#include "flash_from_sd.h" #if AP_BOOTLOADER_FLASH_FROM_SD_ENABLED #include "ch.h" #include "ff.h" #include "md5.h" #include #include #include #include #include "stm32_util.h" #include #include #include "support.h" // swiped from support.cpp: static const uint8_t *flash_base = (const uint8_t *)(0x08000000 + (FLASH_BOOTLOADER_LOAD_KB + APP_START_OFFSET_KB)*1024U); // taken from AP_Common.cpp as we don't want to compile the AP_Common // directory. This function is defined in AP_Common.h - so we can't // use "static" here. /** * return the numeric value of an ascii hex character * * @param[in] a Hexadecimal character * @return Returns a binary value */ uint8_t char_to_hex(char a) { if (a >= 'A' && a <= 'F') return a - 'A' + 10; else if (a >= 'a' && a <= 'f') return a - 'a' + 10; else return a - '0'; } #define MAX_IO_SIZE 4096 static uint8_t buffer[MAX_IO_SIZE]; // a class which provides parsing functionality for abin files; // inheritors must supply a function to deal with the body of the abin // and may supply methods run() (to initialise their state) and // name_value_callback (to handle name/value pairs extracted from the // abin header. class ABinParser { public: ABinParser(const char *_path) : path{_path} { } virtual ~ABinParser() {} virtual bool run() = 0; protected: virtual void name_value_callback(const char *name, const char *value) {} virtual void body_callback(const uint8_t *bytes, uint32_t n) = 0; bool parse(); private: const char *path; }; bool ABinParser::parse() { FIL fh; if (f_open(&fh, path, FA_READ) != FR_OK) { return false; } enum class State { START_NAME=17, // "MD5: " ACCUMULATING_NAME=19, ACCUMULATING_VALUE = 30, START_BODY = 40, PROCESSING_BODY = 45, SKIPPING_POST_COLON_SPACES = 50, START_VALUE = 55, }; State state = State::START_NAME; uint16_t name_start = 0; uint16_t name_end = 0; uint16_t value_start = 0; // for efficiency we assume all headers are within the first chunk // read i.e. the name/value pairs do not cross a MAX_IO_SIZE // boundary while (true) { UINT bytes_read; if (f_read(&fh, buffer, sizeof(buffer), &bytes_read) != FR_OK) { return false; } if (bytes_read > sizeof(buffer)) { // error return false; } if (bytes_read == 0) { break; } for (uint16_t i=0; i= 3) { if (!strncmp((char*)&buffer[i], "--\n", bytes_read-i)) { // end of headers i += 2; state = State::START_BODY; continue; } } // sanity check input: if (buffer[i] == ':') { // zero-length name?! just say no: return false; } if (buffer[i] == '\n') { // empty line... ignore it continue; } name_start = i; state = State::ACCUMULATING_NAME; continue; } case State::ACCUMULATING_NAME: { if (buffer[i] == '\n') { // no colon on this line; just say no: return false; } if (buffer[i] == ':') { name_end = i; state = State::SKIPPING_POST_COLON_SPACES; continue; } // continue to accumulate name continue; } case State::SKIPPING_POST_COLON_SPACES: if (buffer[i] == ' ') { // continue to accumulate spaces continue; } state = State::START_VALUE; FALLTHROUGH; case State::START_VALUE: value_start = i; state = State::ACCUMULATING_VALUE; FALLTHROUGH; case State::ACCUMULATING_VALUE: { if (buffer[i] != '\n') { // continue to accumate value bytes continue; } char name[80]; char value[80]; strncpy(name, (char*)&buffer[name_start], MIN(sizeof(name)-1, name_end-name_start)); strncpy(value, (char*)&buffer[value_start], MIN(sizeof(value)-1, i-value_start)); name_value_callback(name, value); state = State::START_NAME; continue; } case State::START_BODY: state = State::PROCESSING_BODY; FALLTHROUGH; case State::PROCESSING_BODY: body_callback(&buffer[i], bytes_read-i); i = bytes_read; continue; } } } // successfully parsed the abin. Call the body callback once more // with zero bytes indicating EOF: body_callback((uint8_t*)"", 0); return true; } // a sub-class of ABinParser which takes the supplied MD5 from the // abin header and compares it against the calculated md5sum of the // abin body class ABinVerifier : ABinParser { public: using ABinParser::ABinParser; bool run() override { MD5Init(&md5_context); if (!parse()) { return false; } // verify the checksum is as expected uint8_t calculated_md5[16]; MD5Final(calculated_md5, &md5_context); if (!memcmp(calculated_md5, expected_md5, sizeof(calculated_md5))) { // checksums match return true; } return false; } protected: void name_value_callback(const char *name, const char *value) override { if (strncmp(name, "MD5", 3)) { // only interested in MD5 header return; } // convert from 32-byte-string to 16-byte number: for (uint8_t j=0; j<16; j++) { expected_md5[j] = (char_to_hex(value[j*2]) << 4) | char_to_hex(value[j*2+1]); } } void body_callback(const uint8_t *bytes, uint32_t nbytes) override { MD5Update(&md5_context, bytes, nbytes); } private: uint8_t expected_md5[16]; MD5Context md5_context; }; // a sub-class of ABinParser which flashes the body of the supplied abin class ABinFlasher : public ABinParser { public: using ABinParser::ABinParser; bool run() override { // start by erasing all sectors for (uint8_t i = 0; flash_func_sector_size(i) != 0; i++) { if (!flash_func_erase_sector(i)) { return false; } led_toggle(LED_BOOTLOADER); } // parse and flash if (!parse()) { return false; } return !failed; } protected: void body_callback(const uint8_t *bytes, uint32_t nbytes) override { if (failed) { return; } memcpy(&buffer[buffer_ofs], bytes, nbytes); buffer_ofs += nbytes; const uint32_t WRITE_CHUNK_SIZE = 32*1024; // must be less than size of state buffer // nbytes is zero after the last chunk in the body if (buffer_ofs > WRITE_CHUNK_SIZE || nbytes == 0) { uint32_t write_size = WRITE_CHUNK_SIZE; uint32_t padded_write_size = write_size; if (nbytes == 0) { // final chunk. We have to align to 128 bytes write_size = buffer_ofs; padded_write_size = write_size; const uint8_t pad_size = 128 - (write_size % 128); // zero those extra bytes: memset(&buffer[buffer_ofs], '\0', pad_size); padded_write_size += pad_size; } const uint32_t ofs = uint32_t(flash_base) + flash_ofs; if (!stm32_flash_write(ofs, buffer, padded_write_size)) { failed = true; return; } flash_ofs += padded_write_size; buffer_ofs -= write_size; memcpy(buffer, &buffer[write_size], buffer_ofs); led_toggle(LED_BOOTLOADER); } } private: uint32_t flash_ofs = 0; uint32_t buffer_ofs = 0; uint8_t buffer[64*1024]; // constrained by memory map on bootloader bool failed = false; }; // main entry point to the flash-from-sd-card functionality; called // from the bootloader main function bool flash_from_sd() { peripheral_power_enable(); if (!sdcard_init()) { return false; } bool ret = false; // expected filepath for abin: const char *abin_path = "/ardupilot.abin"; // we rename to this before verifying the abin: const char *verify_abin_path = "/ardupilot-verify.abin"; // we rename to this before flashing the abin: const char *flash_abin_path = "/ardupilot-flash.abin"; // we rename to this after flashing the abin: const char *flashed_abin_path = "/ardupilot-flashed.abin"; ABinVerifier *verifier = nullptr; ABinFlasher *flasher = nullptr; FILINFO info; if (f_stat(abin_path, &info) != FR_OK) { goto out; } f_unlink(verify_abin_path); f_unlink(flash_abin_path); f_unlink(flashed_abin_path); // rename the file so we only ever attempt to flash from it once: if (f_rename(abin_path, verify_abin_path) != FR_OK) { // we would be nice to indicate an error here. // we could try to drop a message on the SD card? return false; } verifier = NEW_NOTHROW ABinVerifier{verify_abin_path}; if (!verifier->run()) { goto out; } // rename the file so we only ever attempt to flash from it once: if (f_rename(verify_abin_path, flash_abin_path) != FR_OK) { // we would be nice to indicate an error here. // we could try to drop a message on the SD card? return false; } flasher = NEW_NOTHROW ABinFlasher{flash_abin_path}; if (!flasher->run()) { goto out; } // rename the file to indicate successful flash: if (f_rename(flash_abin_path, flashed_abin_path) != FR_OK) { // we would be nice to indicate an error here. // we could try to drop a message on the SD card? return false; } ret = true; out: delete verifier; verifier = nullptr; delete flasher; flasher = nullptr; sdcard_stop(); // should we disable peripheral power again?! return ret; } #endif // AP_BOOTLOADER_FLASH_FROM_SD_ENABLED