unleashed-firmware/applications/main/u2f/u2f_hid.c
Sergey Gavrilov c511c67e71
Core: thread allocation shortcut (#2007)
* Core: thread alloc+set shortcut
* Apps: use thread allocation shortcut
* Mark some service threads as services
* Init BT as soon as possible

Co-authored-by: あく <alleteam@gmail.com>
2022-11-23 21:49:17 +09:00

296 lines
11 KiB
C

#include <furi.h>
#include "u2f_hid.h"
#include "u2f.h"
#include <furi_hal.h>
#include <gui/gui.h>
#include <input/input.h>
#include <lib/toolbox/args.h>
#include <furi_hal_usb_hid_u2f.h>
#include <storage/storage.h>
#include <furi_hal_console.h>
#define TAG "U2FHID"
#define WORKER_TAG TAG "Worker"
#define U2F_HID_MAX_PAYLOAD_LEN ((HID_U2F_PACKET_LEN - 7) + 128 * (HID_U2F_PACKET_LEN - 5))
#define U2F_HID_TYPE_MASK 0x80 // Frame type mask
#define U2F_HID_TYPE_INIT 0x80 // Initial frame identifier
#define U2F_HID_TYPE_CONT 0x00 // Continuation frame identifier
#define U2F_HID_PING (U2F_HID_TYPE_INIT | 0x01) // Echo data through local processor only
#define U2F_HID_MSG (U2F_HID_TYPE_INIT | 0x03) // Send U2F message frame
#define U2F_HID_LOCK (U2F_HID_TYPE_INIT | 0x04) // Send lock channel command
#define U2F_HID_INIT (U2F_HID_TYPE_INIT | 0x06) // Channel initialization
#define U2F_HID_WINK (U2F_HID_TYPE_INIT | 0x08) // Send device identification wink
#define U2F_HID_ERROR (U2F_HID_TYPE_INIT | 0x3f) // Error response
#define U2F_HID_ERR_NONE 0x00 // No error
#define U2F_HID_ERR_INVALID_CMD 0x01 // Invalid command
#define U2F_HID_ERR_INVALID_PAR 0x02 // Invalid parameter
#define U2F_HID_ERR_INVALID_LEN 0x03 // Invalid message length
#define U2F_HID_ERR_INVALID_SEQ 0x04 // Invalid message sequencing
#define U2F_HID_ERR_MSG_TIMEOUT 0x05 // Message has timed out
#define U2F_HID_ERR_CHANNEL_BUSY 0x06 // Channel busy
#define U2F_HID_ERR_LOCK_REQUIRED 0x0a // Command requires channel lock
#define U2F_HID_ERR_SYNC_FAIL 0x0b // SYNC command failed
#define U2F_HID_ERR_OTHER 0x7f // Other unspecified error
#define U2F_HID_BROADCAST_CID 0xFFFFFFFF
typedef enum {
WorkerEvtReserved = (1 << 0),
WorkerEvtStop = (1 << 1),
WorkerEvtConnect = (1 << 2),
WorkerEvtDisconnect = (1 << 3),
WorkerEvtRequest = (1 << 4),
WorkerEvtUnlock = (1 << 5),
} WorkerEvtFlags;
struct U2fHid_packet {
uint32_t cid;
uint16_t len;
uint8_t cmd;
uint8_t payload[U2F_HID_MAX_PAYLOAD_LEN];
};
struct U2fHid {
FuriThread* thread;
FuriTimer* lock_timer;
struct U2fHid_packet packet;
uint8_t seq_id_last;
uint16_t req_buf_ptr;
uint32_t req_len_left;
uint32_t lock_cid;
bool lock;
U2fData* u2f_instance;
};
static void u2f_hid_event_callback(HidU2fEvent ev, void* context) {
furi_assert(context);
U2fHid* u2f_hid = context;
if(ev == HidU2fDisconnected)
furi_thread_flags_set(furi_thread_get_id(u2f_hid->thread), WorkerEvtDisconnect);
else if(ev == HidU2fConnected)
furi_thread_flags_set(furi_thread_get_id(u2f_hid->thread), WorkerEvtConnect);
else if(ev == HidU2fRequest)
furi_thread_flags_set(furi_thread_get_id(u2f_hid->thread), WorkerEvtRequest);
}
static void u2f_hid_lock_timeout_callback(void* context) {
furi_assert(context);
U2fHid* u2f_hid = context;
furi_thread_flags_set(furi_thread_get_id(u2f_hid->thread), WorkerEvtUnlock);
}
static void u2f_hid_send_response(U2fHid* u2f_hid) {
uint8_t packet_buf[HID_U2F_PACKET_LEN];
uint16_t len_remain = u2f_hid->packet.len;
uint8_t len_cur = 0;
uint8_t seq_cnt = 0;
uint16_t data_ptr = 0;
memset(packet_buf, 0, HID_U2F_PACKET_LEN);
memcpy(packet_buf, &(u2f_hid->packet.cid), 4);
// Init packet
packet_buf[4] = u2f_hid->packet.cmd;
packet_buf[5] = u2f_hid->packet.len >> 8;
packet_buf[6] = (u2f_hid->packet.len & 0xFF);
len_cur = (len_remain < (HID_U2F_PACKET_LEN - 7)) ? (len_remain) : (HID_U2F_PACKET_LEN - 7);
if(len_cur > 0) memcpy(&packet_buf[7], u2f_hid->packet.payload, len_cur);
furi_hal_hid_u2f_send_response(packet_buf, HID_U2F_PACKET_LEN);
data_ptr = len_cur;
len_remain -= len_cur;
// Continuation packets
while(len_remain > 0) {
memset(&packet_buf[4], 0, HID_U2F_PACKET_LEN - 4);
packet_buf[4] = seq_cnt;
len_cur = (len_remain < (HID_U2F_PACKET_LEN - 5)) ? (len_remain) :
(HID_U2F_PACKET_LEN - 5);
memcpy(&packet_buf[5], &(u2f_hid->packet.payload[data_ptr]), len_cur);
furi_hal_hid_u2f_send_response(packet_buf, HID_U2F_PACKET_LEN);
seq_cnt++;
len_remain -= len_cur;
data_ptr += len_cur;
}
}
static void u2f_hid_send_error(U2fHid* u2f_hid, uint8_t error) {
u2f_hid->packet.len = 1;
u2f_hid->packet.cmd = U2F_HID_ERROR;
u2f_hid->packet.payload[0] = error;
u2f_hid_send_response(u2f_hid);
}
static bool u2f_hid_parse_request(U2fHid* u2f_hid) {
FURI_LOG_D(
WORKER_TAG,
"Req cid=%lX cmd=%x len=%u",
u2f_hid->packet.cid,
u2f_hid->packet.cmd,
u2f_hid->packet.len);
if(u2f_hid->packet.cmd == U2F_HID_PING) { // PING - echo request back
u2f_hid_send_response(u2f_hid);
} else if(u2f_hid->packet.cmd == U2F_HID_MSG) { // MSG - U2F message
if((u2f_hid->lock == true) && (u2f_hid->packet.cid != u2f_hid->lock_cid)) return false;
uint16_t resp_len =
u2f_msg_parse(u2f_hid->u2f_instance, u2f_hid->packet.payload, u2f_hid->packet.len);
if(resp_len > 0) {
u2f_hid->packet.len = resp_len;
u2f_hid_send_response(u2f_hid);
} else
return false;
} else if(u2f_hid->packet.cmd == U2F_HID_LOCK) { // LOCK - lock all channels except current
if(u2f_hid->packet.len != 1) return false;
uint8_t lock_timeout = u2f_hid->packet.payload[0];
if(lock_timeout == 0) { // Lock off
u2f_hid->lock = false;
u2f_hid->lock_cid = 0;
} else { // Lock on
u2f_hid->lock = true;
u2f_hid->lock_cid = u2f_hid->packet.cid;
furi_timer_start(u2f_hid->lock_timer, lock_timeout * 1000);
}
} else if(u2f_hid->packet.cmd == U2F_HID_INIT) { // INIT - channel initialization request
if((u2f_hid->packet.len != 8) || (u2f_hid->packet.cid != U2F_HID_BROADCAST_CID) ||
(u2f_hid->lock == true))
return false;
u2f_hid->packet.len = 17;
uint32_t random_cid = furi_hal_random_get();
memcpy(&(u2f_hid->packet.payload[8]), &random_cid, 4);
u2f_hid->packet.payload[12] = 2; // Protocol version
u2f_hid->packet.payload[13] = 1; // Device version major
u2f_hid->packet.payload[14] = 0; // Device version minor
u2f_hid->packet.payload[15] = 1; // Device build version
u2f_hid->packet.payload[16] = 1; // Capabilities: wink
u2f_hid_send_response(u2f_hid);
} else if(u2f_hid->packet.cmd == U2F_HID_WINK) { // WINK - notify user
if(u2f_hid->packet.len != 0) return false;
u2f_wink(u2f_hid->u2f_instance);
u2f_hid->packet.len = 0;
u2f_hid_send_response(u2f_hid);
} else
return false;
return true;
}
static int32_t u2f_hid_worker(void* context) {
U2fHid* u2f_hid = context;
uint8_t packet_buf[HID_U2F_PACKET_LEN];
FURI_LOG_D(WORKER_TAG, "Init");
FuriHalUsbInterface* usb_mode_prev = furi_hal_usb_get_config();
furi_check(furi_hal_usb_set_config(&usb_hid_u2f, NULL) == true);
u2f_hid->lock_timer =
furi_timer_alloc(u2f_hid_lock_timeout_callback, FuriTimerTypeOnce, u2f_hid);
furi_hal_hid_u2f_set_callback(u2f_hid_event_callback, u2f_hid);
while(1) {
uint32_t flags = furi_thread_flags_wait(
WorkerEvtStop | WorkerEvtConnect | WorkerEvtDisconnect | WorkerEvtRequest,
FuriFlagWaitAny,
FuriWaitForever);
furi_check(!(flags & FuriFlagError));
if(flags & WorkerEvtStop) break;
if(flags & WorkerEvtConnect) {
u2f_set_state(u2f_hid->u2f_instance, 1);
FURI_LOG_D(WORKER_TAG, "Connect");
}
if(flags & WorkerEvtDisconnect) {
u2f_set_state(u2f_hid->u2f_instance, 0);
FURI_LOG_D(WORKER_TAG, "Disconnect");
}
if(flags & WorkerEvtRequest) {
uint32_t len_cur = furi_hal_hid_u2f_get_request(packet_buf);
if(len_cur > 0) {
if((packet_buf[4] & U2F_HID_TYPE_MASK) == U2F_HID_TYPE_INIT) {
// Init packet
u2f_hid->packet.len = (packet_buf[5] << 8) | (packet_buf[6]);
if(u2f_hid->packet.len > (len_cur - 7)) {
u2f_hid->req_len_left = u2f_hid->packet.len - (len_cur - 7);
len_cur = len_cur - 7;
} else {
u2f_hid->req_len_left = 0;
len_cur = u2f_hid->packet.len;
}
memcpy(&(u2f_hid->packet.cid), packet_buf, 4);
u2f_hid->packet.cmd = packet_buf[4];
u2f_hid->seq_id_last = 0;
u2f_hid->req_buf_ptr = len_cur;
if(len_cur > 0) memcpy(u2f_hid->packet.payload, &packet_buf[7], len_cur);
} else {
// Continuation packet
if(u2f_hid->req_len_left > 0) {
uint32_t cid_temp = 0;
memcpy(&cid_temp, packet_buf, 4);
uint8_t seq_temp = packet_buf[4];
if((cid_temp == u2f_hid->packet.cid) &&
(seq_temp == u2f_hid->seq_id_last)) {
if(u2f_hid->req_len_left > (len_cur - 5)) {
len_cur = len_cur - 5;
u2f_hid->req_len_left -= len_cur;
} else {
len_cur = u2f_hid->req_len_left;
u2f_hid->req_len_left = 0;
}
memcpy(
&(u2f_hid->packet.payload[u2f_hid->req_buf_ptr]),
&packet_buf[5],
len_cur);
u2f_hid->req_buf_ptr += len_cur;
u2f_hid->seq_id_last++;
}
}
}
if(u2f_hid->req_len_left == 0) {
if(u2f_hid_parse_request(u2f_hid) == false) {
u2f_hid_send_error(u2f_hid, U2F_HID_ERR_INVALID_CMD);
}
}
}
}
if(flags & WorkerEvtUnlock) {
u2f_hid->lock = false;
u2f_hid->lock_cid = 0;
}
}
furi_timer_stop(u2f_hid->lock_timer);
furi_timer_free(u2f_hid->lock_timer);
furi_hal_hid_u2f_set_callback(NULL, NULL);
furi_hal_usb_set_config(usb_mode_prev, NULL);
FURI_LOG_D(WORKER_TAG, "End");
return 0;
}
U2fHid* u2f_hid_start(U2fData* u2f_inst) {
U2fHid* u2f_hid = malloc(sizeof(U2fHid));
u2f_hid->u2f_instance = u2f_inst;
u2f_hid->thread = furi_thread_alloc_ex("U2fHidWorker", 2048, u2f_hid_worker, u2f_hid);
furi_thread_start(u2f_hid->thread);
return u2f_hid;
}
void u2f_hid_stop(U2fHid* u2f_hid) {
furi_assert(u2f_hid);
furi_thread_flags_set(furi_thread_get_id(u2f_hid->thread), WorkerEvtStop);
furi_thread_join(u2f_hid->thread);
furi_thread_free(u2f_hid->thread);
free(u2f_hid);
}