/* * main.c - main routine of Gnuk * * Copyright (C) 2010, 2011 Free Software Initiative of Japan * Author: NIIBE Yutaka * * This file is a part of Gnuk, a GnuPG USB Token implementation. * * Gnuk is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * Gnuk is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public * License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * */ #include "config.h" #include "ch.h" #include "gnuk.h" #include "usb_lld.h" #include "usb-cdc.h" #ifdef DEBUG struct stdout { Mutex m; CondVar start_cnd; CondVar finish_cnd; const char *str; int size; }; static struct stdout stdout; static void stdout_init (void) { chMtxInit (&stdout.m); chCondInit (&stdout.start_cnd); chCondInit (&stdout.finish_cnd); stdout.size = 0; stdout.str = NULL; } void _write (const char *s, int size) { if (size == 0) return; chMtxLock (&stdout.m); while (stdout.str) chCondWait (&stdout.finish_cnd); stdout.str = s; stdout.size = size; chCondSignal (&stdout.start_cnd); chCondWait (&stdout.finish_cnd); chMtxUnlock (); } Thread *stdout_thread; uint32_t count_in; uint8_t buffer_in[VIRTUAL_COM_PORT_DATA_SIZE]; static WORKING_AREA(waSTDOUTthread, 128); static msg_t STDOUTthread (void *arg) { (void)arg; stdout_thread = chThdSelf (); again: while (1) { if (bDeviceState == CONFIGURED) break; chThdSleepMilliseconds (100); } while (1) { const char *p; int len; if (bDeviceState != CONFIGURED) break; chMtxLock (&stdout.m); if (stdout.str == NULL) chCondWait (&stdout.start_cnd); p = stdout.str; len = stdout.size; while (1) { int i; if (len == 0) if (count_in != VIRTUAL_COM_PORT_DATA_SIZE) break; if (len < VIRTUAL_COM_PORT_DATA_SIZE) { for (i = 0; i < len; i++) buffer_in[i] = p[i]; count_in = len; len = 0; } else { for (i = 0; i < VIRTUAL_COM_PORT_DATA_SIZE; i++) buffer_in[i] = p[i]; len -= VIRTUAL_COM_PORT_DATA_SIZE; count_in = VIRTUAL_COM_PORT_DATA_SIZE; p += count_in; } chEvtClear (EV_TX_READY); usb_lld_write (ENDP3, buffer_in, count_in); chEvtWaitOne (EV_TX_READY); } stdout.str = NULL; stdout.size = 0; chCondBroadcast (&stdout.finish_cnd); chMtxUnlock (); } goto again; return 0; } #else void _write (const char *s, int size) { (void)s; (void)size; } #endif static WORKING_AREA(waUSBthread, 128); extern msg_t USBthread (void *arg); /* * main thread does 1-bit LED display output */ #define LED_TIMEOUT_INTERVAL MS2ST(100) #define LED_TIMEOUT_ZERO MS2ST(50) #define LED_TIMEOUT_ONE MS2ST(200) #define LED_TIMEOUT_STOP MS2ST(500) #define ID_OFFSET 12 static void device_initialize_once (void) { const uint8_t *p = &gnukStringSerial[ID_OFFSET]; if (p[0] == 0xff && p[1] == 0xff && p[2] == 0xff && p[3] == 0xff) { /* * This is the first time invocation. * Setup serial number by unique device ID. */ const uint8_t *u = unique_device_id (); int i; for (i = 0; i < 4; i++) { uint8_t b = u[i]; uint8_t nibble; nibble = (b >> 4); nibble += (nibble >= 10 ? ('A' - 10) : '0'); flash_put_data_internal (&p[i*4], nibble); nibble = (b & 0x0f); nibble += (nibble >= 10 ? ('A' - 10) : '0'); flash_put_data_internal (&p[i*4+2], nibble); } } } static volatile uint8_t fatal_code; Thread *main_thread; #define GNUK_INIT 0 #define GNUK_RUNNING 1 #define GNUK_INPUT_WAIT 2 #define GNUK_FATAL 255 /* * 0 for initializing * 1 for normal mode * 2 for input waiting * 255 for fatal */ static uint8_t main_mode; static void display_interaction (void) { eventmask_t m; while (1) { m = chEvtWaitOne (ALL_EVENTS); set_led (1); switch (m) { case LED_ONESHOT_SHORT: chThdSleep (MS2ST (100)); break; case LED_ONESHOT_LONG: chThdSleep (MS2ST (400)); break; case LED_TWOSHOT: chThdSleep (MS2ST (50)); set_led (0); chThdSleep (MS2ST (50)); set_led (1); chThdSleep (MS2ST (50)); break; case LED_STATUS_MODE: chThdSleep (MS2ST (400)); set_led (0); return; case LED_FATAL_MODE: main_mode = GNUK_FATAL; set_led (0); return; default: break; } set_led (0); } } static void display_fatal_code (void) { set_led (1); chThdSleep (LED_TIMEOUT_ZERO); set_led (0); chThdSleep (LED_TIMEOUT_INTERVAL); set_led (1); chThdSleep (LED_TIMEOUT_ZERO); set_led (0); chThdSleep (LED_TIMEOUT_INTERVAL); set_led (1); chThdSleep (LED_TIMEOUT_ZERO); set_led (0); chThdSleep (LED_TIMEOUT_STOP); set_led (1); if (fatal_code & 1) chThdSleep (LED_TIMEOUT_ONE); else chThdSleep (LED_TIMEOUT_ZERO); set_led (0); chThdSleep (LED_TIMEOUT_INTERVAL); set_led (1); if (fatal_code & 2) chThdSleep (LED_TIMEOUT_ONE); else chThdSleep (LED_TIMEOUT_ZERO); set_led (0); chThdSleep (LED_TIMEOUT_INTERVAL); set_led (1); chThdSleep (LED_TIMEOUT_STOP); set_led (0); chThdSleep (LED_TIMEOUT_INTERVAL); } static void display_status_code (void) { enum icc_state icc_state; if (icc_state_p == NULL) icc_state = ICC_STATE_START; else icc_state = *icc_state_p; if (icc_state == ICC_STATE_START) { set_led (1); chThdSleep (LED_TIMEOUT_ONE); set_led (0); chThdSleep (LED_TIMEOUT_STOP * 3); } else /* GPGthread running */ { set_led (1); if ((auth_status & AC_ADMIN_AUTHORIZED) != 0) chThdSleep (LED_TIMEOUT_ONE); else chThdSleep (LED_TIMEOUT_ZERO); set_led (0); chThdSleep (LED_TIMEOUT_INTERVAL); set_led (1); if ((auth_status & AC_OTHER_AUTHORIZED) != 0) chThdSleep (LED_TIMEOUT_ONE); else chThdSleep (LED_TIMEOUT_ZERO); set_led (0); chThdSleep (LED_TIMEOUT_INTERVAL); set_led (1); if ((auth_status & AC_PSO_CDS_AUTHORIZED) != 0) chThdSleep (LED_TIMEOUT_ONE); else chThdSleep (LED_TIMEOUT_ZERO); if (icc_state == ICC_STATE_WAIT) { set_led (0); chThdSleep (LED_TIMEOUT_STOP * 2); } else if (icc_state == ICC_STATE_RECEIVE) { set_led (0); chThdSleep (LED_TIMEOUT_INTERVAL); set_led (1); chThdSleep (LED_TIMEOUT_ONE); set_led (0); chThdSleep (LED_TIMEOUT_STOP); } else { set_led (0); chThdSleep (LED_TIMEOUT_INTERVAL); set_led (1); chThdSleep (LED_TIMEOUT_STOP); set_led (0); chThdSleep (LED_TIMEOUT_INTERVAL); } } } void led_blink (int spec) { if (spec == 0) chEvtSignal (main_thread, LED_ONESHOT_SHORT); else if (spec == 1) chEvtSignal (main_thread, LED_ONESHOT_LONG); else chEvtSignal (main_thread, LED_TWOSHOT); } /* * Entry point. * * NOTE: the main function is already a thread in the system on entry. * See the hwinit1_common function. */ int main (int argc, char **argv) { int count = 0; (void)argc; (void)argv; main_thread = chThdSelf (); flash_unlock (); device_initialize_once (); usb_lld_init (); random_init (); #ifdef DEBUG stdout_init (); /* * Creates 'stdout' thread. */ chThdCreateStatic (waSTDOUTthread, sizeof(waSTDOUTthread), NORMALPRIO, STDOUTthread, NULL); #endif chThdCreateStatic (waUSBthread, sizeof(waUSBthread), NORMALPRIO, USBthread, NULL); #ifdef PINPAD_DND_SUPPORT msc_init (); #endif while (1) { eventmask_t m; count++; m = chEvtWaitOneTimeout (ALL_EVENTS, LED_TIMEOUT_INTERVAL); switch (m) { case LED_STATUS_MODE: main_mode = GNUK_RUNNING; break; case LED_FATAL_MODE: main_mode = GNUK_FATAL; break; case LED_INPUT_MODE: main_mode = GNUK_INPUT_WAIT; set_led (1); chThdSleep (MS2ST (400)); set_led (0); break; default: break; } switch (main_mode) { case GNUK_FATAL: display_fatal_code (); break; case GNUK_INIT: set_led (1); chThdSleep (LED_TIMEOUT_ZERO); set_led (0); chThdSleep (LED_TIMEOUT_STOP * 3); break; case GNUK_INPUT_WAIT: display_interaction (); break; case GNUK_RUNNING: default: display_status_code (); break; } #ifdef DEBUG_MORE if (bDeviceState == CONFIGURED && (count % 10) == 0) { DEBUG_SHORT (count / 10); _write ("\r\nThis is ChibiOS 2.0.8 on STM32.\r\n" "Testing USB driver.\n\n" "Hello world\r\n\r\n", 35+21+15); } #endif } return 0; } void fatal (uint8_t code) { fatal_code = code; chEvtSignal (main_thread, LED_FATAL_MODE); _write ("fatal\r\n", 7); for (;;); }