mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-18 16:53:45 +00:00
890c9e87ce
* examples: plugins: utilize fal_embedded * libs: removed fnv1a_hash * furi: added FURI_PACKED; apps, libs: changed to use FURI_PACKED * lib: mbedtls: using custom config * lib: toolbox: removed md5, switched to mbedtls * targets: f18: link fix * lib: added mbedtls_cfg.h * apps: nfc: explicit dependency on libmbedtls * u2f: reworking to mbedtls * u2f: replaced sha256 & hmac with mbedtls * u2f: functional rework using mbedtls * libs: dropped micro-ecc * u2f: dropped old implementation * toolbox: removed sha256 impl * mcheck() for mbedtls * libs: removed libmisc; split into smaller libs * apps: debug: fixed display_test * apps: include cleanups * fbt: fixed VERSIONCOMSTR * furi: added FURI_CHECK_RETURN * lib: removed qrcode * cleanup * fbt: lint_py+format_py: fixed excessive command length * api: Removed bzero from f7 * api: Removed bzero from f18 * Bump API Symbols Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com>
536 lines
No EOL
20 KiB
C
536 lines
No EOL
20 KiB
C
#include <furi_hal_version.h>
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#include <furi_hal_usb_i.h>
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#include <furi_hal_usb.h>
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#include <furi_hal_usb_ccid.h>
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#include <furi.h>
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#include "usb.h"
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#include "usb_ccid.h"
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static const uint8_t USB_DEVICE_NO_CLASS = 0x0;
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static const uint8_t USB_DEVICE_NO_SUBCLASS = 0x0;
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static const uint8_t USB_DEVICE_NO_PROTOCOL = 0x0;
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#define FIXED_CONTROL_ENDPOINT_SIZE 8
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#define IF_NUM_MAX 1
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#define CCID_VID_DEFAULT 0x1234
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#define CCID_PID_DEFAULT 0xABCD
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#define CCID_TOTAL_SLOTS 1
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#define CCID_SLOT_INDEX 0
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#define CCID_DATABLOCK_SIZE 256
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#define ENDPOINT_DIR_IN 0x80
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#define ENDPOINT_DIR_OUT 0x00
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#define INTERFACE_ID_CCID 0
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#define CCID_IN_EPADDR (ENDPOINT_DIR_IN | 2)
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/** Endpoint address of the CCID data OUT endpoint, for host-to-device data transfers. */
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#define CCID_OUT_EPADDR (ENDPOINT_DIR_OUT | 1)
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/** Endpoint size in bytes of the CCID data being sent between IN and OUT endpoints. */
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#define CCID_EPSIZE 64
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struct CcidIntfDescriptor {
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struct usb_interface_descriptor ccid;
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struct usb_ccid_descriptor ccid_desc;
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struct usb_endpoint_descriptor ccid_bulk_in;
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struct usb_endpoint_descriptor ccid_bulk_out;
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} FURI_PACKED;
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struct CcidConfigDescriptor {
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struct usb_config_descriptor config;
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struct CcidIntfDescriptor intf_0;
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} FURI_PACKED;
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enum CCID_Features_Auto_t {
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CCID_Features_Auto_None = 0x0,
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CCID_Features_Auto_ParameterConfiguration = 0x2,
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CCID_Features_Auto_ICCActivation = 0x4,
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CCID_Features_Auto_VoltageSelection = 0x8,
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CCID_Features_Auto_ICCClockFrequencyChange = 0x10,
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CCID_Features_Auto_ICCBaudRateChange = 0x20,
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CCID_Features_Auto_ParameterNegotiation = 0x40,
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CCID_Features_Auto_PPS = 0x80,
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};
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enum CCID_Features_ExchangeLevel_t {
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CCID_Features_ExchangeLevel_TPDU = 0x00010000,
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CCID_Features_ExchangeLevel_ShortAPDU = 0x00020000,
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CCID_Features_ExchangeLevel_ShortExtendedAPDU = 0x00040000
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};
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/* Device descriptor */
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static struct usb_device_descriptor ccid_device_desc = {
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.bLength = sizeof(struct usb_device_descriptor),
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.bDescriptorType = USB_DTYPE_DEVICE,
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.bcdUSB = VERSION_BCD(2, 0, 0),
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.bDeviceClass = USB_DEVICE_NO_CLASS,
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.bDeviceSubClass = USB_DEVICE_NO_SUBCLASS,
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.bDeviceProtocol = USB_DEVICE_NO_PROTOCOL,
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.bMaxPacketSize0 = FIXED_CONTROL_ENDPOINT_SIZE,
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.idVendor = CCID_VID_DEFAULT,
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.idProduct = CCID_PID_DEFAULT,
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.bcdDevice = VERSION_BCD(1, 0, 0),
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.iManufacturer = UsbDevManuf,
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.iProduct = UsbDevProduct,
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.iSerialNumber = UsbDevSerial,
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.bNumConfigurations = 1,
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};
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/* Device configuration descriptor*/
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static const struct CcidConfigDescriptor ccid_cfg_desc = {
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.config =
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{
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.bLength = sizeof(struct usb_config_descriptor),
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.bDescriptorType = USB_DTYPE_CONFIGURATION,
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.wTotalLength = sizeof(struct CcidConfigDescriptor),
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.bNumInterfaces = 1,
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.bConfigurationValue = 1,
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.iConfiguration = NO_DESCRIPTOR,
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.bmAttributes = USB_CFG_ATTR_RESERVED | USB_CFG_ATTR_SELFPOWERED,
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.bMaxPower = USB_CFG_POWER_MA(100),
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},
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.intf_0 =
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{
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.ccid =
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{.bLength = sizeof(struct usb_interface_descriptor),
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.bDescriptorType = USB_DTYPE_INTERFACE,
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.bInterfaceNumber = INTERFACE_ID_CCID,
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.bAlternateSetting = 0x00,
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.bNumEndpoints = 2,
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.bInterfaceClass = USB_CLASS_CCID,
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.bInterfaceSubClass = 0,
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.bInterfaceProtocol = 0,
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.iInterface = NO_DESCRIPTOR
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},
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.ccid_desc =
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{.bLength = sizeof(struct usb_ccid_descriptor),
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.bDescriptorType = USB_DTYPE_CCID_FUNCTIONAL,
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.bcdCCID = CCID_CURRENT_SPEC_RELEASE_NUMBER,
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.bMaxSlotIndex = 0x00,
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.bVoltageSupport = CCID_VOLTAGESUPPORT_5V,
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.dwProtocols = 0x01, //T0
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.dwDefaultClock = 16000, //16MHz
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.dwMaximumClock = 16000, //16MHz
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.bNumClockSupported = 0,
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.dwDataRate = 307200,
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.dwMaxDataRate = 307200,
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.bNumDataRatesSupported = 0,
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.dwMaxIFSD = 2038,
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.dwSynchProtocols = 0,
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.dwMechanical = 0,
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.dwFeatures = CCID_Features_ExchangeLevel_ShortAPDU |
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CCID_Features_Auto_ParameterConfiguration |
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CCID_Features_Auto_ICCActivation |
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CCID_Features_Auto_VoltageSelection,
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.dwMaxCCIDMessageLength = 0x0c00,
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.bClassGetResponse = 0xff,
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.bClassEnvelope = 0xff,
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.wLcdLayout = 0,
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.bPINSupport = 0,
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.bMaxCCIDBusySlots = 1},
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.ccid_bulk_in =
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{.bLength = sizeof(struct usb_endpoint_descriptor),
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.bDescriptorType = USB_DTYPE_ENDPOINT,
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.bEndpointAddress = CCID_IN_EPADDR,
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.bmAttributes = USB_EPTYPE_BULK,
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.wMaxPacketSize = CCID_EPSIZE,
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.bInterval = 0x05
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},
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.ccid_bulk_out =
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{.bLength = sizeof(struct usb_endpoint_descriptor),
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.bDescriptorType = USB_DTYPE_ENDPOINT,
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.bEndpointAddress = CCID_OUT_EPADDR,
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.bmAttributes = USB_EPTYPE_BULK,
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.wMaxPacketSize = CCID_EPSIZE,
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.bInterval = 0x05},
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},
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};
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static void ccid_init(usbd_device* dev, FuriHalUsbInterface* intf, void* ctx);
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static void ccid_deinit(usbd_device* dev);
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static void ccid_on_wakeup(usbd_device* dev);
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static void ccid_on_suspend(usbd_device* dev);
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FuriHalUsbInterface usb_ccid = {
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.init = ccid_init,
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.deinit = ccid_deinit,
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.wakeup = ccid_on_wakeup,
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.suspend = ccid_on_suspend,
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.dev_descr = (struct usb_device_descriptor*)&ccid_device_desc,
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.str_manuf_descr = NULL,
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.str_prod_descr = NULL,
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.str_serial_descr = NULL,
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.cfg_descr = (void*)&ccid_cfg_desc,
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};
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static usbd_respond ccid_ep_config(usbd_device* dev, uint8_t cfg);
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static usbd_respond ccid_control(usbd_device* dev, usbd_ctlreq* req, usbd_rqc_callback* callback);
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static usbd_device* usb_dev;
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static bool connected = false;
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static bool smartcard_inserted = true;
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static CcidCallbacks* callbacks[CCID_TOTAL_SLOTS] = {NULL};
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static void* ccid_set_string_descr(char* str) {
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furi_assert(str);
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size_t len = strlen(str);
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struct usb_string_descriptor* dev_str_desc = malloc(len * 2 + 2);
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dev_str_desc->bLength = len * 2 + 2;
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dev_str_desc->bDescriptorType = USB_DTYPE_STRING;
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for(size_t i = 0; i < len; i++) dev_str_desc->wString[i] = str[i];
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return dev_str_desc;
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}
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static void ccid_init(usbd_device* dev, FuriHalUsbInterface* intf, void* ctx) {
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UNUSED(intf);
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FuriHalUsbCcidConfig* cfg = (FuriHalUsbCcidConfig*)ctx;
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usb_dev = dev;
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usb_ccid.dev_descr->iManufacturer = 0;
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usb_ccid.dev_descr->iProduct = 0;
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usb_ccid.str_manuf_descr = NULL;
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usb_ccid.str_prod_descr = NULL;
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usb_ccid.dev_descr->idVendor = CCID_VID_DEFAULT;
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usb_ccid.dev_descr->idProduct = CCID_PID_DEFAULT;
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if(cfg != NULL) {
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usb_ccid.dev_descr->idVendor = cfg->vid;
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usb_ccid.dev_descr->idProduct = cfg->pid;
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if(cfg->manuf[0] != '\0') {
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usb_ccid.str_manuf_descr = ccid_set_string_descr(cfg->manuf);
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usb_ccid.dev_descr->iManufacturer = UsbDevManuf;
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}
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if(cfg->product[0] != '\0') {
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usb_ccid.str_prod_descr = ccid_set_string_descr(cfg->product);
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usb_ccid.dev_descr->iProduct = UsbDevProduct;
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}
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}
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usbd_reg_config(dev, ccid_ep_config);
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usbd_reg_control(dev, ccid_control);
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usbd_connect(dev, true);
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}
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static void ccid_deinit(usbd_device* dev) {
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usbd_reg_config(dev, NULL);
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usbd_reg_control(dev, NULL);
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free(usb_ccid.str_prod_descr);
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free(usb_ccid.str_serial_descr);
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}
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static void ccid_on_wakeup(usbd_device* dev) {
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UNUSED(dev);
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connected = true;
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}
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static void ccid_on_suspend(usbd_device* dev) {
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UNUSED(dev);
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connected = false;
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}
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typedef struct ccid_bulk_message_header {
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uint8_t bMessageType;
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uint32_t dwLength;
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uint8_t bSlot;
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uint8_t bSeq;
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} FURI_PACKED ccid_bulk_message_header_t;
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uint8_t SendBuffer[sizeof(ccid_bulk_message_header_t) + CCID_DATABLOCK_SIZE];
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//stores the data p
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uint8_t ReceiveBuffer[sizeof(ccid_bulk_message_header_t) + CCID_DATABLOCK_SIZE];
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void CALLBACK_CCID_GetSlotStatus(
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uint8_t slot,
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uint8_t seq,
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struct rdr_to_pc_slot_status* responseSlotStatus) {
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responseSlotStatus->bMessageType = RDR_TO_PC_SLOTSTATUS;
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responseSlotStatus->bSlot = slot;
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responseSlotStatus->bSeq = seq;
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responseSlotStatus->bClockStatus = 0;
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responseSlotStatus->dwLength = 0;
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if(responseSlotStatus->bSlot == CCID_SLOT_INDEX) {
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responseSlotStatus->bError = CCID_ERROR_NOERROR;
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if(smartcard_inserted) {
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responseSlotStatus->bStatus = CCID_COMMANDSTATUS_PROCESSEDWITHOUTERROR |
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CCID_ICCSTATUS_PRESENTANDACTIVE;
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} else {
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responseSlotStatus->bStatus = CCID_COMMANDSTATUS_PROCESSEDWITHOUTERROR |
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CCID_ICCSTATUS_NOICCPRESENT;
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}
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} else {
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responseSlotStatus->bError = CCID_ERROR_SLOTNOTFOUND;
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responseSlotStatus->bStatus = CCID_COMMANDSTATUS_FAILED | CCID_ICCSTATUS_NOICCPRESENT;
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}
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}
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void CALLBACK_CCID_SetParametersT0(
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struct pc_to_rdr_set_parameters_t0* requestSetParametersT0,
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struct rdr_to_pc_parameters_t0* responseSetParametersT0) {
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furi_assert(requestSetParametersT0->bProtocolNum == 0x00); //T0
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responseSetParametersT0->bMessageType = RDR_TO_PC_PARAMETERS;
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responseSetParametersT0->bSlot = requestSetParametersT0->bSlot;
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responseSetParametersT0->bSeq = requestSetParametersT0->bSeq;
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responseSetParametersT0->dwLength =
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sizeof(struct pc_to_rdr_set_parameters_t0) - sizeof(ccid_bulk_message_header_t);
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if(responseSetParametersT0->bSlot == CCID_SLOT_INDEX) {
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responseSetParametersT0->bError = CCID_ERROR_NOERROR;
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if(smartcard_inserted) {
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responseSetParametersT0->bProtocolNum = requestSetParametersT0->bProtocolNum;
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responseSetParametersT0->bStatus = CCID_COMMANDSTATUS_PROCESSEDWITHOUTERROR |
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CCID_ICCSTATUS_PRESENTANDACTIVE;
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} else {
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responseSetParametersT0->bStatus = CCID_COMMANDSTATUS_PROCESSEDWITHOUTERROR |
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CCID_ICCSTATUS_NOICCPRESENT;
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}
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} else {
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responseSetParametersT0->bError = CCID_ERROR_SLOTNOTFOUND;
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responseSetParametersT0->bStatus = CCID_COMMANDSTATUS_FAILED | CCID_ICCSTATUS_NOICCPRESENT;
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}
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}
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void CALLBACK_CCID_IccPowerOn(
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uint8_t slot,
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uint8_t seq,
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struct rdr_to_pc_data_block* responseDataBlock) {
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responseDataBlock->bMessageType = RDR_TO_PC_DATABLOCK;
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responseDataBlock->dwLength = 0;
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responseDataBlock->bSlot = slot;
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responseDataBlock->bSeq = seq;
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if(responseDataBlock->bSlot == CCID_SLOT_INDEX) {
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responseDataBlock->bError = CCID_ERROR_NOERROR;
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if(smartcard_inserted) {
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if(callbacks[CCID_SLOT_INDEX] != NULL) {
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callbacks[CCID_SLOT_INDEX]->icc_power_on_callback(
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responseDataBlock->abData, &responseDataBlock->dwLength, NULL);
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responseDataBlock->bStatus = CCID_COMMANDSTATUS_PROCESSEDWITHOUTERROR |
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CCID_ICCSTATUS_PRESENTANDACTIVE;
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} else {
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responseDataBlock->bStatus = CCID_COMMANDSTATUS_PROCESSEDWITHOUTERROR |
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CCID_ICCSTATUS_PRESENTANDINACTIVE;
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}
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} else {
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responseDataBlock->bStatus = CCID_COMMANDSTATUS_PROCESSEDWITHOUTERROR |
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CCID_ICCSTATUS_NOICCPRESENT;
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}
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} else {
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responseDataBlock->bError = CCID_ERROR_SLOTNOTFOUND;
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responseDataBlock->bStatus = CCID_COMMANDSTATUS_FAILED | CCID_ICCSTATUS_NOICCPRESENT;
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}
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}
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void CALLBACK_CCID_XfrBlock(
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struct pc_to_rdr_xfr_block* receivedXfrBlock,
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struct rdr_to_pc_data_block* responseDataBlock) {
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responseDataBlock->bMessageType = RDR_TO_PC_DATABLOCK;
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responseDataBlock->bSlot = receivedXfrBlock->bSlot;
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responseDataBlock->bSeq = receivedXfrBlock->bSeq;
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responseDataBlock->bChainParameter = 0;
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if(responseDataBlock->bSlot == CCID_SLOT_INDEX) {
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responseDataBlock->bError = CCID_ERROR_NOERROR;
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if(smartcard_inserted) {
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if(callbacks[CCID_SLOT_INDEX] != NULL) {
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callbacks[CCID_SLOT_INDEX]->xfr_datablock_callback(
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(const uint8_t*)receivedXfrBlock->abData,
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receivedXfrBlock->dwLength,
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responseDataBlock->abData,
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&responseDataBlock->dwLength,
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NULL);
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responseDataBlock->bStatus = CCID_COMMANDSTATUS_PROCESSEDWITHOUTERROR |
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CCID_ICCSTATUS_PRESENTANDACTIVE;
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} else {
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responseDataBlock->bStatus = CCID_COMMANDSTATUS_PROCESSEDWITHOUTERROR |
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CCID_ICCSTATUS_PRESENTANDINACTIVE;
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}
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} else {
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responseDataBlock->bStatus = CCID_COMMANDSTATUS_PROCESSEDWITHOUTERROR |
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CCID_ICCSTATUS_NOICCPRESENT;
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}
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} else {
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responseDataBlock->bError = CCID_ERROR_SLOTNOTFOUND;
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responseDataBlock->bStatus = CCID_COMMANDSTATUS_FAILED | CCID_ICCSTATUS_NOICCPRESENT;
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}
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}
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void furi_hal_ccid_ccid_insert_smartcard() {
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smartcard_inserted = true;
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}
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void furi_hal_ccid_ccid_remove_smartcard() {
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smartcard_inserted = false;
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}
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void furi_hal_ccid_set_callbacks(CcidCallbacks* cb) {
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callbacks[CCID_SLOT_INDEX] = cb;
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}
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static void ccid_rx_ep_callback(usbd_device* dev, uint8_t event, uint8_t ep) {
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UNUSED(dev);
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UNUSED(event);
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UNUSED(ep);
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}
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static void ccid_tx_ep_callback(usbd_device* dev, uint8_t event, uint8_t ep) {
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UNUSED(dev);
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if(event == usbd_evt_eprx) {
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if(connected == false) return;
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//read initial CCID message header
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int32_t bytes_read = usbd_ep_read(
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usb_dev, ep, &ReceiveBuffer, sizeof(ccid_bulk_message_header_t) + CCID_DATABLOCK_SIZE);
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//minimum request size is header size
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furi_assert((uint16_t)bytes_read >= sizeof(ccid_bulk_message_header_t));
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ccid_bulk_message_header_t* message = (ccid_bulk_message_header_t*)&ReceiveBuffer; //-V641
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if(message->bMessageType == PC_TO_RDR_ICCPOWERON) {
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struct pc_to_rdr_icc_power_on* requestDataBlock =
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(struct pc_to_rdr_icc_power_on*)message; //-V641
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struct rdr_to_pc_data_block* responseDataBlock =
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(struct rdr_to_pc_data_block*)&SendBuffer;
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CALLBACK_CCID_IccPowerOn(
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requestDataBlock->bSlot, requestDataBlock->bSeq, responseDataBlock);
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usbd_ep_write(
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usb_dev,
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CCID_IN_EPADDR,
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responseDataBlock,
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sizeof(struct rdr_to_pc_data_block) +
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(sizeof(uint8_t) * responseDataBlock->dwLength));
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} else if(message->bMessageType == PC_TO_RDR_ICCPOWEROFF) {
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struct pc_to_rdr_icc_power_off* requestIccPowerOff =
|
|
(struct pc_to_rdr_icc_power_off*)message; //-V641
|
|
struct rdr_to_pc_slot_status* responseSlotStatus =
|
|
(struct rdr_to_pc_slot_status*)&SendBuffer; //-V641
|
|
|
|
CALLBACK_CCID_GetSlotStatus(
|
|
requestIccPowerOff->bSlot, requestIccPowerOff->bSeq, responseSlotStatus);
|
|
|
|
usbd_ep_write(
|
|
usb_dev, CCID_IN_EPADDR, responseSlotStatus, sizeof(struct rdr_to_pc_slot_status));
|
|
} else if(message->bMessageType == PC_TO_RDR_GETSLOTSTATUS) {
|
|
struct pc_to_rdr_get_slot_status* requestSlotStatus =
|
|
(struct pc_to_rdr_get_slot_status*)message; //-V641
|
|
struct rdr_to_pc_slot_status* responseSlotStatus =
|
|
(struct rdr_to_pc_slot_status*)&SendBuffer; //-V641
|
|
|
|
CALLBACK_CCID_GetSlotStatus(
|
|
requestSlotStatus->bSlot, requestSlotStatus->bSeq, responseSlotStatus);
|
|
|
|
usbd_ep_write(
|
|
usb_dev, CCID_IN_EPADDR, responseSlotStatus, sizeof(struct rdr_to_pc_slot_status));
|
|
} else if(message->bMessageType == PC_TO_RDR_XFRBLOCK) {
|
|
struct pc_to_rdr_xfr_block* receivedXfrBlock = (struct pc_to_rdr_xfr_block*)message;
|
|
struct rdr_to_pc_data_block* responseDataBlock =
|
|
(struct rdr_to_pc_data_block*)&SendBuffer;
|
|
|
|
furi_assert(receivedXfrBlock->dwLength <= CCID_DATABLOCK_SIZE);
|
|
furi_assert(
|
|
(uint16_t)bytes_read >=
|
|
sizeof(ccid_bulk_message_header_t) + receivedXfrBlock->dwLength);
|
|
|
|
CALLBACK_CCID_XfrBlock(receivedXfrBlock, responseDataBlock);
|
|
|
|
furi_assert(responseDataBlock->dwLength <= CCID_DATABLOCK_SIZE);
|
|
|
|
usbd_ep_write(
|
|
usb_dev,
|
|
CCID_IN_EPADDR,
|
|
responseDataBlock,
|
|
sizeof(struct rdr_to_pc_data_block) +
|
|
(sizeof(uint8_t) * responseDataBlock->dwLength));
|
|
} else if(message->bMessageType == PC_TO_RDR_SETPARAMETERS) {
|
|
struct pc_to_rdr_set_parameters_t0* requestSetParametersT0 =
|
|
(struct pc_to_rdr_set_parameters_t0*)message; //-V641
|
|
struct rdr_to_pc_parameters_t0* responseSetParametersT0 =
|
|
(struct rdr_to_pc_parameters_t0*)&SendBuffer; //-V641
|
|
|
|
furi_assert(requestSetParametersT0->dwLength <= CCID_DATABLOCK_SIZE);
|
|
furi_assert(
|
|
(uint16_t)bytes_read >=
|
|
sizeof(ccid_bulk_message_header_t) + requestSetParametersT0->dwLength);
|
|
|
|
CALLBACK_CCID_SetParametersT0(requestSetParametersT0, responseSetParametersT0);
|
|
|
|
usbd_ep_write(
|
|
usb_dev,
|
|
CCID_IN_EPADDR,
|
|
responseSetParametersT0,
|
|
sizeof(struct rdr_to_pc_parameters_t0));
|
|
}
|
|
}
|
|
}
|
|
|
|
/* Configure endpoints */
|
|
static usbd_respond ccid_ep_config(usbd_device* dev, uint8_t cfg) {
|
|
switch(cfg) {
|
|
case 0:
|
|
/* deconfiguring device */
|
|
usbd_ep_deconfig(dev, CCID_IN_EPADDR);
|
|
usbd_ep_deconfig(dev, CCID_OUT_EPADDR);
|
|
usbd_reg_endpoint(dev, CCID_IN_EPADDR, 0);
|
|
usbd_reg_endpoint(dev, CCID_OUT_EPADDR, 0);
|
|
return usbd_ack;
|
|
case 1:
|
|
/* configuring device */
|
|
usbd_ep_config(dev, CCID_IN_EPADDR, USB_EPTYPE_BULK, CCID_EPSIZE);
|
|
usbd_ep_config(dev, CCID_OUT_EPADDR, USB_EPTYPE_BULK, CCID_EPSIZE);
|
|
usbd_reg_endpoint(dev, CCID_IN_EPADDR, ccid_rx_ep_callback);
|
|
usbd_reg_endpoint(dev, CCID_OUT_EPADDR, ccid_tx_ep_callback);
|
|
return usbd_ack;
|
|
default:
|
|
return usbd_fail;
|
|
}
|
|
}
|
|
|
|
/* Control requests handler */
|
|
static usbd_respond ccid_control(usbd_device* dev, usbd_ctlreq* req, usbd_rqc_callback* callback) {
|
|
UNUSED(callback);
|
|
/* CDC control requests */
|
|
if(((USB_REQ_RECIPIENT | USB_REQ_TYPE) & req->bmRequestType) ==
|
|
(USB_REQ_INTERFACE | USB_REQ_CLASS) &&
|
|
(req->wIndex == 0 || req->wIndex == 2)) {
|
|
switch(req->bRequest) {
|
|
case CCID_ABORT:
|
|
return usbd_fail;
|
|
case CCID_GET_CLOCK_FREQUENCIES:
|
|
dev->status.data_ptr = (void*)&(ccid_cfg_desc.intf_0.ccid_desc.dwDefaultClock);
|
|
dev->status.data_count = sizeof(ccid_cfg_desc.intf_0.ccid_desc.dwDefaultClock);
|
|
return usbd_ack;
|
|
default:
|
|
return usbd_fail;
|
|
}
|
|
}
|
|
return usbd_fail;
|
|
} |