Norimasa Okamoto
semihost server example program
Dependencies: SWD mbed USBLocalFileSystem BaseDAP USBDAP
| LPCXpresso LPC11U68 | LPCXpresso LPC1549 | FRDM-KL46Z | EA LPC4088 QSB app-board | LPC1768 app-board | LPC810 | LPC1114FN28 | |
|---|---|---|---|---|---|---|---|
| server | server | server | server | server | client | client | |
| SWDIO | D12 | D12 | D12 | p25 | p21 | p4(P0_2) | p12 |
| SWCLK | D10 | D10 | D10 | p26 | p22 | p3(P0_3) | p3 |
| nRESET *option | D6 | D6 | D6 | p34 | p30 | p1(P0_5) | p23 |
| GND | GND | GND | GND | p1 | p1 | p7 | p22 |
| 3.3V | P3V3 | P3V3 | P3V3 | p44 | p40 | p6 | p21 |
| flash write | SW2(P0_1) | SW3(P1_9) | SW1 | p14 joystick center | p14 joystick center |
client example:
Import programlpc810-semihost_helloworld
semihost client example program
Last commit 20 Feb 2014 by 
Norimasa Okamoto
tests/test_Flash.cpp
- Committer:
- va009039
- Date:
- 2013-09-05
- Revision:
- 2:32e9437348ad
- Parent:
- 0:27d35fa263b5
- Child:
- 5:2774358f5e4f
File content as of revision 2:32e9437348ad:
// test_Flash.cpp 2013/9/5
#if 0
#include "Target2.h"
#include "Flash.h"
#include "mytest.h"
LocalFileSystem local("local");
Serial pc(USBTX, USBRX);
Target2* target;
Flash* flash;
const char* filename = "/local/1114FN28.LPC";
#define SKIP_FLASH_WRITE 1
TEST(IAP1,cmd55_read_boot_code_version) {
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::READ_BOOT_CODE_VERSION);
ASSERT_TRUE(status_code == Flash::CMD_SUCCESS);
for(uint32_t addr = 0x10000100; addr < 0x10000100+44; addr += 4) {
TEST_PRINT("%08x: %08x", addr, target->readMemory(addr));
}
}
TEST(IAP1,cmd54) {
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::READ_PART_ID);
ASSERT_TRUE(status_code == Flash::CMD_SUCCESS);
for(uint32_t addr = 0x10000100; addr < 0x10000100+44; addr += 4) {
TEST_PRINT("%08x: %08x", addr, target->readMemory(addr));
}
}
TEST(IAP1,cmd58_ReadUID) {
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::READ_UID);
ASSERT_TRUE(status_code == Flash::CMD_SUCCESS);
for(uint32_t addr = 0x10000100; addr < 0x10000100+44; addr += 4) {
TEST_PRINT("%08x: %08x", addr, target->readMemory(addr));
}
}
TEST(IAP1,cmd50_prepare_sector7) {
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::PREPARE_SECTOR,7,7);
ASSERT_TRUE(status_code == Flash::CMD_SUCCESS);
}
TEST(IAP1,cmd50_prepare_sector6) {
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::PREPARE_SECTOR,6,6);
ASSERT_TRUE(status_code == Flash::CMD_SUCCESS);
}
TEST(IAP1,prepare_status_7) {
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::PREPARE_SECTOR,8,8);
ASSERT_TRUE(status_code == Flash::INVALID_SECTOR);
status_code = flash->remoteIAP(Flash::PREPARE_SECTOR,9,9);
ASSERT_TRUE(status_code == Flash::INVALID_SECTOR);
}
TEST(IAP1,compare_status_10) {
uint32_t buf[16];
uint32_t ram = 0x10000000;
uint32_t addr = 0x00001000;
target->readMemory(addr, buf, sizeof(buf)/sizeof(uint32_t));
target->writeMemory(ram, buf, sizeof(buf)/sizeof(uint32_t));
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::COMPARE, ram, addr);
ASSERT_TRUE(status_code == Flash::CMD_SUCCESS);
status_code = flash->remoteIAP(Flash::COMPARE, ram, addr+1, sizeof(buf));
ASSERT_TRUE(status_code == Flash::ADDR_ERROR);
status_code = flash->remoteIAP(Flash::COMPARE, ram+1, addr, sizeof(buf));
ASSERT_TRUE(status_code == Flash::ADDR_ERROR);
status_code = flash->remoteIAP(Flash::COMPARE, ram, addr, sizeof(buf)-1);
ASSERT_TRUE(status_code == Flash::COUNT_ERROR);
status_code = flash->remoteIAP(Flash::COMPARE, ram+4, addr, sizeof(buf));
ASSERT_TRUE(status_code == Flash::COMPARE_ERROR);
}
#ifndef SKIP_FLASH_WRITE
TEST(IAP1,cmd52_erase_sector7) {
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::PREPARE_SECTOR, 7, 7);
ASSERT_TRUE(status_code == Flash::CMD_SUCCESS);
status_code = flash->remoteIAP(Flash::ERASE_SECTOR, 7, 7, 12000); // CCLK=12MHz
ASSERT_TRUE(status_code == Flash::CMD_SUCCESS);
}
TEST(IAP1,cmd53_blank_check_sector7) {
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::PREPARE_SECTOR, 7, 7);
ASSERT_TRUE(status_code == Flash::CMD_SUCCESS);
status_code = flash->remoteIAP(Flash::ERASE_SECTOR, 7, 7, 12000); // CCLK=12MHz
ASSERT_TRUE(status_code == Flash::CMD_SUCCESS);
status_code = flash->remoteIAP(Flash::BLANK_CHECK, 7, 7, 12000); // CCLK=12MHz
ASSERT_TRUE(status_code == Flash::CMD_SUCCESS);
}
TEST(IAP1,cmd51_copy_ram_to_flash_sector7) {
uint32_t src = 0x10000200;
uint8_t buf[256];
for(int i = 0; i < sizeof(buf); i++) {
buf[i] = i & 0xff;
}
target->writeMemory(src, (uint32_t*)buf, sizeof(buf)/sizeof(uint32_t));
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::PREPARE_SECTOR, 7, 7); // prepare
ASSERT_TRUE(status_code == 0);
uint32_t dst = 4096*7;
status_code = flash->remoteIAP(Flash::COPY_RAM_TO_FLASH, dst, src, 256, 12000); // CCLK=12MHz
ASSERT_TRUE(status_code == 0);
}
TEST(IAP1,cmd56_compare1) {
uint32_t dst = 4096*7;
uint32_t src = 0x10000200;
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::COMPARE, dst, src, 256);
ASSERT_TRUE(status_code == 0);
}
TEST(IAP1,cmd56_compare2) {
uint32_t dst = 4096*7;
uint32_t src = 0x10000200+4;
Flash::IAP_STATUS status_code = flash->remoteIAP(Flash::COMPARE, dst, src, 256);
ASSERT_TRUE(status_code != 0);
}
TEST(Flash1,verify0) {
bool st = flash->verify("/local/1114FN28.LPC");
ASSERT_TRUE(st);
}
TEST(Flash1,eraseAll) {
bool st = flash->eraseAll();
ASSERT_TRUE(st);
}
TEST(Flash1,write1) {
bool st = flash->write("/usb/1114FN28.LPC");
ASSERT_TRUE(!st);
}
TEST(Flash1,write2) {
bool st = flash->write("/local/1114FN28.LPC");
ASSERT_TRUE(st);
}
TEST(Flash1,verify1) {
bool st = flash->verify("/usb/1114FN28.LPC");
ASSERT_TRUE(!st);
}
TEST(Flash1,verify2) {
bool st = flash->verify("/local/1114FN28.LPC");
ASSERT_TRUE(st);
}
TEST(Flash1,verify3) {
bool st = flash->verify("/local/1114FN28.LPC");
ASSERT_TRUE(st);
}
#endif
int main() {
pc.baud(921600);
DBG("%s", __FILE__);
target = new Target2(p21,p22,p17, &pc); // SWDIO(dp12),SWCLK(dp3),nReset(dp23)
target->setup();
flash = new Flash(target, &pc);
RUN_ALL_TESTS();
}
#endif