Initial SIMTRACE testsuite

This doesn't really do much yet in terms of test coverage, but it
adds all related infrastructure

Change-Id: If9fa66b6c5fbddd742ff61fa2c1345736d07accd
This commit is contained in:
Harald Welte 2020-02-29 11:32:50 +01:00 committed by laforge
parent 49a61e66cb
commit 0ee2297e97
9 changed files with 1068 additions and 1 deletions

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@ -13,7 +13,8 @@
# See the License for the specific language governing permissions and # See the License for the specific language governing permissions and
# limitations under the License. # limitations under the License.
SUBDIRS=bsc bsc-nat bts ggsn_tests hlr mgw msc pcu remsim sccp selftest sgsn sip stp sysinfo SUBDIRS=bsc bsc-nat bts ggsn_tests hlr mgw msc pcu remsim sccp selftest sgsn \
simtrace sip stp sysinfo
NPROC=$(shell nproc 2>/dev/null) NPROC=$(shell nproc 2>/dev/null)
ifeq ($(NPROC),) ifeq ($(NPROC),)

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@ -75,6 +75,7 @@ group SimpleNativeTypes {
type bitstring BIT15 length(15) with { variant "FIELDLENGTH(15)" }; type bitstring BIT15 length(15) with { variant "FIELDLENGTH(15)" };
type bitstring BIT16 length(16) with { variant "FIELDLENGTH(16)" }; type bitstring BIT16 length(16) with { variant "FIELDLENGTH(16)" };
type bitstring BIT24 length(24) with { variant "FIELDLENGTH(24)" }; type bitstring BIT24 length(24) with { variant "FIELDLENGTH(24)" };
type bitstring BIT27 length(27) with { variant "FIELDLENGTH(27)" };
type bitstring BIT28 length(28) with { variant "FIELDLENGTH(28)" }; type bitstring BIT28 length(28) with { variant "FIELDLENGTH(28)" };
type bitstring BIT29 length(29) with { variant "FIELDLENGTH(29)" }; type bitstring BIT29 length(29) with { variant "FIELDLENGTH(29)" };
type bitstring BIT30 length(30) with { variant "FIELDLENGTH(30)" }; type bitstring BIT30 length(30) with { variant "FIELDLENGTH(30)" };

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@ -0,0 +1,10 @@
module SIMTRACE_CARDEM_Tests {
import from General_Types all;
import from Osmocom_Types all;
import from SIMTRACE_Tests all;
import from SIMTRACE_Types all;
import from SIMTRACE_Templates all;
}

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@ -0,0 +1,175 @@
module SIMTRACE_Emulation {
import from General_Types all;
import from Osmocom_Types all;
import from Misc_Helpers all;
import from USB_PortType all;
import from USB_Types all;
import from USB_Templates all;
import from USB_Component all;
import from USB_PortTypes all;
import from SIMTRACE_Types all;
import from SIMTRACE_Templates all;
/* one USB interface */
type component ST_Emulation_CT extends USB_CT {
var integer g_ep_in;
var integer g_ep_out;
var integer g_ep_irq;
var USB_IF_Params g_pars;
port ST_USER_PT INOUT;
port ST_USER_PT IRQ;
};
type port ST_USER_PT message {
inout SIMTRACE_PDU;
} with { extension "internal" };
/* configuration for a ST_Emulation_CT */
type record USB_IF_Params {
USB_Device_Match usb_dev_match,
integer usb_if_nr
};
private const octetstring c_oct261 := '000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000'O;
private function f_usb_submit_xfer(USB_endpoint ep, octetstring data := c_oct261,
USB_transfer_type ttype := USB_TRANSFER_TYPE_BULK,
integer tout_ms := 30000) runs on USB_CT
{
var integer req_hdl := f_usb_get_req_hdl();
var USB_transfer xfer := {
device_hdl := g_dev_hdl,
transfer_hdl := req_hdl,
endpoint := ep,
ttype := ttype,
data := data,
timeout_msec := tout_ms
};
USB.send(xfer);
}
/* open libusb device; claim interface; resolve endpoints; submit IN/IRQ transfers */
function main(USB_IF_Params pars) runs on ST_Emulation_CT {
var USB_Descriptor_Node root;
var integer i_config;
var integer i;
g_pars := pars;
f_usb_init(g_pars.usb_dev_match);
i_config := f_usb_get_config();
log("USB Configuration: ", i_config);
root := f_usb_get_desc_tree();
log(root);
/* iterate over list of interfaces in current configuration */
for (i := 0; i < lengthof(root.children[i_config].children); i:=i+1) {
var USB_Descriptor_Node ifn := root.children[i_config].children[i];
var USB_InterfaceDescriptor ifd := ifn.desc.interface;
var integer j;
if (ifd.bInterfaceNumber != g_pars.usb_if_nr) {
continue;
}
/* determine endpoints inside interface */
for (j := 0; j < lengthof(ifn.children); j:=j+1) {
if (ischosen(ifn.children[j].desc.endpoint)) {
var USB_EndpointDescriptor epd := ifn.children[j].desc.endpoint;
select (epd.bmAttributes.TranferType) {
case (USB_EpTransfer_BULK) {
if (epd.bEndpointAddress and4b '80'O == '80'O) {
g_ep_in := oct2int(epd.bEndpointAddress);
} else {
g_ep_out := oct2int(epd.bEndpointAddress);
}
}
case (USB_EpTransfer_INTERRUPT) {
g_ep_irq := oct2int(epd.bEndpointAddress);
}
}
}
}
}
log("USB Endpoints found: IN: ", int2oct(g_ep_in, 1), ", OUT: ", int2oct(g_ep_out, 1),
" IRQ: ", int2oct(g_ep_irq, 1));
f_usb_claim_interface(g_dev_hdl, g_pars.usb_if_nr);
/* submit xfer fro IN and IRQ endpoints */
f_usb_submit_xfer(g_ep_in);
f_usb_submit_xfer(g_ep_irq, ttype := USB_TRANSFER_TYPE_INTERRUPT);
var USB_transfer_compl tc;
var SIMTRACE_PDU stpdu_out, stpdu_in;
while (true) {
alt {
[] USB.receive(tr_UsbXfer_compl(g_ep_out, USB_TRANSFER_TYPE_BULK,
USB_TRANSFER_COMPLETED, g_dev_hdl, ?)) {
/* do nothing; normal completion of OUT transfer */
}
[] USB.receive(tr_UsbXfer_compl(g_ep_in, USB_TRANSFER_TYPE_BULK,
USB_TRANSFER_COMPLETED, g_dev_hdl, ?)) -> value tc {
/* Submit another IN transfer */
f_usb_submit_xfer(g_ep_in);
stpdu_in := dec_SIMTRACE_PDU(tc.data);
INOUT.send(stpdu_in);
}
[] USB.receive(tr_UsbXfer_compl(g_ep_irq, USB_TRANSFER_TYPE_INTERRUPT,
USB_TRANSFER_COMPLETED, g_dev_hdl, ?))-> value tc {
/* Submit another IRQ transfer */
f_usb_submit_xfer(g_ep_irq, ttype := USB_TRANSFER_TYPE_INTERRUPT);
stpdu_in := dec_SIMTRACE_PDU(tc.data);
IRQ.send(stpdu_in);
}
[] USB.receive(tr_UsbXfer_compl(g_ep_irq, USB_TRANSFER_TYPE_INTERRUPT,
USB_TRANSFER_TIMED_OUT, g_dev_hdl, ?)) -> value tc {
/* Submit another IRQ transfer */
f_usb_submit_xfer(g_ep_irq, ttype := USB_TRANSFER_TYPE_INTERRUPT);
}
[] USB.receive(tr_UsbXfer_compl(?, ?, USB_TRANSFER_STALL, g_dev_hdl, ?)) -> value tc {
setverdict(fail, "Unexpected USB_TRANSFER_STALL on EP ", int2hex(tc.endpoint, 2));
//mtc.stop;
/* Submit another IN transfer */
f_usb_submit_xfer(tc.endpoint);
}
[] USB.receive(tr_UsbXfer_compl(?, ?, USB_TRANSFER_ERROR, g_dev_hdl, ?)) -> value tc {
setverdict(fail, "Unexpected USB_TRANSFER_ERROR on EP ", int2hex(tc.endpoint, 2));
mtc.stop;
}
[] USB.receive(tr_UsbXfer_compl(?, ?, USB_TRANSFER_TIMED_OUT, g_dev_hdl, ?)) -> value tc {
setverdict(fail, "Unexpected USB_TRANSFER_TIMED_OUT on EP ", int2hex(tc.endpoint, 2));
mtc.stop;
}
[] USB.receive(tr_UsbXfer_compl(?, ?, USB_TRANSFER_OVERFLOW, g_dev_hdl, ?)) -> value tc {
setverdict(fail, "Unexpected USB_TRANSFER_OVERFLOW on EP ", int2hex(tc.endpoint, 2));
mtc.stop;
}
[] USB.receive(tr_UsbXfer_compl(?, ?, ?, g_dev_hdl, ?)) -> value tc {
setverdict(fail, "Unexpected USB Endpoint ", int2hex(tc.endpoint, 2));
mtc.stop;
}
[] USB.receive(tr_UsbXfer_compl(?, ?, ?, ?, ?)) -> value tc {
setverdict(fail, "Unexpected USB Device ", tc.device_hdl);
mtc.stop;
}
[] USB.receive {
setverdict(fail, "Unexpected Message from USB");
mtc.stop;
}
[] INOUT.receive(SIMTRACE_PDU:?) -> value stpdu_out {
f_usb_submit_xfer(g_ep_out, enc_SIMTRACE_PDU(stpdu_out), tout_ms := 3000);
}
}
}
}
}

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module SIMTRACE_Templates {
import from SIMTRACE_Types all;
import from General_Types all;
import from Osmocom_Types all;
/* TTCN-3 templates Osmocom SIMTRACE2
* as found in simtrace2.git/host/include/osmocom/simtrace2/simtrace_prot.h
*
* (C) 2020 by Harald Welte <laforge@gnumonks.org>
*/
/***********************************************************************
* GENERAL
***********************************************************************/
template (value) SIMTRACE_PDU
ts_SIMTRACE(template (value) SIMTRACE_MsgClassType msg_type,
template (value) SIMTRACE_Payload payload) := {
msg_type := msg_type,
seq_nr := 0,
slot_nr := 0,
reserved := '0000'O,
msg_len := 0, /* overwritten */
payload := payload
}
template (present) SIMTRACE_PDU
tr_SIMTRACE(template (present) SIMTRACE_MsgClassType msg_type,
template (present) SIMTRACE_Payload payload) := {
msg_type := msg_type,
seq_nr := ?,
slot_nr := ?,
reserved := '0000'O,
msg_len := ?,
payload := payload
}
template (value) SIMTRACE_PDU ts_SIMTRACE_BOARD_INFO :=
ts_SIMTRACE(SIMTRACE_CMD_BD_BOARD_INFO,
{ gen_bd_board_info := {
hardware := {
manufacturer := "",
model := "",
version := ""
},
software := {
provider := "",
name := "",
version := "",
buildhost := "",
crc := '00000000'O
},
max_baud_rate := 0,
cap_generic_bytes := 0,
cap_vendor_bytes := 0,
cap_generic := omit,
cap_vendor := omit
}
});
template (present) SIMTRACE_PDU
tr_SIMTRACE_BOARD_INFO(template (present) Board_Info_Hardware hw := ?,
template (present) Board_Info_Software sw := ?,
template Generic_Capability cap_gen := *,
template Generic_Capability_Vendor cap_vend := *) :=
tr_SIMTRACE(SIMTRACE_CMD_BD_BOARD_INFO,
{ gen_bd_board_info := {
hardware := hw,
software := sw,
max_baud_rate := ?,
cap_generic_bytes := ?,
cap_vendor_bytes := ?,
cap_generic := cap_gen,
cap_vendor := cap_vend
}
});
/***********************************************************************
* CARD EMULATION
***********************************************************************/
/* dummy flags for BD_STATUS [request] */
template (value) CardEmu_StatusFlags ts_CardEmu_StatusFlags := {
reserved := '000'B,
reset_active := false,
card_insert := false,
rcemu_active := false,
clk_active := false,
vcc_present := false,
reserved2 := '000000000000000000000000'B
};
template (present) CardEmu_StatusFlags
tr_CardEmu_StatusFlags(template (present) boolean reset_active := ?,
template (present) boolean card_insert := ?,
template (present) boolean clk_active := ?,
template (present) boolean vcc_present := ?,
template (present) boolean rcemu_active := ?) := {
reserved := ?,
reset_active := reset_active,
card_insert := card_insert,
rcemu_active := rcemu_active,
clk_active := clk_active,
vcc_present := vcc_present,
reserved2 := ?
};
template (value) CardEmu_DataFlags
ts_CardEmu_DataFlags(template (value) boolean pb_and_rx := false,
template (value) boolean pb_and_tx := false,
template (value) boolean final := false,
template (value) boolean tpdu_hdr := false) := {
reserved := '0000'B,
pb_and_rx := pb_and_rx,
pb_and_tx := pb_and_tx,
final := final,
tpdu_hdr := tpdu_hdr,
reserved2 := '000000000000000000000000'B
};
template (present) CardEmu_DataFlags
tr_CardEmu_DataFlags(template (present) boolean pb_and_rx := ?,
template (present) boolean pb_and_tx := ?,
template (present) boolean final := ?,
template (present) boolean tpdu_hdr := ?) := {
reserved := ?,
pb_and_rx := pb_and_rx,
pb_and_tx := pb_and_tx,
final := final,
tpdu_hdr := tpdu_hdr,
reserved2 := ?
};
template (value) SIMTRACE_PDU
ts_SIMTRACE_CEMU_TX_DATA(template (value) CardEmu_DataFlags flags,
template (value) octetstring data) :=
ts_SIMTRACE(SIMTRACE_MSGT_DT_CEMU_TX_DATA,
{ cardem_dt_txdata := {
flags := flags,
data_len := 0, /* overwritten */
data := data }
});
template (value) SIMTRACE_PDU
ts_SIMTRACE_CEMU_SET_ATR(template (value) octetstring atr) :=
ts_SIMTRACE(SIMTRACE_MSGT_DT_CEMU_SET_ATR,
{ cardem_dt_setatr := { atr_len := 0 /* overwritten */, atr := atr } });
template (value) SIMTRACE_PDU
ts_SIMTRACE_CEMU_STATUS :=
ts_SIMTRACE(SIMTRACE_MSGT_BD_CEMU_STATUS,
{ cardem_bd_status := {
flags := ts_CardEmu_StatusFlags,
voltage_mv := 0, fi := 0, di := 0, wi := 0, waiting_time := 0
}
});
template (present) SIMTRACE_PDU
tr_SIMTRACE_CEMU_STATUS(template (present) CardEmu_StatusFlags flags := ?,
template (present) uint16_t voltage_mv := ?,
template (present) uint8_t fi := ?,
template (present) uint8_t di := ?,
template (present) uint8_t wi := ?,
template (present) uint32_t waiting_time := ?) :=
tr_SIMTRACE(SIMTRACE_MSGT_BD_CEMU_STATUS,
{ cardem_bd_status := {
flags := flags,
voltage_mv := voltage_mv,
fi := fi,
di := di,
wi := wi,
waiting_time := waiting_time
}});
template (value) SIMTRACE_PDU
ts_SIMTRACE_CEMU_CARDINSERT(uint8_t insert) :=
ts_SIMTRACE(SIMTRACE_MSGT_DT_CEMU_CARDINSERT,
{ cardem_dt_cardinsert := { card_insert := insert } });
template (present) SIMTRACE_PDU
tr_SIMTRACE_CEMU_RX_DATA(template (present) CardEmu_DataFlags flags,
template (present) octetstring data) :=
tr_SIMTRACE(SIMTRACE_MSGT_DO_CEMU_RX_DATA,
{ cardem_do_rxdata := {
flags := flags,
data_len := ?,
data := data
}
});
template (present) SIMTRACE_PDU
tr_SIMTRACE_CEMU_PTS(template (present) octetstring req, template (present) octetstring resp) :=
tr_SIMTRACE(SIMTRACE_MSGT_DO_CEMU_PTS,
{ cardem_do_pts := {
pts_len := ?,
req := req,
resp := resp
}
});
template (value) CardEmu_FeatureFlags ts_FeatureFlags(boolean status_irq) := {
reserved := '0000000'B,
status_irq := status_irq,
reserved2 := '000000000000000000000000'B
}
template (present) CardEmu_FeatureFlags tr_FeatureFlags(template (present) boolean status_irq := ?) := {
reserved := '0000000'B,
status_irq := status_irq,
reserved2 := '000000000000000000000000'B
}
template (value) SIMTRACE_PDU
ts_SIMTRACE_CEMU_CONFIG(template (value) CardEmu_FeatureFlags flags) :=
ts_SIMTRACE(SIMTRACE_MSGT_BD_CEMU_CONFIG, { cardem_bd_config := { features := flags } });
template (present) SIMTRACE_PDU
tr_SIMTRACE_CEMU_CONFIG(template (present) CardEmu_FeatureFlags flags) :=
tr_SIMTRACE(SIMTRACE_MSGT_BD_CEMU_CONFIG, { cardem_bd_config := { features := flags } });
/***********************************************************************
* MODEM CONTROL
***********************************************************************/
template (value) Modem_Status ts_ModemStatus(boolean card_inserted, boolean wwan_led) := {
reserved := '000000'B,
card_inserted := card_inserted,
wwan_led := wwan_led
}
template (present) Modem_Status tr_ModemStatus(template (present) boolean card_inserted,
template (present) boolean wwan_led) := {
reserved := ?,
card_inserted := card_inserted,
wwan_led := wwan_led
}
template (value) SIMTRACE_PDU
ts_SIMTRACE_MODEM_RESET(ModemResetType rst_type := MODEM_RESET_PULSE,
uint16_t duration_msec := 400) :=
ts_SIMTRACE(SIMTRACE_MSGT_DT_MODEM_RESET,
{ modem_dt_reset := {
asserted := rst_type,
pulse_duration_msec := duration_msec
}
});
template (value) SIMTRACE_PDU
ts_SIMTRACE_MODEM_SIM_SELECT(SimSelect sim_sel) :=
ts_SIMTRACE(SIMTRACE_MSGT_DT_MODEM_SIM_SELECT,
{ modem_dt_sim_select := {
sim_select := sim_sel
}
});
template (value) SIMTRACE_PDU
ts_SIMTRACE_MODEM_STATUS :=
ts_SIMTRACE(SIMTRACE_MSGT_BD_MODEM_STATUS,
{ modem_bd_status := {
supported := ts_ModemStatus(false, false),
status := ts_ModemStatus(false, false),
changed := ts_ModemStatus(false, false)
}
});
template (present) SIMTRACE_PDU
tr_SIMTRACE_MODEM_STATUS(template (present) Modem_Status supported := ?,
template (present) Modem_Status status := ?,
template (present) Modem_Status changed := ?) :=
tr_SIMTRACE(SIMTRACE_MSGT_BD_MODEM_STATUS,
{ modem_bd_status := {
supported := supported,
status := status,
changed := changed
}
});
/***********************************************************************
* SNIFFER
***********************************************************************/
template (present) SIMTRACE_PDU
tr_SIMTRACE_SNIFF_CHANGE(template (present) Sniff_Flags flags) :=
tr_SIMTRACE(SIMTRACE_MSGT_SNIFF_CHANGE,
{ sniff_do_change := { flags := flags } });
template (present) SIMTRACE_PDU
tr_SIMTRACE_SNIFF_FIDI(template (present) uint8_t fidi := ?) :=
tr_SIMTRACE(SIMTRACE_MSGT_SNIFF_FIDI,
{ sniff_do_fidi := { fidi := fidi } });
template (present) SIMTRACE_PDU
tr_SIMTRACE_SNIFF_ATR(template (present) octetstring data,
template (present) Sniff_Flags flags := ?) :=
tr_SIMTRACE(SIMTRACE_MSGT_SNIFF_FIDI,
{ sniff_do_atr := {
flags := flags,
data_len := ?,
data := data
}
});
template (present) SIMTRACE_PDU
tr_SIMTRACE_SNIFF_PPS(template (present) octetstring data,
template (present) Sniff_Flags flags := ?) :=
tr_SIMTRACE(SIMTRACE_MSGT_SNIFF_PPS,
{ sniff_do_atr := {
flags := flags,
data_len := ?,
data := data
}
});
template (present) SIMTRACE_PDU
tr_SIMTRACE_SNIFF_TPDU(template (present) octetstring data,
template (present) Sniff_Flags flags := ?) :=
tr_SIMTRACE(SIMTRACE_MSGT_SNIFF_TPDU,
{ sniff_do_atr := {
flags := flags,
data_len := ?,
data := data
}
});
}

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module SIMTRACE_Tests {
import from General_Types all;
import from Osmocom_Types all;
import from Misc_Helpers all;
import from USB_PortType all;
import from USB_Types all;
import from USB_Templates all;
import from USB_Component all;
import from USB_PortTypes all;
import from SIMTRACE_Types all;
import from SIMTRACE_Templates all;
import from SIMTRACE_Emulation all;
modulepar {
//USB_Device_Match mp_usb_dev_match := { vid_pid := { vid := '1d50'H, pid := '60e3'H} };
USB_Device_Match mp_usb_dev_match := { vid_pid := { vid := '1d50'H, pid := '4004'H} };
charstring mp_usb_path := "1-2.4.4";
integer mp_usb_interface := 0;
}
//private const integer NR_IF := 2;
type component Test_CT {
var ST_Emulation_CT vc_ST;
port ST_USER_PT ST;
port ST_USER_PT ST_IRQ;
};
private template (value) USB_IF_Params ts_UsbPars_path(charstring path, uint8_t if_nr) := {
usb_dev_match := {
path := {
path := path
}
},
usb_if_nr := if_nr
}
function f_init(USB_IF_Params pars) runs on Test_CT {
vc_ST := ST_Emulation_CT.create("ST");
map(vc_ST:USB, system:USB);
connect(vc_ST:INOUT, self:ST);
connect(vc_ST:IRQ, self:ST_IRQ);
vc_ST.start(SIMTRACE_Emulation.main(pars));
}
function f_drain() runs on Test_CT {
timer T := 0.1;
T.start;
alt {
[] ST.receive {
log("Drained msg from INOUT");
repeat;
}
[] ST_IRQ.receive {
log("Drained msg from IRQ");
repeat;
}
[] T.timeout { }
}
}
function f_xceive(template (value) SIMTRACE_PDU tx, template (present) SIMTRACE_PDU exp_rx)
runs on Test_CT return SIMTRACE_PDU {
var SIMTRACE_PDU rx;
timer T := 5.0;
ST.send(tx);
T.start;
alt {
[] ST.receive(exp_rx) -> value rx {
T.stop;
}
[] T.timeout {
setverdict(fail, "Timeout waiting for ", exp_rx);
mtc.stop;
}
}
return rx;
}
testcase TC_test() runs on Test_CT {
var USB_IF_Params pars := valueof(ts_UsbPars_path(mp_usb_path, mp_usb_interface));
f_init(pars);
f_drain();
/* Enable the use of the IRQ endpoint to report status updates */
f_xceive(ts_SIMTRACE_CEMU_CONFIG(ts_FeatureFlags(true)),
tr_SIMTRACE_CEMU_CONFIG(tr_FeatureFlags(true)))
/* Choose "remote" SIM */
ST.send(ts_SIMTRACE_MODEM_SIM_SELECT(SIM_SELECT_REMOTE));
/* Trigger modem reset pulse */
ST.send(ts_SIMTRACE_MODEM_RESET);
f_drain();
var SIMTRACE_PDU rx;
while (true) {
/* receive TPDU header */
ST.receive(tr_SIMTRACE_CEMU_RX_DATA(tr_CardEmu_DataFlags(tpdu_hdr:=true), ?)) -> value rx;
var octetstring apdu_hdr := rx.payload.cardem_do_rxdata.data;
/* send PB and request further Rx (command bytes) */
ST.send(ts_SIMTRACE_CEMU_TX_DATA(ts_CardEmu_DataFlags(pb_and_rx:=true), apdu_hdr[1]));
/* receive remaining data from reader */
ST.receive(tr_SIMTRACE_CEMU_RX_DATA(tr_CardEmu_DataFlags(final:=true), ?));
ST.send(ts_SIMTRACE_CEMU_TX_DATA(ts_CardEmu_DataFlags(pb_and_tx:=true), '9000'O));
}
f_sleep(100.0);
}
/* Test how firmware reacts on overly-long message (OS#4429, OS#4428) */
testcase TC_long_out() runs on Test_CT {
var USB_IF_Params pars := valueof(ts_UsbPars_path(mp_usb_path, mp_usb_interface));
f_init(pars);
f_drain();
ST.send(ts_SIMTRACE_CEMU_TX_DATA(ts_CardEmu_DataFlags, f_rnd_octstring(300)));
f_sleep(5.0);
/* FIXME: how to verify the device did not reset itself? */
}
/* flood the OUT endpoint with 1000 messages; much more than the firmware can handle */
testcase TC_flood_out() runs on Test_CT {
var USB_IF_Params pars := valueof(ts_UsbPars_path(mp_usb_path, mp_usb_interface));
f_init(pars);
f_drain();
var integer i;
for (i := 0; i < 1000; i := i+1) {
ST.send(ts_SIMTRACE_CEMU_TX_DATA(ts_CardEmu_DataFlags, f_rnd_octstring(10)));
}
f_sleep(5.0);
/* FIXME: how to verify the device is still responsive? */
}
testcase TC_selftest() runs on Test_CT {
const octetstring c_cemu_sim_rem := '020200000000090001'O;
const octetstring c_cemu_rx := '010600000000130001000000050000A4000402'O;
/* 0106000000001300
01000000
0500
00A4000402
*/
log(dec_SIMTRACE_PDU(c_cemu_rx));
}
}

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module SIMTRACE_Types {
/* TTCN-3 data types with TITAN RAW codec annotations for Osmocom SIMTRACE2
* as found in simtrace2.git/host/include/osmocom/simtrace2/simtrace_prot.h
*
* (C) 2020 by Harald Welte <laforge@gnumonks.org>
*/
import from General_Types all;
import from Osmocom_Types all;
type integer u16le_t (0..65535) with { variant "unsigned 16 bit" variant "BYTEORDER(first)" };
type integer u32le_t (0..4294967295) with { variant "unsigned 32 bit" variant "BYTEORDER(first)" };
type charstring CHAR32 length (0..32) with { variant "FIELDLENGTH(32)" };
type enumerated SIMTRACE_MsgClassType {
/* SIMTRACE_MSGC_GENERIC */
SIMTRACE_CMD_DO_ERROR ('0000'H),
SIMTRACE_CMD_BD_BOARD_INFO ('0001'H),
/* SIMTRACE_MSGC_CARDEM */
SIMTRACE_MSGT_DT_CEMU_TX_DATA ('0101'H),
SIMTRACE_MSGT_DT_CEMU_SET_ATR ('0102'H),
SIMTRACE_MSGT_BD_CEMU_STATS ('0103'H),
SIMTRACE_MSGT_BD_CEMU_STATUS ('0104'H),
SIMTRACE_MSGT_DT_CEMU_CARDINSERT ('0105'H),
SIMTRACE_MSGT_DO_CEMU_RX_DATA ('0106'H),
SIMTRACE_MSGT_DO_CEMU_PTS ('0107'H),
SIMTRACE_MSGT_BD_CEMU_CONFIG ('0108'H),
/* SIMTRACE_MSGC_MODEM */
SIMTRACE_MSGT_DT_MODEM_RESET ('0201'H),
SIMTRACE_MSGT_DT_MODEM_SIM_SELECT ('0202'H),
SIMTRACE_MSGT_BD_MODEM_STATUS ('0203'H),
/* SIMTRACE_MSGC_SNIFF */
SIMTRACE_MSGT_SNIFF_CHANGE ('0300'H),
SIMTRACE_MSGT_SNIFF_FIDI ('0301'H),
SIMTRACE_MSGT_SNIFF_ATR ('0302'H),
SIMTRACE_MSGT_SNIFF_PPS ('0303'H),
SIMTRACE_MSGT_SNIFF_TPDU ('0304'H)
} with { variant "FIELDLENGTH(16)" variant "BYTEORDER(last)" };
type record SIMTRACE_PDU {
SIMTRACE_MsgClassType msg_type,
uint8_t seq_nr,
uint8_t slot_nr,
OCT2 reserved,
u16le_t msg_len,
SIMTRACE_Payload payload
/* payload */
} with {
variant (msg_len) "LENGTHTO(msg_type,seq_nr,slot_nr,reserved,msg_len,payload)"
variant (payload) "CROSSTAG(
gen_do_error, msg_type = SIMTRACE_CMD_DO_ERROR;
gen_bd_board_info, msg_type = SIMTRACE_CMD_BD_BOARD_INFO;
cardem_dt_txdata, msg_type = SIMTRACE_MSGT_DT_CEMU_TX_DATA;
cardem_dt_setatr, msg_type = SIMTRACE_MSGT_DT_CEMU_SET_ATR;
/* FIXME: stats */
cardem_bd_status, msg_type = SIMTRACE_MSGT_BD_CEMU_STATUS;
cardem_dt_cardinsert, msg_type = SIMTRACE_MSGT_DT_CEMU_CARDINSERT;
cardem_do_rxdata, msg_type = SIMTRACE_MSGT_DO_CEMU_RX_DATA;
cardem_do_pts, msg_type = SIMTRACE_MSGT_DO_CEMU_PTS;
cardem_bd_config, msg_type = SIMTRACE_MSGT_BD_CEMU_CONFIG;
modem_dt_reset, msg_type = SIMTRACE_MSGT_DT_MODEM_RESET;
modem_dt_sim_select, msg_type = SIMTRACE_MSGT_DT_MODEM_SIM_SELECT;
modem_bd_status, msg_type = SIMTRACE_MSGT_BD_MODEM_STATUS;
sniff_do_change, msg_type = SIMTRACE_MSGT_SNIFF_CHANGE;
sniff_do_fidi, msg_type = SIMTRACE_MSGT_SNIFF_FIDI;
sniff_do_atr, msg_type = SIMTRACE_MSGT_SNIFF_ATR;
sniff_do_pps, msg_type = SIMTRACE_MSGT_SNIFF_PPS;
sniff_do_tpdu, msg_type = SIMTRACE_MSGT_SNIFF_TPDU;
other, OTHERWISE;
)"
};
external function enc_SIMTRACE_PDU(in SIMTRACE_PDU pdu) return octetstring
with { extension "prototype(convert)" extension "encode(RAW)" };
external function dec_SIMTRACE_PDU(in octetstring stream) return SIMTRACE_PDU
with { extension "prototype(convert)" extension "decode(RAW)" };
type union SIMTRACE_Payload {
Generic_DO_Error gen_do_error,
Generic_BD_BoardInfo gen_bd_board_info,
CardEmu_DT_TxData cardem_dt_txdata,
CardEmu_DT_SetAtr cardem_dt_setatr,
CardEmu_BD_Status cardem_bd_status,
Cardemu_DT_CardInsert cardem_dt_cardinsert,
CardEmu_DO_RxData cardem_do_rxdata,
CardEmu_DO_Pts cardem_do_pts,
CardEmu_BD_Config cardem_bd_config,
Modem_DT_Reset modem_dt_reset,
Modem_DT_SimSelect modem_dt_sim_select,
Modem_BD_Status modem_bd_status,
Sniff_DO_Change sniff_do_change,
Sniff_DO_FiDi sniff_do_fidi,
Sniff_DO_Data sniff_do_atr,
Sniff_DO_Data sniff_do_pps,
Sniff_DO_Data sniff_do_tpdu,
octetstring other
};
/***********************************************************************
* GENERIC
***********************************************************************/
/* SIMTRACE_CMD_DO_ERROR */
type record Generic_DO_Error {
uint8_t severity,
uint8_t subsystem,
u16le_t code,
uint8_t msg_len,
charstring msg
} with {
variant (msg_len) "LENGTHTO(msg)"
};
type record Generic_Capability_Vendor {
/* Can erase a peer SAM3 controller */
boolean sysmo_qmod_erase_peer,
/* Can read/write an attached EEPROM */
boolean sysmo_qmod_rw_eeprom,
/* can reset an attached USB hub */
boolean sysmo_qmod_reset_hub
};
type record Generic_Capability {
/* compatible with 5V SIM card interface */
boolean cap_volt_5v,
/* compatible with 3V SIM card interface */
boolean cap_volt_3v,
/* compatible with 1.8V SIM card interface */
boolean cap_volt_1v8,
boolean cap_led_1,
boolean cap_led_2,
/* Has Single-Pole Dual-Throw (local/remote SIM) */
boolean cap_spdt,
/* Has Bus-Switch (trace / MITM) */
boolean cap_bus_switch,
/* Can read VSIM via ADC */
boolean cap_vsim_adc,
/* Can read temperature via ADC */
boolean cap_temp_adc,
/* Supports DFU for firmware update */
boolean cap_dfu,
/* Supports Ctrl EP command for erasing flash / return to SAM-BA */
boolean cap_erase_flash,
/* Can read the status of card insert contact */
boolean cap_read_card_det,
/* Can control the status of a simulated card insert */
boolean cap_assert_card_det,
/* Can toggle the hardware reset of an attached modem */
boolean cap_assert_modem_rst
};
type record Board_Info_Hardware {
CHAR32 manufacturer,
CHAR32 model,
CHAR32 version
};
type record Board_Info_Software {
CHAR32 provider,
CHAR32 name,
CHAR32 version,
CHAR32 buildhost,
OCT4 crc
};
type record Generic_BD_BoardInfo {
Board_Info_Hardware hardware,
Board_Info_Software software,
u32le_t max_baud_rate,
uint8_t cap_generic_bytes,
uint8_t cap_vendor_bytes,
Generic_Capability cap_generic optional,
Generic_Capability_Vendor cap_vendor optional
} with {
variant (cap_generic_bytes) "LENGTHTO(cap_generic)"
variant (cap_vendor_bytes) "LENGTHTO(cap_vendor)"
};
/***********************************************************************
* CARD EMULATOR / FORWARDER
***********************************************************************/
/* CEMU_USB_MSGT_DT_CARDINSERT */
type record Cardemu_DT_CardInsert {
uint8_t card_insert
};
/* CEMU_USB_MSGT_DT_SET_ATR */
type record CardEmu_DT_SetAtr {
uint8_t atr_len,
octetstring atr
} with {
variant (atr_len) "LENGTHTO(atr)"
};
type record CardEmu_DataFlags {
/* First octet here is last octet of little-endian encoded uint32_t */
BIT4 reserved,
/* indicates a PB is present and we should continue with RX */
boolean pb_and_rx,
/* indicates a PB is present and we should continue with TX */
boolean pb_and_tx,
/* indicates last part of transmission in this direction */
boolean final,
/* indicates a TPDU header is present in this message */
boolean tpdu_hdr,
BIT24 reserved2
} with { variant "BITORDER(msb)" };
/* CEMU_USB_MSGT_DT_TX_DATA */
type record CardEmu_DT_TxData {
CardEmu_DataFlags flags,
u16le_t data_len,
octetstring data
} with {
variant (data_len) "LENGTHTO(data)"
};
/* CEMU_USB_MSGT_DO_RX_DATA */
type record CardEmu_DO_RxData {
CardEmu_DataFlags flags,
u16le_t data_len,
octetstring data
} with {
variant (data_len) "LENGTHTO(data)"
};
type record CardEmu_StatusFlags {
/* First octet here is last octet of little-endian encoded uint32_t */
BIT3 reserved,
boolean reset_active,
boolean card_insert,
boolean rcemu_active,
boolean clk_active,
boolean vcc_present,
BIT24 reserved2
};
/* CEMU_USB_MSGT_BD_STATUS */
type record CardEmu_BD_Status {
CardEmu_StatusFlags flags,
u16le_t voltage_mv,
uint8_t fi,
uint8_t di,
uint8_t wi,
u32le_t waiting_time
};
/* CEMU_USB_MSGT_DO_PTS */
type record CardEmu_DO_Pts {
uint8_t pts_len,
OCT6 req,
OCT6 resp
};
type record CardEmu_FeatureFlags {
BIT7 reserved,
boolean status_irq,
BIT24 reserved2
};
type record CardEmu_BD_Config {
CardEmu_FeatureFlags features
};
/***********************************************************************
* MODEM CONTROL
***********************************************************************/
type enumerated ModemResetType {
MODEM_RESET_RELEASE (0),
MODEM_RESET_ASSERT (1),
MODEM_RESET_PULSE (2)
} with { variant "FIELDLENGTH(8)" };
/* SIMTRACE_MSGT_DT_MODEM_RESET */
type record Modem_DT_Reset {
ModemResetType asserted,
u16le_t pulse_duration_msec
};
type enumerated SimSelect {
SIM_SELECT_LOCAL (0),
SIM_SELECT_REMOTE (1)
} with { variant "FIELDLENGTH(8)" };
/* SIMTRACE_MSGT_DT_MODEM_SIM_SELECT */
type record Modem_DT_SimSelect {
SimSelect sim_select
};
type record Modem_Status {
BIT6 reserved,
boolean card_inserted,
boolean wwan_led
};
/* SIMTRACE_MSGT_BD_MODEM_STATUS */
type record Modem_BD_Status {
Modem_Status supported,
Modem_Status status,
Modem_Status changed
};
/***********************************************************************
* SNIFF
***********************************************************************/
type record Sniff_Flags {
/* First octet here is last octet of little-endian encoded uint32_t */
boolean error_checksum,
boolean error_malformed,
boolean error_incomplete,
boolean timeout_wt,
boolean reset_deassert,
boolean reset_assert,
boolean card_eject,
boolean card_insert,
BIT24 reserved
};
/* SIMTRACE_MSGT_SNIFF_CHANGE */
type record Sniff_DO_Change {
Sniff_Flags flags
};
/* SIMTRACE_MSGT_SNIFF_FIDI */
type record Sniff_DO_FiDi {
uint8_t fidi
};
/* SIMTRACE_MSGT_SNIFF_ATR, PPS, TPDU */
type record Sniff_DO_Data {
Sniff_Flags flags,
u16le_t data_len,
octetstring data
} with {
variant (data_len) "LENGTHTO(data)"
};
} with { encode "RAW"; variant "FIELDORDER(msb)" };

20
simtrace/gen_links.sh Executable file
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@ -0,0 +1,20 @@
#!/bin/bash
BASEDIR=../deps
. ../gen_links.sh.inc
#DIR=$BASEDIR/titan.Libraries.TCCUsefulFunctions/src
#FILES="TCCInterface_Functions.ttcn TCCConversion_Functions.ttcn TCCConversion.cc TCCInterface.cc TCCInterface_ip.h"
#gen_links $DIR $FILES
DIR=$BASEDIR/titan.TestPorts.USB/src
FILES="USB_PT.cc USB_PT.hh USB_PortType.ttcn USB_PortTypes.ttcn USB_Templates.ttcn USB_Types.ttcn USB_Component.ttcn "
gen_links $DIR $FILES
DIR=../library
FILES="Misc_Helpers.ttcn General_Types.ttcn Osmocom_Types.ttcn "
FILES+="Native_Functions.ttcn Native_FunctionDefs.cc "
gen_links $DIR $FILES
ignore_pp_results

9
simtrace/regen_makefile.sh Executable file
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@ -0,0 +1,9 @@
#!/bin/sh
FILES="*.ttcn USB_PT.cc Native_FunctionDefs.cc "
../regen-makefile.sh SIMTRACE_Tests.ttcn $FILES
#sed -i -e 's/^LINUX_LIBS = -lxml2/LINUX_LIBS = -lxml2 -lusb/' Makefile
sed -i -e '/^LINUX_LIBS/ s/$/ `pkg-config --libs libusb-1.0`/' Makefile
sed -i -e '/^CPPFLAGS/ s/$/ `pkg-config --cflags libusb-1.0`/' Makefile