrEx(p, "Username", e->Username, sizeof(e->Username), i); e->Ip = PackGetIntEx(p, "Ip", i); PackGetIpEx(p, "ClientIP", &e->ClientIP, i); PackGetStrEx(p, "Hostname", e->Hostname, sizeof(e->Hostname), i); e->MaxNumTcp = PackGetIntEx(p, "MaxNumTcp", i); e->CurrentNumTcp = PackGetIntEx(p, "CurrentNumTcp", i); e->PacketSize = PackGetInt64Ex(p, "PacketSize", i); e->PacketNum = PackGetInt64Ex(p, "PacketNum", i); e->RemoteSession = PackGetBoolEx(p, "RemoteSession", i); e->LinkMode = PackGetBoolEx(p, "LinkMode", i); e->SecureNATMode = PackGetBoolEx(p, "SecureNATMode", i); e->BridgeMode = PackGetBoolEx(p, "BridgeMode", i); e->Layer3Mode = PackGetBoolEx(p, "Layer3Mode", i); e->Client_BridgeMode = PackGetBoolEx(p, "Client_BridgeMode", i); e->Client_MonitorMode = PackGetBoolEx(p, "Client_MonitorMode", i); PackGetStrEx(p, "RemoteHostname", e->RemoteHostname, sizeof(e->RemoteHostname), i); e->VLanId = PackGetIntEx(p, "VLanId", i); PackGetDataEx2(p, "UniqueId", e->UniqueId, sizeof(e->UniqueId), i); e->IsDormantEnabled = PackGetBoolEx(p, "IsDormantEnabled", i); e->IsDormant = PackGetBoolEx(p, "IsDormant", i); e->LastCommDormant = PackGetInt64Ex(p, "LastCommDormant", i); e->CreatedTime = PackGetInt64Ex(p, "CreatedTime", i); e->LastCommTime = PackGetInt64Ex(p, "LastCommTime", i); } } void OutRpcEnumSession(PACK *p, RPC_ENUM_SESSION *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackSetCurrentJsonGroupName(p, "SessionList"); for (i = 0;i < t->NumSession;i++) { RPC_ENUM_SESSION_ITEM *e = &t->Sessions[i]; PackAddStrEx(p, "Name", e->Name, i, t->NumSession); PackAddStrEx(p, "Username", e->Username, i, t->NumSession); PackAddIp32Ex(p, "Ip", e->Ip, i, t->NumSession); PackAddIpEx(p, "ClientIP", &e->ClientIP, i, t->NumSession); PackAddStrEx(p, "Hostname", e->Hostname, i, t->NumSession); PackAddIntEx(p, "MaxNumTcp", e->MaxNumTcp, i, t->NumSession); PackAddIntEx(p, "CurrentNumTcp", e->CurrentNumTcp, i, t->NumSession); PackAddInt64Ex(p, "PacketSize", e->PacketSize, i, t->NumSession); PackAddInt64Ex(p, "PacketNum", e->PacketNum, i, t->NumSession); PackAddBoolEx(p, "RemoteSession", e->RemoteSession, i, t->NumSession); PackAddStrEx(p, "RemoteHostname", e->RemoteHostname, i, t->NumSession); PackAddBoolEx(p, "LinkMode", e->LinkMode, i, t->NumSession); PackAddBoolEx(p, "SecureNATMode", e->SecureNATMode, i, t->NumSession); PackAddBoolEx(p, "BridgeMode", e->BridgeMode, i, t->NumSession); PackAddBoolEx(p, "Layer3Mode", e->Layer3Mode, i, t->NumSession); PackAddBoolEx(p, "Client_BridgeMode", e->Client_BridgeMode, i, t->NumSession); PackAddBoolEx(p, "Client_MonitorMode", e->Client_MonitorMode, i, t->NumSession); PackAddIntEx(p, "VLanId", e->VLanId, i, t->NumSession); PackAddDataEx(p, "UniqueId", e->UniqueId, sizeof(e->UniqueId), i, t->NumSession); PackAddBoolEx(p, "IsDormantEnabled", e->IsDormantEnabled, i, t->NumSession); PackAddBoolEx(p, "IsDormant", e->IsDormant, i, t->NumSession); PackAddTime64Ex(p, "LastCommDormant", e->LastCommDormant, i, t->NumSession); PackAddTime64Ex(p, "CreatedTime", e->CreatedTime, i, t->NumSession); PackAddTime64Ex(p, "LastCommTime", e->LastCommTime, i, t->NumSession); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumSession(RPC_ENUM_SESSION *t) { // Validate arguments if (t == NULL) { return; } Free(t->Sessions); } // RPC_KEY_PAIR void InRpcKeyPair(RPC_KEY_PAIR *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } t->Cert = PackGetX(p, "Cert"); t->Key = PackGetK(p, "Key"); t->Flag1 = PackGetInt(p, "Flag1"); } void OutRpcKeyPair(PACK *p, RPC_KEY_PAIR *t) { // Validate arguments if (p == NULL || t == NULL) { return; } PackAddX(p, "Cert", t->Cert); PackAddK(p, "Key", t->Key); PackAddInt(p, "Flag1", t->Flag1); } void FreeRpcKeyPair(RPC_KEY_PAIR *t) { FreeX(t->Cert); FreeK(t->Key); } // NODE_INFO void InRpcNodeInfo(NODE_INFO *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(NODE_INFO)); PackGetStr(p, "ClientProductName", t->ClientProductName, sizeof(t->ClientProductName)); PackGetStr(p, "ServerProductName", t->ServerProductName, sizeof(t->ServerProductName)); PackGetStr(p, "ClientOsName", t->ClientOsName, sizeof(t->ClientOsName)); PackGetStr(p, "ClientOsVer", t->ClientOsVer, sizeof(t->ClientOsVer)); PackGetStr(p, "ClientOsProductId", t->ClientOsProductId, sizeof(t->ClientOsProductId)); PackGetStr(p, "ClientHostname", t->ClientHostname, sizeof(t->ClientHostname)); PackGetStr(p, "ServerHostname", t->ServerHostname, sizeof(t->ServerHostname)); PackGetStr(p, "ProxyHostname", t->ProxyHostname, sizeof(t->ProxyHostname)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); PackGetData2(p, "UniqueId", t->UniqueId, sizeof(t->UniqueId)); t->ClientProductVer = PackGetInt(p, "ClientProductVer"); t->ClientProductBuild = PackGetInt(p, "ClientProductBuild"); t->ServerProductVer = PackGetInt(p, "ServerProductVer"); t->ServerProductBuild = PackGetInt(p, "ServerProductBuild"); t->ClientIpAddress = PackGetIp32(p, "ClientIpAddress"); PackGetData2(p, "ClientIpAddress6", t->ClientIpAddress6, sizeof(t->ClientIpAddress6)); t->ClientPort = PackGetInt(p, "ClientPort"); t->ServerIpAddress = PackGetIp32(p, "ServerIpAddress"); PackGetData2(p, "ServerIpAddress6", t->ServerIpAddress6, sizeof(t->ServerIpAddress6)); t->ServerPort = PackGetInt(p, "ServerPort2"); t->ProxyIpAddress = PackGetIp32(p, "ProxyIpAddress"); PackGetData2(p, "ProxyIpAddress6", t->ProxyIpAddress6, sizeof(t->ProxyIpAddress6)); t->ProxyPort = PackGetInt(p, "ProxyPort"); } void OutRpcNodeInfo(PACK *p, NODE_INFO *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "ClientProductName", t->ClientProductName); PackAddStr(p, "ServerProductName", t->ServerProductName); PackAddStr(p, "ClientOsName", t->ClientOsName); PackAddStr(p, "ClientOsVer", t->ClientOsVer); PackAddStr(p, "ClientOsProductId", t->ClientOsProductId); PackAddStr(p, "ClientHostname", t->ClientHostname); PackAddStr(p, "ServerHostname", t->ServerHostname); PackAddStr(p, "ProxyHostname", t->ProxyHostname); PackAddStr(p, "HubName", t->HubName); PackAddData(p, "UniqueId", t->UniqueId, sizeof(t->UniqueId)); PackAddInt(p, "ClientProductVer", t->ClientProductVer); PackAddInt(p, "ClientProductBuild", t->ClientProductBuild); PackAddInt(p, "ServerProductVer", t->ServerProductVer); PackAddInt(p, "ServerProductBuild", t->ServerProductBuild); PackAddIp32(p, "ClientIpAddress", t->ClientIpAddress); PackAddData(p, "ClientIpAddress6", t->ClientIpAddress6, sizeof(t->ClientIpAddress6)); PackAddInt(p, "ClientPort", t->ClientPort); PackAddIp32(p, "ServerIpAddress", t->ServerIpAddress); PackAddData(p, "ServerIpAddress6", t->ServerIpAddress6, sizeof(t->ServerIpAddress6)); PackAddInt(p, "ServerPort2", t->ServerPort); PackAddIp32(p, "ProxyIpAddress", t->ProxyIpAddress); PackAddData(p, "ProxyIpAddress6", t->ProxyIpAddress6, sizeof(t->ProxyIpAddress6)); PackAddInt(p, "ProxyPort", t->ProxyPort); } // RPC_SESSION_STATUS void InRpcSessionStatus(RPC_SESSION_STATUS *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_SESSION_STATUS)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); PackGetStr(p, "Username", t->Username, sizeof(t->Username)); PackGetStr(p, "GroupName", t->GroupName, sizeof(t->GroupName)); PackGetStr(p, "RealUsername", t->RealUsername, sizeof(t->RealUsername)); t->ClientIp = PackGetIp32(p, "SessionStatus_ClientIp"); PackGetData2(p, "SessionStatus_ClientIp6", t->ClientIp6, sizeof(t->ClientIp6)); PackGetStr(p, "SessionStatus_ClientHostName", t->ClientHostName, sizeof(t->ClientHostName)); PackGetIp(p, "Client_Ip_Address", &t->ClientIpAddress); InRpcClientGetConnectionStatus(&t->Status, p); InRpcNodeInfo(&t->NodeInfo, p); } void OutRpcSessionStatus(PACK *p, RPC_SESSION_STATUS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddStr(p, "Name", t->Name); PackAddStr(p, "Username", t->Username); PackAddStr(p, "GroupName", t->GroupName); PackAddStr(p, "RealUsername", t->RealUsername); PackAddIp32(p, "SessionStatus_ClientIp", t->ClientIp); PackAddData(p, "SessionStatus_ClientIp6", t->ClientIp6, sizeof(t->ClientIp6)); PackAddStr(p, "SessionStatus_ClientHostName", t->ClientHostName); PackAddIp(p, "Client_Ip_Address", &t->ClientIpAddress); OutRpcClientGetConnectionStatus(p, &t->Status); OutRpcNodeInfo(p, &t->NodeInfo); } void FreeRpcSessionStatus(RPC_SESSION_STATUS *t) { // Validate arguments if (t == NULL) { return; } CiFreeClientGetConnectionStatus(&t->Status); } // RPC_DELETE_SESSION void InRpcDeleteSession(RPC_DELETE_SESSION *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_DELETE_SESSION)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); PackGetStr(p, "Name", t->Name, sizeof(t->Name)); } void OutRpcDeleteSession(PACK *p, RPC_DELETE_SESSION *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddStr(p, "Name", t->Name); } // RPC_ENUM_MAC_TABLE void InRpcEnumMacTable(RPC_ENUM_MAC_TABLE *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_MAC_TABLE)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->NumMacTable = PackGetIndexCount(p, "SessionName"); t->MacTables = ZeroMalloc(sizeof(RPC_ENUM_MAC_TABLE_ITEM) * t->NumMacTable); for (i = 0;i < t->NumMacTable;i++) { RPC_ENUM_MAC_TABLE_ITEM *e = &t->MacTables[i]; e->Key = PackGetIntEx(p, "Key", i); PackGetStrEx(p, "SessionName", e->SessionName, sizeof(e->SessionName), i); PackGetDataEx2(p, "MacAddress", e->MacAddress, sizeof(e->MacAddress), i); e->VlanId = PackGetIntEx(p, "VlanId", i); e->CreatedTime = PackGetInt64Ex(p, "CreatedTime", i); e->UpdatedTime = PackGetInt64Ex(p, "UpdatedTime", i); e->RemoteItem = PackGetBoolEx(p, "RemoteItem", i); PackGetStrEx(p, "RemoteHostname", e->RemoteHostname, sizeof(e->RemoteHostname), i); } } void OutRpcEnumMacTable(PACK *p, RPC_ENUM_MAC_TABLE *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackSetCurrentJsonGroupName(p, "MacTable"); for (i = 0;i < t->NumMacTable;i++) { RPC_ENUM_MAC_TABLE_ITEM *e = &t->MacTables[i]; PackAddIntEx(p, "Key", e->Key, i, t->NumMacTable); PackAddStrEx(p, "SessionName", e->SessionName, i, t->NumMacTable); PackAddDataEx(p, "MacAddress", e->MacAddress, sizeof(e->MacAddress), i, t->NumMacTable); PackAddIntEx(p, "VlanId", e->VlanId, i, t->NumMacTable); PackAddTime64Ex(p, "CreatedTime", e->CreatedTime, i, t->NumMacTable); PackAddTime64Ex(p, "UpdatedTime", e->UpdatedTime, i, t->NumMacTable); PackAddBoolEx(p, "RemoteItem", e->RemoteItem, i, t->NumMacTable); PackAddStrEx(p, "RemoteHostname", e->RemoteHostname, i, t->NumMacTable); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumMacTable(RPC_ENUM_MAC_TABLE *t) { // Validate arguments if (t == NULL) { return; } Free(t->MacTables); } // RPC_ENUM_IP_TABLE void InRpcEnumIpTable(RPC_ENUM_IP_TABLE *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_IP_TABLE)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->NumIpTable = PackGetIndexCount(p, "SessionName"); t->IpTables = ZeroMalloc(sizeof(RPC_ENUM_IP_TABLE_ITEM) * t->NumIpTable); for (i = 0;i < t->NumIpTable;i++) { RPC_ENUM_IP_TABLE_ITEM *e = &t->IpTables[i]; e->Key = PackGetIntEx(p, "Key", i); PackGetStrEx(p, "SessionName", e->SessionName, sizeof(e->SessionName), i); e->Ip = PackGetIp32Ex(p, "Ip", i); if (PackGetIpEx(p, "IpV6", &e->IpV6, i) == false) { UINTToIP(&e->IpV6, e->Ip); } PackGetIp(p, "IpAddress", &e->IpAddress); e->DhcpAllocated = PackGetBoolEx(p, "DhcpAllocated", i); e->CreatedTime = PackGetInt64Ex(p, "CreatedTime", i); e->UpdatedTime = PackGetInt64Ex(p, "UpdatedTime", i); e->RemoteItem = PackGetBoolEx(p, "RemoteItem", i); PackGetStrEx(p, "RemoteHostname", e->RemoteHostname, sizeof(e->RemoteHostname), i); } } void OutRpcEnumIpTable(PACK *p, RPC_ENUM_IP_TABLE *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackSetCurrentJsonGroupName(p, "IpTable"); for (i = 0;i < t->NumIpTable;i++) { RPC_ENUM_IP_TABLE_ITEM *e = &t->IpTables[i]; PackAddIntEx(p, "Key", e->Key, i, t->NumIpTable); PackAddStrEx(p, "SessionName", e->SessionName, i, t->NumIpTable); PackAddIp32Ex(p, "Ip", e->Ip, i, t->NumIpTable); PackAddIpEx(p, "IpV6", &e->IpV6, i, t->NumIpTable); PackAddIpEx(p, "IpAddress", &e->IpAddress, i, t->NumIpTable); PackAddBoolEx(p, "DhcpAllocated", e->DhcpAllocated, i, t->NumIpTable); PackAddTime64Ex(p, "CreatedTime", e->CreatedTime, i, t->NumIpTable); PackAddTime64Ex(p, "UpdatedTime", e->UpdatedTime, i, t->NumIpTable); PackAddBoolEx(p, "RemoteItem", e->RemoteItem, i, t->NumIpTable); PackAddStrEx(p, "RemoteHostname", e->RemoteHostname, i, t->NumIpTable); } PackSetCurrentJsonGroupName(p, NULL); } void FreeRpcEnumIpTable(RPC_ENUM_IP_TABLE *t) { // Validate arguments if (t == NULL) { return; } Free(t->IpTables); } // RPC_DELETE_TABLE void InRpcDeleteTable(RPC_DELETE_TABLE *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_DELETE_TABLE)); PackGetStr(p, "HubName", t->HubName, sizeof(t->HubName)); t->Key = PackGetInt(p, "Key"); } void OutRpcDeleteTable(PACK *p, RPC_DELETE_TABLE *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "HubName", t->HubName); PackAddInt(p, "Key", t->Key); } // Adjoin RPC_ENUM_IP_TABLE void AdjoinRpcEnumIpTable(RPC_ENUM_IP_TABLE *dest, RPC_ENUM_IP_TABLE *src) { UINT old_num; UINT i, n; if (dest == NULL || src == NULL) { return; } if (src->NumIpTable == 0) { return; } old_num = dest->NumIpTable; dest->NumIpTable += src->NumIpTable; dest->IpTables = ReAlloc(dest->IpTables, sizeof(RPC_ENUM_IP_TABLE_ITEM) * dest->NumIpTable); n = 0; for (i = old_num;i < dest->NumIpTable;i++) { Copy(&dest->IpTables[i], &src->IpTables[n++], sizeof(RPC_ENUM_IP_TABLE_ITEM)); } } // Adjoin RPC_ENUM_MAC_TABLE void AdjoinRpcEnumMacTable(RPC_ENUM_MAC_TABLE *dest, RPC_ENUM_MAC_TABLE *src) { UINT old_num; UINT i, n; if (dest == NULL || src == NULL) { return; } if (src->NumMacTable == 0) { return; } old_num = dest->NumMacTable; dest->NumMacTable += src->NumMacTable; dest->MacTables = ReAlloc(dest->MacTables, sizeof(RPC_ENUM_MAC_TABLE_ITEM) * dest->NumMacTable); n = 0; for (i = old_num;i < dest->NumMacTable;i++) { Copy(&dest->MacTables[i], &src->MacTables[n++], sizeof(RPC_ENUM_MAC_TABLE_ITEM)); } } // Adjoin RPC_ENUM_SESSION void AdjoinRpcEnumSession(RPC_ENUM_SESSION *dest, RPC_ENUM_SESSION *src) { UINT old_num; UINT i, n; if (dest == NULL || src == NULL) { return; } if (src->NumSession == 0) { return; } old_num = dest->NumSession; dest->NumSession += src->NumSession; dest->Sessions = ReAlloc(dest->Sessions, sizeof(RPC_ENUM_SESSION_ITEM) * dest->NumSession); n = 0; for (i = old_num;i < dest->NumSession;i++) { Copy(&dest->Sessions[i], &src->Sessions[n++], sizeof(RPC_ENUM_SESSION_ITEM)); } } // RPC_KEEP void InRpcKeep(RPC_KEEP *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_KEEP)); t->UseKeepConnect = PackGetBool(p, "UseKeepConnect"); PackGetStr(p, "KeepConnectHost", t->KeepConnectHost, sizeof(t->KeepConnectHost)); t->KeepConnectPort = PackGetInt(p, "KeepConnectPort"); t->KeepConnectProtocol = PackGetInt(p, "KeepConnectProtocol"); t->KeepConnectInterval = PackGetInt(p, "KeepConnectInterval"); } void OutRpcKeep(PACK *p, RPC_KEEP *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddBool(p, "UseKeepConnect", t->UseKeepConnect); PackAddStr(p, "KeepConnectHost", t->KeepConnectHost); PackAddInt(p, "KeepConnectPort", t->KeepConnectPort); PackAddInt(p, "KeepConnectProtocol", t->KeepConnectProtocol); PackAddInt(p, "KeepConnectInterval", t->KeepConnectInterval); } // test RPC function UINT StTest(ADMIN *a, RPC_TEST *t) { Format(t->StrValue, sizeof(t->StrValue), "%u", t->IntValue); return ERR_NO_ERROR; } // RPC_TEST void InRpcTest(RPC_TEST *t, PACK *p) { Zero(t, sizeof(RPC_TEST)); t->IntValue = PackGetInt(p, "IntValue"); t->Int64Value = PackGetInt64(p, "Int64Value"); PackGetStr(p, "StrValue", t->StrValue, sizeof(t->StrValue)); PackGetUniStr(p, "UniStrValue", t->UniStrValue, sizeof(t->UniStrValue)); } void OutRpcTest(PACK *p, RPC_TEST *t) { PackAddInt(p, "IntValue", t->IntValue); PackAddInt64(p, "Int64Value", t->Int64Value); PackAddStr(p, "StrValue", t->StrValue); PackAddUniStr(p, "UniStrValue", t->UniStrValue); } void FreeRpcTest(RPC_TEST *t) { } // Admin RPC call PACK *AdminCall(RPC *rpc, char *function_name, PACK *p) { // Validate arguments if (rpc == NULL || function_name == NULL) { return NULL; } if (p == NULL) { p = NewPack(); } // Debug("Admin RPC Call: %s\n", function_name); return RpcCall(rpc, function_name, p); } // Check whether the source IP address is permitted to admin connection bool CheckAdminSourceAddress(SOCK *sock, char *hubname) { BUF *b; char *s; bool ok = false; // Validate arguments if (sock == NULL) { return false; } b = ReadDump(ADMINIP_TXT); if (b == NULL) { return true; } while (true) { UINT i; TOKEN_LIST *t; IP ip; IP mask; IP ip1; IP ip2; s = CfgReadNextLine(b); if (s == NULL) { break; } Trim(s); i = SearchStrEx(s, "//", 0, false); if (i != INFINITE) { s[i] = 0; } i = SearchStrEx(s, "#", 0, false); if (i != INFINITE) { s[i] = 0; } Trim(s); t = ParseToken(s, " \t"); if (t != NULL) { if (t->NumTokens >= 1) { if (t->NumTokens == 1 || StrCmpi(hubname, t->Token[1]) == 0) { if (ParseIpAndMask46(t->Token[0], &ip, &mask)) { if (IsIP4(&sock->RemoteIP) && IsIP4(&ip)) { IPAnd4(&ip1, &sock->RemoteIP, &mask); IPAnd4(&ip2, &ip, &mask); if (CmpIpAddr(&ip1, &ip2) == 0) { ok = true; } } else if (IsIP6(&sock->RemoteIP) && IsIP6(&ip)) { IPAnd6(&ip1, &sock->RemoteIP, &mask); IPAnd6(&ip2, &ip, &mask); if (CmpIpAddr(&ip1, &ip2) == 0) { ok = true; } } } else if (StrToIP(&ip, t->Token[0])) { if (CmpIpAddr(&sock->RemoteIP, &ip) == 0) { ok = true; } } if (StrCmpi(t->Token[0], "*") == 0) { ok = true; } } } FreeToken(t); } Free(s); } FreeBuf(b); return ok; } // Accept admin connection UINT AdminAccept(CONNECTION *c, PACK *p) { ADMIN *a; UCHAR secure_password[SHA1_SIZE]; UCHAR null_password[SHA1_SIZE]; UCHAR secure_null_password[SHA1_SIZE]; char hubname[MAX_HUBNAME_LEN + 1]; CEDAR *cedar; SOCK *sock; RPC *rpc; UINT err; SERVER *server = NULL; RPC_WINVER ver; bool accept_empty_password; bool is_empty_password = false; // Validate arguments if (c == NULL || p == NULL) { return ERR_INTERNAL_ERROR; } cedar = c->Cedar; sock = c->FirstSock; if (cedar != NULL) { server = cedar->Server; } accept_empty_password = PackGetBool(p, "accept_empty_password"); // Get client OS version InRpcWinVer(&ver, p); // Get hub name if (PackGetStr(p, "hubname", hubname, sizeof(hubname)) == false) { // without hub name StrCpy(hubname, sizeof(hubname), ""); } // Check source IP address if (CheckAdminSourceAddress(sock, hubname) == false) { SLog(c->Cedar, "LA_IP_DENIED", c->Name); return ERR_IP_ADDRESS_DENIED; } // Get password information if (PackGetDataSize(p, "secure_password") != SHA1_SIZE) { // Malformed information return ERR_PROTOCOL_ERROR; } PackGetData(p, "secure_password", secure_password); if (StrLen(hubname) == 0) { // Server admin mode SLog(c->Cedar, "LA_CONNECTED_1", c->Name); } else { // Hub admin mode if (server != NULL && server->ServerType == SERVER_TYPE_FARM_MEMBER) { // Connection with hub admin mode to cluster member is not permitted return ERR_NOT_ENOUGH_RIGHT; } SLog(c->Cedar, "LA_CONNECTED_2", c->Name, hubname); } // Check password err = AdminCheckPassword(cedar, c->Random, secure_password, StrLen(hubname) != 0 ? hubname : NULL, accept_empty_password, &is_empty_password); if (err != ERR_NO_ERROR) { // Error occured SLog(c->Cedar, "LA_ERROR", c->Name, GetUniErrorStr(err), err); return err; } SLog(c->Cedar, "LA_OK", c->Name); HashAdminPassword(null_password, ""); SecurePassword(secure_null_password, null_password, c->Random); if (Cmp(secure_null_password, secure_password, SHA1_SIZE) == 0) { if (sock->RemoteIP.addr[0] != 127) { // The client tried to use blank password for hub admin mode from remote if (StrLen(hubname) != 0) { return ERR_NULL_PASSWORD_LOCAL_ONLY; } } } // Reply success result p = NewPack(); if (accept_empty_password && is_empty_password) { PackAddBool(p, "empty_password", true); } HttpServerSend(sock, p); FreePack(p); // Construct ADMIN object a = ZeroMalloc(sizeof(ADMIN)); a->ServerAdmin = ((StrLen(hubname) == 0) ? true : false); a->HubName = (StrLen(hubname) != 0 ? hubname : NULL); a->Server = c->Cedar->Server; a->ClientBuild = c->ClientBuild; Copy(&a->ClientWinVer, &ver, sizeof(RPC_WINVER)); // Timeout setting SetTimeout(sock, INFINITE); // RPC Server rpc = StartRpcServer(sock, AdminDispatch, a); a->Rpc = rpc; SLog(c->Cedar, "LA_RPC_START", c->Name, rpc->Name); RpcServer(rpc); RpcFree(rpc); if (a->LogFileList != NULL) { // Free cached log file list, if it exists FreeEnumLogFile(a->LogFileList); } // Free ADMIN object Free(a); return ERR_NO_ERROR; } // Check for admin password UINT AdminCheckPassword(CEDAR *c, void *random, void *secure_password, char *hubname, bool accept_empty_password, bool *is_password_empty) { UCHAR check[SHA1_SIZE]; bool b_dummy; // Validate arguments if (c == NULL || random == NULL || secure_password == NULL) { return ERR_INTERNAL_ERROR; } if (is_password_empty == NULL) { is_password_empty = &b_dummy; } *is_password_empty = false; if (hubname == NULL || StrLen(hubname) == 0) { // Server admin mode Lock(c->lock); { if (accept_empty_password && SiIsEmptyPassword(c->Server->HashedPassword)) { // blank password *is_password_empty = true; } SecurePassword(check, c->Server->HashedPassword, random); } Unlock(c->lock); if (Cmp(check, secure_password, SHA1_SIZE) != 0) { // Password incorrect return ERR_ACCESS_DENIED; } } else { HUB *h; #if 0 if (c->Server->ServerType == SERVER_TYPE_FARM_MEMBER) { // In cluster member mode, hub admin mode is disabled return ERR_FARM_MEMBER_HUB_ADMIN; } #endif // Hub admin mode LockHubList(c); { h = GetHub(c, hubname); } UnlockHubList(c); if (h == NULL) { // Specified hub is not found return ERR_HUB_NOT_FOUND; } Lock(h->lock); { if (accept_empty_password && SiIsEmptyPassword(h->HashedPassword)) { // User specified blank password *is_password_empty = true; } SecurePassword(check, h->HashedPassword, random); } Unlock(h->lock); ReleaseHub(h); if (Cmp(check, secure_password, SHA1_SIZE) != 0) { // Incorrect password return ERR_ACCESS_DENIED; } } return ERR_NO_ERROR; } // Hash admin password void HashAdminPassword(void *hash, char *password) { // Validate arguments if (hash == NULL || password == NULL) { return; } Sha0(hash, password, StrLen(password)); } // Disconnect admin connection void AdminDisconnect(RPC *rpc) { SESSION *s; SOCK *sock; // Validate arguments if (rpc == NULL) { return; } s = (SESSION *)rpc->Param; sock = rpc->Sock; EndRpc(rpc); Disconnect(sock); ReleaseSession(s); } // Admin connection main routine SESSION *AdminConnectMain(CEDAR *cedar, CLIENT_OPTION *o, char *hubname, void *hashed_password, UINT *err, char *client_name, void *hWnd, bool *empty_password) { UCHAR secure_password[SHA1_SIZE]; SESSION *s; SOCK *sock; PACK *p; RPC_WINVER ver; // connect s = NewRpcSessionEx2(cedar, o, err, client_name, hWnd); if (s == NULL) { return NULL; } // Get socket sock = s->Connection->FirstSock; // Generate connect method p = NewPack(); PackAddClientVersion(p, s->Connection); PackAddStr(p, "method", "admin"); PackAddBool(p, "accept_empty_password", true); // Windows version on client GetWinVer(&ver); OutRpcWinVer(p, &ver); // Secure Password SecurePassword(secure_password, hashed_password, s->Connection->Random); PackAddData(p, "secure_password", secure_password, sizeof(secure_password)); // HUB name if (hubname != NULL) { PackAddStr(p, "hubname", hubname); } if (HttpClientSend(sock, p) == false) { // disconnect FreePack(p); ReleaseSession(s); *err = ERR_DISCONNECTED; return NULL; } FreePack(p); p = HttpClientRecv(sock); if (p == NULL) { // disconnect ReleaseSession(s); *err = ERR_DISCONNECTED; return NULL; } if (GetErrorFromPack(p) != 0) { // error ReleaseSession(s); *err = GetErrorFromPack(p); FreePack(p); return NULL; } if (empty_password != NULL) { *empty_password = PackGetBool(p, "empty_password"); } FreePack(p); return s; } // Admin connection RPC *AdminConnectEx(CEDAR *cedar, CLIENT_OPTION *o, char *hubname, void *hashed_password, UINT *err, char *client_name) { return AdminConnectEx2(cedar, o, hubname, hashed_password, err, client_name, NULL); } RPC *AdminConnectEx2(CEDAR *cedar, CLIENT_OPTION *o, char *hubname, void *hashed_password, UINT *err, char *client_name, void *hWnd) { SESSION *s; SOCK *sock; RPC *rpc; UCHAR hashed_password_2[SHA1_SIZE]; bool empty_password = false; // Validate arguments if (cedar == NULL || o == NULL || hashed_password == NULL || err == NULL) { return NULL; } if (client_name == NULL) { client_name = CEDAR_MANAGER_STR; } Copy(hashed_password_2, hashed_password, SHA1_SIZE); s = AdminConnectMain(cedar, o, hubname, hashed_password_2, err, client_name, hWnd, &empty_password); if (s == NULL) { return NULL; } sock = s->Connection->FirstSock; // RPC start rpc = StartRpcClient(sock, s); rpc->IsVpnServer = true; Copy(&rpc->VpnServerClientOption, o, sizeof(CLIENT_OPTION)); StrCpy(rpc->VpnServerHubName, sizeof(rpc->VpnServerHubName), hubname); StrCpy(rpc->VpnServerClientName, sizeof(rpc->VpnServerClientName), client_name); if (empty_password == false) { Copy(rpc->VpnServerHashedPassword, hashed_password_2, SHA1_SIZE); } else { HashAdminPassword(rpc->VpnServerHashedPassword, ""); } // timeout setting SetTimeout(sock, INFINITE); return rpc; } // Reconnect admin connection UINT AdminReconnect(RPC *rpc) { SESSION *s; SOCK *sock; CEDAR *cedar; UINT err; bool empty_password = false; // Validate arguments if (rpc == NULL || rpc->IsVpnServer == false) { return ERR_INTERNAL_ERROR; } s = (SESSION *)rpc->Param; cedar = s->Cedar; AddRef(cedar->ref); sock = rpc->Sock; Disconnect(sock); ReleaseSock(sock); ReleaseSession(s); rpc->Param = NULL; rpc->Sock = NULL; s = AdminConnectMain(cedar, &rpc->VpnServerClientOption, rpc->VpnServerHubName, rpc->VpnServerHashedPassword, &err, rpc->VpnServerClientName, NULL, &empty_password); ReleaseCedar(cedar); if (s == NULL) { return err; } if (empty_password) { HashAdminPassword(rpc->VpnServerHashedPassword, ""); } rpc->Param = s; rpc->Sock = s->Connection->FirstSock; AddRef(rpc->Sock->ref); return ERR_NO_ERROR; } // Identify blank password bool SiIsEmptyPassword(void *hash_password) { UCHAR hash[SHA1_SIZE]; // Validate arguments if (hash_password == NULL) { return false; } Sha0(hash, "", 0); if (Cmp(hash_password, hash, SHA1_SIZE) == 0) { return true; } return false; }