/* Osmocom VTY interface functions in TTCN-3 * (C) 2017-2018 Harald Welte * contributions by sysmocom - s.f.m.c. GmbH * All rights reserved. * * Released under the terms of GNU General Public License, Version 2 or * (at your option) any later version. * * SPDX-License-Identifier: GPL-2.0-or-later */ module Osmocom_VTY_Functions { import from Misc_Helpers all; import from TELNETasp_PortType all; import from Osmocom_Types all; import from TCCConversion_Functions all; import from Socket_API_Definitions all; modulepar { charstring mp_prompt_prefix := "OpenBSC"; float mp_prompt_timeout := 2.0; } const charstring VTY_VIEW_SUFFIX := "> "; const charstring VTY_ENABLE_SUFFIX := "# "; const charstring VTY_CFG_SUFFIX := "(*)"; template charstring t_vty_unknown := pattern "*% Unknown command."; /* configure prompts in TELNETasp module */ function f_vty_set_prompts(TELNETasp_PT pt, charstring prompt_prefix := mp_prompt_prefix) { var ASP_TelnetDynamicConfig vty_prompt[3] := { { prompt := { id := 1, prompt := prompt_prefix & VTY_VIEW_SUFFIX, has_wildcards := false } }, { prompt := { id := 2, prompt := prompt_prefix & VTY_ENABLE_SUFFIX, has_wildcards := false } }, { prompt := { id := 3, prompt := prompt_prefix & VTY_CFG_SUFFIX, has_wildcards := true } } }; /* set some configuration that isn't possible to express * in the config file due to syntactic restrictions (Who invents config * files that don't permit regular expressions? */ for (var integer i := 0; i < sizeof(vty_prompt); i:= i + 1) { pt.send(vty_prompt[i]); } } /* wait for any of the permitted prompts; buffer + return all intermediate output */ function f_vty_wait_for_prompt(TELNETasp_PT pt, boolean strict := true, charstring log_label := "(?)") return charstring { var charstring rx, buf := ""; var integer fd; timer T; T.start(mp_prompt_timeout); alt { [] pt.receive(pattern "[\w-]+" & VTY_VIEW_SUFFIX) { }; [] pt.receive(pattern "[\w-]+\# ") { }; [] pt.receive(pattern "[\w-]+\(*\)\# ") { }; [] pt.receive(t_vty_unknown) -> value rx { if (strict) { setverdict(fail, "VTY: Unknown Command: " & log_label); mtc.stop; } else { log("VTY: Unknown Command (ignored): " & log_label); buf := buf & rx; repeat; } }; [] pt.receive(charstring:?) -> value rx { buf := buf & rx; repeat }; [] pt.receive(integer:?) -> value fd { if (fd == -1) { setverdict(fail, "VTY Telnet Connection Failure: " & log_label); mtc.stop; } else { repeat; /* telnet connection succeeded */ } } [] T.timeout { setverdict(fail, "VTY Timeout for prompt: " & log_label); mtc.stop; }; } T.stop; return buf; } /* send a VTY command and obtain response until prompt is received */ function f_vty_transceive_ret(TELNETasp_PT pt, charstring tx, boolean strict := true) return charstring { pt.send(tx); return f_vty_wait_for_prompt(pt, strict, tx); } /* send a VTY command and obtain response until prompt is received */ function f_vty_transceive(TELNETasp_PT pt, charstring tx, boolean strict := true) { var charstring unused := f_vty_transceive_ret(pt, tx, strict); } type integer BtsNr (0..255); type integer BtsTrxNr (0..255); type integer BtsTimeslotNr (0..7); type integer MscNr (0..255); type integer Cs7Nr (0..255); type charstring BtsGprsMode ("none", "gprs", "egrps"); /* enter the'confiugration' mode of the VTY */ function f_vty_enter_config(TELNETasp_PT pt) { f_vty_transceive(pt, "configure terminal") } function f_vty_enter_cfg_network(TELNETasp_PT pt) { f_vty_enter_config(pt); f_vty_transceive(pt, "network") } function f_vty_enter_cfg_bts(TELNETasp_PT pt, BtsNr bts := 0) { f_vty_enter_cfg_network(pt); f_vty_transceive(pt, "bts " & int2str(bts)); } function f_vty_enter_cfg_trx(TELNETasp_PT pt, BtsNr bts := 0, BtsTrxNr trx := 0) { f_vty_enter_cfg_bts(pt, bts); f_vty_transceive(pt, "trx " & int2str(trx)); } function f_vty_enter_cfg_ts(TELNETasp_PT pt, BtsNr bts := 0, BtsTrxNr trx := 0, BtsTimeslotNr ts) { f_vty_enter_cfg_trx(pt, bts, trx); f_vty_transceive(pt, "timeslot " & int2str(ts)); } function f_vty_enter_cfg_msc(TELNETasp_PT pt, MscNr msc := 0) { f_vty_enter_config(pt); f_vty_transceive(pt, "msc " & int2str(msc)); } function f_vty_enter_cfg_cs7_inst(TELNETasp_PT pt, Cs7Nr cs7_inst := 0) { f_vty_enter_config(pt); f_vty_transceive(pt, "cs7 instance " & int2str(cs7_inst)); } type record of charstring rof_charstring; function f_vty_config3(TELNETasp_PT pt, rof_charstring config_nodes, rof_charstring cmds) { /* enter config mode; enter node */ f_vty_enter_config(pt); for (var integer i := 0; i < sizeof(config_nodes); i := i+1) { f_vty_transceive(pt, config_nodes[i]); } /* execute commands */ for (var integer i := 0; i < sizeof(cmds); i := i+1) { f_vty_transceive(pt, cmds[i]); } /* leave config mode */ f_vty_transceive(pt, "end"); } function f_vty_config2(TELNETasp_PT pt, rof_charstring config_nodes, charstring cmd) { f_vty_config3(pt, config_nodes, { cmd }); } function f_vty_config(TELNETasp_PT pt, charstring config_node, charstring cmd) { f_vty_config2(pt, {config_node}, cmd); } function f_vty_cfg_bts(TELNETasp_PT pt, BtsNr bts := 0, rof_charstring cmds) { f_vty_config3(pt, {"network", "bts " & int2str(bts)}, cmds); } function f_vty_cfg_msc(TELNETasp_PT pt, MscNr msc := 0, rof_charstring cmds) { f_vty_config3(pt, {"msc " & int2str(msc)}, cmds); } function f_vty_transceive_match(TELNETasp_PT pt, charstring cmd, template charstring exp_ret) { var charstring ret := f_vty_transceive_ret(pt, cmd); if (not match(ret, exp_ret)) { setverdict(fail, "Non-matching VTY response: ", ret); mtc.stop; } } function f_vty_transceive_not_match(TELNETasp_PT pt, charstring cmd, template charstring exp_ret) { var charstring ret := f_vty_transceive_ret(pt, cmd); if (match(ret, exp_ret)) { setverdict(fail, "Unexpected matching VTY response: ", ret); mtc.stop; } } function f_vty_transceive_match_regex(TELNETasp_PT pt, charstring cmd, charstring regex, integer groupno) return charstring { var charstring resp := f_vty_transceive_ret(pt, cmd); return regexp(resp, regex, groupno); } function f_vty_transceive_match_regexp_retry(TELNETasp_PT pt, charstring cmd, charstring regex, integer groupno, integer num_attempts, float retry_delay) return charstring { while (num_attempts > 0) { var charstring ret := f_vty_transceive_match_regex(pt, cmd, regex, groupno); if (ret != "") { return ret; } f_sleep(retry_delay); num_attempts := num_attempts - 1; } Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, log2str("No matching VTY response for regular expression '", regex, "' after ", num_attempts, " attempts." )); return ""; } private type record of charstring StrList; /* Perform a 'show talloc-context' to get a count of the given object_strs that are still allocated. * Retry 'attempts' times until the actual talloc object count matches 'expect_count'. * Useful to ensure that no mem leaks remain after running a test. */ function f_verify_talloc_count(TELNETasp_PT pt, StrList object_strs, integer expect_count := 0, integer attempts := 5, float wait_time := 3.0) { var charstring show_cmd := "show talloc-context application full filter "; for (var integer i := 0; i < lengthof(object_strs); i := i + 1) { var charstring obj_str := object_strs[i]; /* spaces confuse the VTY command */ obj_str := f_replaceEveryOccurenceOfSubstring(obj_str, " ", "."); /* In the regexp, expect word start and word end to bound the obj name */ obj_str := "\\<" & obj_str & "\\>"; if (i > 0) { show_cmd := show_cmd & "\\|"; } show_cmd := show_cmd & obj_str; } while (attempts > 0) { attempts := attempts - 1; var charstring ret := f_vty_transceive_ret(pt, show_cmd); var boolean ok := true; for (var integer i := 0; i < lengthof(object_strs); i := i + 1) { var charstring object_str := object_strs[i]; var integer count := f_strstr_count(ret, object_str); log("talloc reports ", object_str, " x ", count, ", expecting ", expect_count); if (count != expect_count) { ok := false; } } if (ok) { return; } if (attempts == 0) { break; } log("count mismatch, retrying in ", wait_time); f_sleep(wait_time); } Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "talloc count mismatch"); } public function f_str_split(charstring str, charstring delim := "\n") return ro_charstring { var integer pos := 0; var ro_charstring parts := {}; var integer delim_pos; var integer end := lengthof(str); while (pos < end) { delim_pos := f_strstr(str, delim, pos); if (delim_pos < 0) { delim_pos := end; } if (delim_pos > pos) { parts := parts & { substr(str, pos, delim_pos - pos) }; } pos := delim_pos + 1; } return parts; } public function f_verify_talloc_bytes(TELNETasp_PT pt, ro_charstring object_strs, integer expect_bytes := 0, integer attempts := 5, float wait_time := 3.0) { var charstring show_cmd := "show talloc-context application brief"; while (attempts > 0) { attempts := attempts - 1; var charstring ret := f_vty_transceive_ret(pt, show_cmd); var ro_charstring lines := f_str_split(ret); var boolean ok := true; for (var integer i := 0; i < lengthof(object_strs); i := i + 1) { var charstring object_str := object_strs[i]; var integer bytes := 0; for (var integer j := 0; j < lengthof(lines); j := j + 1) { var charstring line := lines[j]; if (f_strstr(line, object_str) < 0) { continue; } var ro_charstring tokens := f_str_split(line, " "); if (lengthof(tokens) < 4) { continue; } if (tokens[3] != "bytes") { continue; } bytes := f_str2int(tokens[2]); } if (bytes != expect_bytes) { ok := false; log("ERROR: talloc reports ", object_str, " = ", bytes, " bytes, expecting ", expect_bytes, " from VTY response ", lines); } else { log("ok: talloc reports ", object_str, " = ", bytes, " bytes"); } } if (ok) { return; } if (attempts == 0) { break; } log("bytes count mismatch, retrying in ", wait_time); f_sleep(wait_time); } setverdict(fail, "talloc bytes count mismatch"); mtc.stop; } public function f_logp(TELNETasp_PT pt, charstring log_msg) { // log on TTCN3 log output log(log_msg); // log in stderr log if (pt.checkstate("Mapped")) { f_vty_transceive(pt, "logp lglobal notice TTCN3 f_logp(): " & log_msg); } } }