#include #if CONFIG_HAL_BOARD == HAL_BOARD_LINUX const AP_HAL::HAL& hal = AP_HAL::get_HAL(); void setup() { } void loop() { // the library simply panics if a JEDEC device can't be found. We // can't really recover from that. hal.console->printf("No JEDEC on linux\n"); hal.scheduler->delay(1000); } #else #include #include #include #include #include #include AP_FlashIface_JEDEC jedec_dev; const AP_HAL::HAL& hal = AP_HAL::get_HAL(); void setup(); void loop(); GCS_Dummy _gcs; #ifdef HAL_BOOTLOADER_BUILD #define DELAY_MILLIS(x) do { chThdSleepMilliseconds(x); } while(0) #define DELAY_MICROS(x) do { chThdSleepMicroseconds(x); } while(0) #else #define DELAY_MILLIS(x) do { hal.scheduler->delay(x); } while(0) #define DELAY_MICROS(x) do { hal.scheduler->delay_microseconds(x); } while(0) #endif const AP_Param::GroupInfo GCS_MAVLINK_Parameters::var_info[] = { AP_GROUPEND }; static AP_SerialManager serial_manager; static AP_BoardConfig board_config; static UNUSED_FUNCTION void test_page_program() { uint8_t *data = new uint8_t[jedec_dev.get_page_size()]; if (data == nullptr) { hal.console->printf("Failed to allocate data for program"); } uint8_t *rdata = new uint8_t[jedec_dev.get_page_size()]; if (rdata == nullptr) { hal.console->printf("Failed to allocate data for read"); } // fill program data with its own adress for (uint32_t i = 0; i < jedec_dev.get_page_size(); i++) { data[i] = i; } hal.console->printf("Writing Page #1\n"); uint32_t delay_us, timeout_us; uint64_t start_time_us = AP_HAL::micros64(); if (!jedec_dev.start_program_page(0, data, delay_us, timeout_us)) { hal.console->printf("Page write command failed\n"); return; } while (true) { DELAY_MICROS(delay_us); if (AP_HAL::micros64() > (start_time_us+delay_us)) { if (!jedec_dev.is_device_busy()) { hal.console->printf("Page Program Successful, elapsed %ld us\n", (unsigned long)(AP_HAL::micros64() - start_time_us)); break; } else { hal.console->printf("Typical page program time reached, Still Busy?!\n"); } } if (AP_HAL::micros64() > (start_time_us+timeout_us)) { hal.console->printf("Page Program Timed out, elapsed %lld us\n", (unsigned long long)(AP_HAL::micros64() - start_time_us)); return; } } if (!jedec_dev.read(0, rdata, jedec_dev.get_page_size())) { hal.console->printf("Failed to read Flash page\n"); } else { if (memcmp(data, rdata, jedec_dev.get_page_size()) != 0) { hal.console->printf("Program Data Mismatch!\n"); } else { hal.console->printf("Program Data Verified Good!\n"); } } // Now test XIP mode here as well uint8_t *chip_data = nullptr; if (!jedec_dev.start_xip_mode((void**)&chip_data)) { hal.console->printf("Failed to setup XIP mode\n"); } if (chip_data == nullptr) { hal.console->printf("Invalid address!\n"); } // Here comes the future! if (memcmp(data, chip_data, jedec_dev.get_page_size()) != 0) { hal.console->printf("Program Data Mismatch in XIP mode!\n"); } else { hal.console->printf("Program Data Verified Good in XIP mode!\n"); } jedec_dev.stop_xip_mode(); } static UNUSED_FUNCTION void test_sector_erase() { uint32_t delay_ms, timeout_ms; if (!jedec_dev.start_sector_erase(0, delay_ms, timeout_ms)) { // erase first sector hal.console->printf("Sector erase command failed\n"); return; } uint32_t erase_start = AP_HAL::millis(); uint32_t next_check_ms = 0; hal.console->printf("Erasing Sector #1 "); while (true) { if (AP_HAL::millis() > next_check_ms) { hal.console->printf("\n"); if (!jedec_dev.is_device_busy()) { if (next_check_ms == 0) { hal.console->printf("Sector Erase happened too fast\n"); return; } hal.console->printf("Sector Erase Successful, elapsed %ld ms\n", (unsigned long)(AP_HAL::millis() - erase_start)); break; } else { hal.console->printf("Still busy erasing, elapsed %ld ms\n", (unsigned long)(AP_HAL::millis() - erase_start)); } if ((AP_HAL::millis() - erase_start) > timeout_ms) { hal.console->printf("Sector Erase Timed Out, elapsed %ld ms\n", (unsigned long)(AP_HAL::millis() - erase_start)); return; } next_check_ms = erase_start+delay_ms; } DELAY_MILLIS((delay_ms/100) + 10); hal.console->printf("*"); } if (!jedec_dev.verify_sector_erase(0)) { hal.console->printf("Erase Verification Failed!\n"); } else { hal.console->printf("Erase Verification Successful!\n"); } } static UNUSED_FUNCTION void test_mass_erase() { uint32_t delay_ms, timeout_ms; if (!jedec_dev.start_mass_erase(delay_ms, timeout_ms)) { hal.console->printf("Mass erase command failed\n"); return; } uint32_t erase_start = AP_HAL::millis(); uint32_t next_check_ms = 0; hal.console->printf("Mass Erasing "); while (true) { if (AP_HAL::millis() > next_check_ms) { hal.console->printf("\n"); if (!jedec_dev.is_device_busy()) { if (next_check_ms == 0) { hal.console->printf("Sector Erase happened too fast\n"); return; } hal.console->printf("Mass Erase Successful, elapsed %ld ms\n",(unsigned long)(AP_HAL::millis() - erase_start)); return; } else { hal.console->printf("Still busy erasing, elapsed %ld ms\n", (unsigned long)(AP_HAL::millis() - erase_start)); } if ((AP_HAL::millis() - erase_start) > timeout_ms) { hal.console->printf("Mass Erase Timed Out, elapsed %ld ms\n", (unsigned long)(AP_HAL::millis() - erase_start)); return; } next_check_ms = erase_start+delay_ms; } DELAY_MILLIS(delay_ms/100); hal.console->printf("*"); } } void setup() { board_config.init(); serial_manager.init(); } void loop() { // Start on user input hal.console->printf("\n\n******************Starting Test********************\n"); jedec_dev.init(); test_sector_erase(); test_page_program(); // test_mass_erase(); hal.scheduler->delay(1000); } #endif AP_HAL_MAIN();