/* SIMtrace 2 firmware sniffer application * * (C) 2015-2017 by Harald Welte * (C) 2018 by sysmocom -s.f.m.c. GmbH, Author: Kevin Redon * * This program 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 2 * of the License, or (at your option) any later version. * * This program 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. */ /*------------------------------------------------------------------------------ * Headers *------------------------------------------------------------------------------*/ #include "board.h" #include "simtrace.h" #include "utils.h" #include "main_common.h" #include "osmocom/core/timer.h" /*------------------------------------------------------------------------------ * Internal variables *------------------------------------------------------------------------------*/ typedef struct { /* static initialization, called whether or not the usb config is active */ void (*configure) (void); /* initialization function after the config was selected */ void (*init) (void); /* de-initialization before selecting new config */ void (*exit) (void); /* main loop content for given configuration */ void (*run) (void); /* Interrupt handler for USART0 */ void (*usart0_irq) (void); /* Interrupt handler for USART1 */ void (*usart1_irq) (void); } conf_func; static const conf_func config_func_ptrs[] = { /* array slot 0 is empty, usb configs start at 1 */ #ifdef HAVE_SNIFFER [CFG_NUM_SNIFF] = { .configure = Sniffer_configure, .init = Sniffer_init, .exit = Sniffer_exit, .run = Sniffer_run, .usart0_irq = Sniffer_usart0_irq, .usart1_irq = Sniffer_usart1_irq, }, #endif #ifdef HAVE_CCID [CFG_NUM_CCID] = { .configure = CCID_configure, .init = CCID_init, .exit = CCID_exit, .run = CCID_run, }, #endif #ifdef HAVE_CARDEM [CFG_NUM_PHONE] = { .configure = mode_cardemu_configure, .init = mode_cardemu_init, .exit = mode_cardemu_exit, .run = mode_cardemu_run, .usart0_irq = mode_cardemu_usart0_irq, .usart1_irq = mode_cardemu_usart1_irq, }, #endif #ifdef HAVE_MITM [CFG_NUM_MITM] = { .configure = MITM_configure, .init = MITM_init, .exit = MITM_exit, .run = MITM_run, }, #endif }; /*------------------------------------------------------------------------------ * Internal variables *------------------------------------------------------------------------------*/ #if defined(HAVE_SNIFFER) static volatile enum confNum simtrace_config = CFG_NUM_SNIFF; #elif defined(HAVE_CARDEM) static volatile enum confNum simtrace_config = CFG_NUM_PHONE; #elif defined(HAVE_CCID) static volatile enum confNum simtrace_config = CFG_NUM_CCID; #endif /*---------------------------------------------------------------------------- * Callbacks *----------------------------------------------------------------------------*/ void USBDDriverCallbacks_ConfigurationChanged(uint8_t cfgnum) { TRACE_INFO_WP("cfgChanged%d ", cfgnum); simtrace_config = cfgnum; } void USART1_IrqHandler(void) { if (config_func_ptrs[simtrace_config].usart1_irq) config_func_ptrs[simtrace_config].usart1_irq(); } void USART0_IrqHandler(void) { if (config_func_ptrs[simtrace_config].usart0_irq) config_func_ptrs[simtrace_config].usart0_irq(); } /* returns '1' in case we should break any endless loop */ static void check_exec_dbg_cmd(void) { int ch; if (!UART_IsRxReady()) return; ch = UART_GetChar(); board_exec_dbg_cmd(ch); } /*------------------------------------------------------------------------------ * Main *------------------------------------------------------------------------------*/ #define MAX_USB_ITER BOARD_MCK/72 // This should be around a second extern int main(void) { uint8_t isUsbConnected = 0; enum confNum last_simtrace_config = simtrace_config; unsigned int i = 0; /* Configure LED output * red on = power * red blink = error * green on = running * green blink = activity */ led_init(); led_blink(LED_RED, BLINK_ALWAYS_ON); led_blink(LED_GREEN, BLINK_ALWAYS_ON); /* Enable watchdog for 2000 ms, with no window */ WDT_Enable(WDT, WDT_MR_WDRSTEN | WDT_MR_WDDBGHLT | WDT_MR_WDIDLEHLT | (WDT_GetPeriod(2000) << 16) | WDT_GetPeriod(2000)); PIO_InitializeInterrupts(0); print_banner(); board_main_top(); TRACE_INFO("USB init...\n\r"); SIMtrace_USB_Initialize(); while (USBD_GetState() < USBD_STATE_CONFIGURED) { WDT_Restart(WDT); check_exec_dbg_cmd(); #if 0 if (i >= MAX_USB_ITER * 3) { TRACE_ERROR("Resetting board (USB could " "not be configured)\n\r"); USBD_Disconnect(); NVIC_SystemReset(); } #endif i++; } TRACE_INFO("calling configure of all configurations...\n\r"); for (i = 1; i < ARRAY_SIZE(config_func_ptrs); i++) { if (config_func_ptrs[i].configure) config_func_ptrs[i].configure(); } TRACE_INFO("calling init of config %u...\n\r", simtrace_config); config_func_ptrs[simtrace_config].init(); last_simtrace_config = simtrace_config; TRACE_INFO("entering main loop...\n\r"); while (1) { WDT_Restart(WDT); #if TRACE_LEVEL >= TRACE_LEVEL_DEBUG const char rotor[] = { '-', '\\', '|', '/' }; putchar('\b'); putchar(rotor[i++ % ARRAY_SIZE(rotor)]); #endif check_exec_dbg_cmd(); osmo_timers_prepare(); osmo_timers_update(); if (USBD_GetState() < USBD_STATE_CONFIGURED) { if (isUsbConnected) { isUsbConnected = 0; } } else if (isUsbConnected == 0) { TRACE_INFO("USB is now configured\n\r"); isUsbConnected = 1; } if (last_simtrace_config != simtrace_config) { TRACE_INFO("USB config chg %u -> %u\n\r", last_simtrace_config, simtrace_config); config_func_ptrs[last_simtrace_config].exit(); config_func_ptrs[simtrace_config].init(); last_simtrace_config = simtrace_config; } else { config_func_ptrs[simtrace_config].run(); } } }