Norimasa Okamoto
/
STM32_IAP_test
STM32_IAP test
main_L031K6.cpp
- Committer:
- va009039
- Date:
- 2016-05-01
- Revision:
- 0:51e4fa01745a
File content as of revision 0:51e4fa01745a:
#if defined(TARGET_NUCLEO_L031K6) #include "mbed.h" #include "mytest.h" #include "IAP.h" DigitalOut led1(LED1); RawSerial pc(USBTX,USBRX); IAP iap; void dump(const uint8_t* addr, size_t size = 32) { for(size_t i = 0; i < size; i++) { if (i%32 == 0) { printf("%p:", addr); } printf(" %02x%s", *addr++, i%32 == 31 ? "\n" : ""); } } TEST(read_ID,test1) { int r = iap.read_ID(); ASSERT_TRUE(r == 0x425); } TEST(erase,page224) { int r = iap.erase(224, 224); ASSERT_TRUE(r == CMD_SUCCESS); uint8_t* p = (uint8_t*)0x08007000; dump((uint8_t*)0x08007000); for(int i = 0; i < 128; i++, p++) { ASSERT_TRUE(*p == 0x00); } } TEST(erase,page256) { int r = iap.erase(256, 256); ASSERT_TRUE(r != CMD_SUCCESS); } TEST(blank_check,page224) { int r = iap.blank_check(224, 224); ASSERT_TRUE(r == CMD_SUCCESS); } TEST(blank_check,page256) { int r = iap.blank_check(256, 256); ASSERT_TRUE(r != CMD_SUCCESS); } const uint8_t src[128] = {1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28}; TEST(write,page224_0x08007000) { int r = iap.write((char*)src, (char*)0x08007000, sizeof(src)); ASSERT_TRUE(r == CMD_SUCCESS); if (r == CMD_SUCCESS) { ASSERT_TRUE(memcmp(src, (void*)0x08007000, sizeof(src)) == 0); } } TEST(write,page255_0x08007f80) { int r = iap.erase(255, 255); ASSERT_TRUE(r == CMD_SUCCESS); r = iap.blank_check(255, 255); ASSERT_TRUE(r == CMD_SUCCESS); r = iap.write((char*)src, (char*)0x08007f80, sizeof(src)); ASSERT_TRUE(r == CMD_SUCCESS); if (r == CMD_SUCCESS) { ASSERT_TRUE(memcmp(src, (void*)0x08007f80, sizeof(src)) == 0); } } TEST(write,page256_0x08008000) { int r = iap.prepare(256, 256); ASSERT_TRUE(r != CMD_SUCCESS); r = iap.erase(256, 256); ASSERT_TRUE(r != CMD_SUCCESS); r = iap.write((char*)src, (char*)0x08008000, sizeof(src)); ASSERT_TRUE(r != CMD_SUCCESS); } TEST(erase,page224_225) { int r = iap.erase(224, 225); ASSERT_TRUE(r == CMD_SUCCESS); uint8_t* p = (uint8_t*)0x08007000; for(int i = 0; i < 128*2; i++, p++) { ASSERT_TRUE(*p == 0x00); } } TEST(blank_check,page224_225) { int r = iap.blank_check(224, 225); ASSERT_TRUE(r == CMD_SUCCESS); } TEST(write_eeprom,_0x08080000) { int r = iap.write_eeprom((char*)src, (char*)0x08080000, sizeof(src)); ASSERT_TRUE(r == CMD_SUCCESS); if (r == CMD_SUCCESS) { ASSERT_TRUE(memcmp(src,(char*)0x08080000, sizeof(src)) == 0); } } TEST(read_eeprom,_0x08080000) { int r = iap.write_eeprom((char*)src, (char*)0x08080000, sizeof(src)); ASSERT_TRUE(r == CMD_SUCCESS); uint8_t temp[sizeof(src)]; r = iap.read_eeprom((char*)0x08080000, (char*)temp, sizeof(src)); ASSERT_TRUE(r == CMD_SUCCESS); if (r == CMD_SUCCESS) { ASSERT_TRUE(memcmp(temp, src, sizeof(src)) == 0); } } TEST(eeprom,_0x080803f0) { // 0x0808003ff-0x080803ff const size_t size = 16; int r = iap.write_eeprom((char*)src, (char*)0x080803f0, size); ASSERT_TRUE(r == CMD_SUCCESS); uint8_t temp[size]; r = iap.read_eeprom((char*)0x080803f0, (char*)temp, sizeof(temp)); ASSERT_TRUE(r == CMD_SUCCESS); if (r == CMD_SUCCESS) { ASSERT_TRUE(memcmp(temp, src, sizeof(temp)) == 0); } } TEST(eeprom,_0x08080400) { // 0x080800400-0x0808040f const size_t size = 16; int r = iap.write_eeprom((char*)src, (char*)0x08080400, size); ASSERT_TRUE(r != CMD_SUCCESS); uint8_t temp[size]; r = iap.read_eeprom((char*)0x08080400, (char*)temp, sizeof(temp)); ASSERT_TRUE(r != CMD_SUCCESS); } int main() { pc.baud(115200); printf("%s", __FILE__); RUN_ALL_TESTS(); for(;;) { led1 = !led1; wait_ms(200); } } #endif // TARGET_NUCLEO_L031K6