module CCID_Emulation { /* This module implements multiplexing/demultiplexing of USB CCID, enabling different * TTCN-3 test components to talk to different CCID slots * * (C) 2019 by Harald Welte * All rights reserved. */ import from General_Types all; import from Osmocom_Types all; import from Misc_Helpers all; import from USB_Types all; import from USB_Templates all; import from USB_PortType all; import from USB_PortTypes all; import from USB_Component all; import from CCID_Types all; import from CCID_Templates all; modulepar { boolean mp_quirk_resetpar_returns_slotsts := false; }; type enumerated CCID_Emulation_Event_UpDown { CCID_EVENT_UP, CCID_EVENT_DOWN }; type union CCID_Emulation_Event { CCID_Emulation_Event_UpDown up_down }; type port CCID_SLOT_PT message { inout CCID_PDU, CCID_Emulation_Event; } with { extension "internal" } type record CCID_Emulation_Params { USB_Device_Match usb_dev_match }; type component CCID_Emulation_CT extends USB_CT { var integer g_interface; var integer g_ep_in; var integer g_ep_out; var integer g_ep_irq; var CCID_Emulation_Params g_pars; var integer g_next_bseq := 0; /* ports to the test components; one for each theoretically possible slot */ port CCID_SLOT_PT SLOT[256]; } 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 CCID_Emulation_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); } function main(CCID_Emulation_Params pars) runs on CCID_Emulation_CT { var USB_transfer_compl tc; var CCID_PDU ccid_in, ccid_out; var integer i, v_i; g_pars := pars; f_usb_init(g_pars.usb_dev_match); log(f_usb_get_desc_tree()); var integer i_config := f_usb_get_config(); var USB_Descriptor_Node root; 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; /* Search for CCID interface */ if (ifd.bInterfaceClass == '0B'O and ifd.bInterfaceSubClass == '00'O and ifd.bInterfaceProtocol == '00'O) { g_interface := ifd.bInterfaceNumber; var integer j; /* determine endpoints inside interface */ for (j := 0; j < lengthof(ifn.children); j:=j+1) { log("Iterating over ", ifn.children[j]); 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); } } } } break; } } 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_interface); /* 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); /* let everyone know we're alive and kicking */ for (i := 0; i < 256; i := i+1) { if (SLOT[i].checkstate("Connected")) { SLOT[i].send(CCID_Emulation_Event:{up_down:=CCID_EVENT_UP}); } } while (true) { alt { [] USB.receive(tr_UsbXfer_compl(g_ep_out, USB_TRANSFER_TYPE_BULK, USB_TRANSFER_COMPLETED, g_dev_hdl, ?)) -> value tc { /* 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); /* forward to slot-specific port */ ccid_in := dec_CCID_PDU(tc.data); SLOT[ccid_in.hdr.bSlot].send(ccid_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); /* forward to all slot-specific ports with connected components */ /* ccid_in := dec_CCID_PDU(tc.data); for (i := 0; i < 256; i := i+1) { if (SLOT[i].checkstate("Connected")) { SLOT[i].send(ccid_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_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; } [] any from SLOT.receive(CCID_PDU:?) -> value ccid_out @index value v_i { var octetstring bin; ccid_out.hdr.bSlot := v_i; ccid_out.hdr.bSeq := g_next_bseq; g_next_bseq := (g_next_bseq + 1) mod 256; bin := enc_CCID_PDU(ccid_out); f_usb_submit_xfer(g_ep_out, bin, tout_ms := 3000); } } /* alt */ } /* while (true) */ } /* per-slot test component; manages one slot */ type component Slot_CT { var uint8_t g_slot_nr; port CCID_SLOT_PT CCID; timer g_Tguard := 120.0; }; /* altstep running on the per-slot test component */ altstep as_Tguard() runs on Slot_CT { [] g_Tguard.timeout { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Tguard timeout"); } } altstep as_ccid_any() runs on Slot_CT { var CCID_PDU pdu; [] CCID.receive(CCID_PDU:?) -> value pdu { setverdict(fail, "Received unexpected CCID ", pdu); self.stop; } [] CCID.receive { setverdict(fail, "Received unexpected non-CCID"); self.stop; } } /* transceive a CCID command (send 'tx' on OUT; expect 'rx' on IN) */ private function f_ccid_xceive(template (value) CCID_PDU tx, template (present) CCID_PDU exp_rx) runs on Slot_CT return CCID_PDU { var CCID_PDU pdu; tx.hdr.bSlot := g_slot_nr; exp_rx.hdr.bSlot := g_slot_nr; CCID.send(tx); alt { [] CCID.receive(exp_rx) -> value pdu { return pdu; } [] as_ccid_any(); } return pdu; } private template (present) CCID_Header_IN tr_inact := tr_CCID_HeaderIN_OK(icc_status := (CCID_ICC_STATUS_PRES_INACT, CCID_ICC_STATUS_NO_ICC)); private template (present) CCID_Header_IN tr_act := tr_CCID_HeaderIN_OK(icc_status := CCID_ICC_STATUS_PRES_ACT); /* Send IccPowerOn on OUT; expect DataBlock in retunr */ function f_ccid_power_on(CCID_PowerSelect psel := CCID_PWRSEL_AUTO, template (present) CCID_Header_IN hdr_in := tr_act) runs on Slot_CT return CCID_PDU { var CCID_PDU pdu; pdu := f_ccid_xceive(ts_CCID_IccPowerOn(g_slot_nr, psel), tr_CCID_DataBlock(g_slot_nr, hdr_in := hdr_in) ); return pdu; } /* Send IccPowerOn on OUT; expect SlotStatus in return */ function f_ccid_power_off(template (present) CCID_Header_IN hdr_in := tr_inact) runs on Slot_CT return CCID_PDU { var CCID_PDU pdu; pdu := f_ccid_xceive(ts_CCID_IccPowerOff(g_slot_nr), tr_CCID_SlotStatus(slot := g_slot_nr, hdr_in := hdr_in) ); return pdu; } /* Send IccClockCommand on OUT; expect SlotStatus in return */ function f_ccid_clock_cmd(CCID_ClockCommand cmd, template (present) CCID_Header_IN hdr_in := tr_CCID_HeaderIN_OK) runs on Slot_CT return CCID_PDU { var CCID_PDU pdu; pdu := f_ccid_xceive(ts_CCID_ClockCommand(g_slot_nr, cmd), tr_CCID_SlotStatus(slot := g_slot_nr, hdr_in := hdr_in)); return pdu; } /* Send XfrBlock on OUT; expect DataBlock in return */ function f_ccid_xfr(octetstring tx, template octetstring rx) runs on Slot_CT return octetstring { var CCID_PDU pdu; pdu := f_ccid_xceive(ts_CCID_XfrBlock(g_slot_nr, tx, 0), tr_CCID_DataBlock(g_slot_nr, ?, ?, rx) ); return pdu.u.DataBlock.abData; } /* Send SetParameters on OUT; expect Parameters on IN */ function f_ccid_set_par(template (value) CCID_ProtocolData par, template (present) CCID_Header_IN hdr_in := tr_CCID_HeaderIN_OK) runs on Slot_CT return CCID_PDU { var CCID_PDU pdu; pdu := f_ccid_xceive(ts_CCID_SetParameters(g_slot_nr, par), tr_CCID_Parameters(g_slot_nr, hdr_in := hdr_in)); return pdu; } /* Send GetParameters on OUT; expect Parameters on IN */ function f_ccid_get_par(template (present) CCID_Header_IN hdr_in := tr_CCID_HeaderIN_OK) runs on Slot_CT return CCID_PDU { var CCID_PDU pdu; pdu := f_ccid_xceive(ts_CCID_GetParameters(g_slot_nr), tr_CCID_Parameters(g_slot_nr, hdr_in := hdr_in)); return pdu; } /* Send ResetParameters on OUT; expect Parameters on IN */ function f_ccid_reset_par(template (present) CCID_Header_IN hdr_in := tr_CCID_HeaderIN_OK) runs on Slot_CT return CCID_PDU { var CCID_PDU pdu; /* [at least] Omnikey seems to have failed to follow the CCID spec here :/ */ if (mp_quirk_resetpar_returns_slotsts) { pdu := f_ccid_xceive(ts_CCID_ResetParameters(g_slot_nr), tr_CCID_SlotStatus(g_slot_nr, hdr_in := hdr_in)); } else { pdu := f_ccid_xceive(ts_CCID_ResetParameters(g_slot_nr), tr_CCID_Parameters(g_slot_nr, hdr_in := hdr_in)); } return pdu; } /* Send Escape on OUT; expect Escape on IN */ function f_ccid_escape(template (value) octetstring data, template (present) CCID_Header_IN hdr_in := tr_CCID_HeaderIN_OK) runs on Slot_CT return CCID_PDU { var CCID_PDU pdu; pdu := f_ccid_xceive(ts_CCID_Escape(g_slot_nr, data), tr_CCID_EscapeIN(g_slot_nr, hdr_in := hdr_in)); return pdu; } function f_ccid_get_slotstatus(template (present) CCID_Header_IN hdr_in := tr_CCID_HeaderIN_OK) runs on Slot_CT return CCID_PDU { var CCID_PDU pdu; pdu := f_ccid_xceive(ts_CCID_GetSlotStatus(g_slot_nr), tr_CCID_SlotStatus(g_slot_nr, hdr_in := hdr_in)); return pdu; } }