/* SIMtrace 2 firmware USB DFU bootloader * * (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. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "board.h" #include "utils.h" #include "usb/device/dfu/dfu.h" #include "usb/common/dfu/usb_dfu.h" #include "manifest.h" #include #define ALTIF_RAM 0 #define ALTIF_FLASH 1 unsigned int g_unique_id[4]; /* remember if the watchdog has been configured in the main loop so we can kick it in the ISR */ static bool watchdog_configured = false; /* There is not enough space in the 16 KiB DFU bootloader to include led.h functions */ #ifdef PINS_LEDS /** LED pin configurations */ static const Pin pinsLeds[] = { PINS_LEDS } ; #endif /*---------------------------------------------------------------------------- * Callbacks *----------------------------------------------------------------------------*/ #define RAM_ADDR(offset) (IRAM_ADDR + BOARD_DFU_RAM_SIZE + offset) #define FLASH_ADDR(offset) (IFLASH_ADDR + BOARD_DFU_BOOT_SIZE + offset) #define IFLASH_END ((uint8_t *)IFLASH_ADDR + IFLASH_SIZE) #define IRAM_END ((uint8_t *)IRAM_ADDR + IRAM_SIZE) /* incoming call-back: Host has transferred 'len' bytes (stored at * 'data'), which we shall write to 'offset' into the partition * associated with 'altif'. Guaranted to be less than * BOARD_DFU_PAGE_SIZE */ int USBDFU_handle_dnload(uint8_t altif, unsigned int offset, uint8_t *data, unsigned int len) { uint32_t addr; unsigned int i; int rc; /* address of the last allocated variable on the stack */ uint32_t stack_addr = (uint32_t)&rc; /* kick the dog to have enough time to flash */ if (watchdog_configured) { WDT_Restart(WDT); } printf("dnload(altif=%u, offset=%u, len=%u)\n\r", altif, offset, len); #ifdef PINS_LEDS PIO_Clear(&pinsLeds[LED_NUM_RED]); #endif switch (altif) { case ALTIF_RAM: addr = RAM_ADDR(offset); if (addr < IRAM_ADDR || addr + len >= IRAM_ADDR + IRAM_SIZE || addr + len >= stack_addr) { g_dfu->state = DFU_STATE_dfuERROR; g_dfu->status = DFU_STATUS_errADDRESS; rc = DFU_RET_STALL; break; } memcpy((void *)addr, data, len); rc = DFU_RET_ZLP; break; case ALTIF_FLASH: addr = FLASH_ADDR(offset); if (addr < IFLASH_ADDR || addr + len >= IFLASH_ADDR + IFLASH_SIZE) { g_dfu->state = DFU_STATE_dfuERROR; g_dfu->status = DFU_STATUS_errADDRESS; rc = DFU_RET_STALL; break; } rc = FLASHD_Unlock(addr, addr + len, 0, 0); if (rc != 0) { TRACE_ERROR("DFU download flash unlock failed\n\r"); rc = DFU_RET_STALL; break; } rc = FLASHD_Write(addr, data, len); if (rc != 0) { TRACE_ERROR("DFU download flash erase failed\n\r"); rc = DFU_RET_STALL; break; } for (i = 0; i < len; i++) { if (((uint8_t*)addr)[i]!=data[i]) { TRACE_ERROR("DFU download flash data written not correct\n\r"); rc = DFU_RET_STALL; break; } } rc = DFU_RET_ZLP; break; default: TRACE_ERROR("DFU download for unknown AltIf %d\n\r", altif); rc = DFU_RET_STALL; break; } #ifdef PINS_LEDS PIO_Set(&pinsLeds[LED_NUM_RED]); #endif return rc; } /* incoming call-back: Host has requested to read back 'req_len' bytes * starting from 'offset' of the firmware * associated with partition * 'altif' */ int USBDFU_handle_upload(uint8_t altif, unsigned int offset, uint8_t *data, unsigned int req_len) { uint32_t addr; printf("upload(altif=%u, offset=%u, len=%u)", altif, offset, req_len); switch (altif) { case ALTIF_RAM: addr = RAM_ADDR(offset); if (addr > IRAM_ADDR + IRAM_SIZE) { g_dfu->state = DFU_STATE_dfuERROR; g_dfu->status = DFU_STATUS_errADDRESS; return -1; } if ((uint8_t *)addr + req_len > IRAM_END) req_len = IRAM_END - (uint8_t *)addr; memcpy(data, (void *)addr, req_len); break; case ALTIF_FLASH: addr = FLASH_ADDR(offset); if (addr > IFLASH_ADDR + IFLASH_SIZE) { g_dfu->state = DFU_STATE_dfuERROR; g_dfu->status = DFU_STATUS_errADDRESS; return -1; } if ((uint8_t *)addr + req_len > IFLASH_END) req_len = IFLASH_END - (uint8_t *)addr; memcpy(data, (void *)addr, req_len); break; default: TRACE_ERROR("DFU upload for unknown AltIf %d\n\r", altif); /* FIXME: set error codes */ return -1; } printf("=%u\n\r", req_len); return req_len; } /* can be overridden by board specific code, e.g. by pushbutton */ WEAK int board_override_enter_dfu(void) { return 0; } /* using this function we can determine if we should enter DFU mode * during boot, or if we should proceed towards the application/runtime */ int USBDFU_OverrideEnterDFU(void) { uint32_t *app_part = (uint32_t *)FLASH_ADDR(0); /* at the first call we are before the text segment has been relocated, * so g_dfu is not initialized yet */ g_dfu = &_g_dfu; if (USB_DFU_MAGIC == g_dfu->magic) { return 1; } /* If the loopback jumper is set, we enter DFU mode */ if (board_override_enter_dfu()) { return 2; } /* if the first word of the application partition doesn't look * like a stack pointer (i.e. point to RAM), enter DFU mode */ if ((app_part[0] < IRAM_ADDR) || ((uint8_t *)app_part[0] > IRAM_END)) { return 3; } /* if the second word of the application partition doesn't look * like a function from flash (reset vector), enter DFU mode */ if (((uint32_t *)app_part[1] < app_part) || ((uint8_t *)app_part[1] > IFLASH_END)) { return 4; } return 0; } /* 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; unsigned int i = 0; uint32_t reset_cause = (RSTC->RSTC_SR & RSTC_SR_RSTTYP_Msk) >> RSTC_SR_RSTTYP_Pos; /* Enable watchdog for 2000ms, with no window */ WDT_Enable(WDT, WDT_MR_WDRSTEN | WDT_MR_WDDBGHLT | WDT_MR_WDIDLEHLT | (WDT_GetPeriod(2000) << 16) | WDT_GetPeriod(2000)); watchdog_configured = true; #ifdef PINS_LEDS /* Configure LED */ PIO_Configure(pinsLeds, sizeof(pinsLeds)); PIO_Set(&pinsLeds[LED_NUM_RED]); PIO_Clear(&pinsLeds[LED_NUM_GREEN]); #endif PIO_InitializeInterrupts(0); EEFC_ReadUniqueID(g_unique_id); printf("\n\r\n\r" "=============================================================================\n\r" "DFU bootloader %s for board %s (C) 2010-2017 by Harald Welte\n\r" "=============================================================================\n\r", manifest_revision, manifest_board); TRACE_INFO("Chip ID: 0x%08x (Ext 0x%08x)\n\r", CHIPID->CHIPID_CIDR, CHIPID->CHIPID_EXID); TRACE_INFO("Serial Nr. %08x-%08x-%08x-%08x\n\r", g_unique_id[0], g_unique_id[1], g_unique_id[2], g_unique_id[3]); TRACE_INFO("Reset Cause: 0x%x\n\r", reset_cause); #if (TRACE_LEVEL >= TRACE_LEVEL_INFO) /* Find out why we are in the DFU bootloader, and not the main application */ TRACE_INFO("DFU bootloader start reason: "); switch (USBDFU_OverrideEnterDFU()) { case 0: /* 0 normally means that there is no override, but we are in the bootloader, * thus the first check in board_cstartup_gnu did return something else than 0. * this can only be g_dfu->magic which is erased when the segment are * relocated, which happens in board_cstartup_gnu just after USBDFU_OverrideEnterDFU. * no static variable can be used to store this case since this will also be overwritten */ case 1: TRACE_INFO_WP("DFU switch requested by main application\n\r"); break; case 2: TRACE_INFO_WP("bootloader forced (button pressed or jumper set)\n\r"); break; case 3: TRACE_INFO_WP("stack pointer (first application word) does no point in RAM\n\r"); break; case 4: // the is no reason TRACE_INFO_WP("reset vector (second application word) does no point in flash\n\r"); break; default: TRACE_INFO_WP("unknown\n\r"); break; } #endif /* clear g_dfu on power-up reset */ if (reset_cause == 0) memset(g_dfu, 0, sizeof(*g_dfu)); board_main_top(); TRACE_INFO("USB init...\n\r"); /* Signal USB reset by disabling the pull-up on USB D+ for at least 10 ms */ const Pin usb_dp_pullup = PIN_USB_PULLUP; PIO_Configure(&usb_dp_pullup, 1); PIO_Set(&usb_dp_pullup); mdelay(15); PIO_Clear(&usb_dp_pullup); USBDFU_Initialize(&dfu_descriptors); while (USBD_GetState() < USBD_STATE_CONFIGURED) { WDT_Restart(WDT); check_exec_dbg_cmd(); #if 1 if (i >= MAX_USB_ITER * 3) { TRACE_ERROR("Resetting board (USB could " "not be configured)\n\r"); USBD_Disconnect(); NVIC_SystemReset(); } #endif i++; } /* Initialize the flash to be able to write it, using the IAP ROM code */ FLASHD_Initialize(BOARD_MCK, 1); 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(); #if 0 osmo_timers_prepare(); osmo_timers_update(); #endif if (USBD_GetState() < USBD_STATE_CONFIGURED) { if (isUsbConnected) { isUsbConnected = 0; } } else if (isUsbConnected == 0) { TRACE_INFO("USB is now configured\n\r"); isUsbConnected = 1; } } }