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
Target2.cpp
- Committer:
- va009039
- Date:
- 2013-09-01
- Revision:
- 0:27d35fa263b5
- Child:
- 1:eb30547ba84d
File content as of revision 0:27d35fa263b5:
// Target2.cpp 2013/9/1 #include "Target2.h" #include "mydebug.h" #define DHCSR 0xe000edf0 #define DCRSR (DHCSR+4) #define DCRDR (DHCSR+8) Target2::Target2(PinName swdio, PinName swclk, PinName reset, Serial* usbpc) : _swd(swdio, swclk, reset), _pc(usbpc) { r0.setup(this, 0); r1.setup(this, 1); r2.setup(this, 2); r3.setup(this, 3); r4.setup(this, 4); r5.setup(this, 5); r6.setup(this, 6); r7.setup(this, 7); r8.setup(this, 8); r9.setup(this, 9); r10.setup(this, 10); r11.setup(this, 11); r12.setup(this, 12); sp.setup(this, 13); lr.setup(this, 14); pc.setup(this, 15); xpsr.setup(this, 16); } bool Target2::setup() { _swd.Setup(); _swd.JTAG2SWD(); uint32_t data; uint8_t ack = _swd.Transfer(DP_IDCODE, &data); TEST_ASSERT(ack == SWD_OK); if (ack != SWD_OK) { return false; } TEST_ASSERT(data == 0x0bb11477); Abort(); data = 0x0; ack = _swd.Transfer(DP_SELECT, &data); TEST_ASSERT(ack == SWD_OK); if (ack != SWD_OK) { return false; } ack = _swd.Transfer(DP_RDBUFF, &data); TEST_ASSERT(ack == SWD_OK); if (ack != SWD_OK) { return false; } data = CSYSPWRUPREQ | CDBGPWRUPREQ; TEST_ASSERT(data == 0x50000000); ack = _swd.Transfer(DP_CTRL_STAT, &data); TEST_ASSERT(ack == SWD_OK); if (ack != SWD_OK) { return false; } ack = _swd.Transfer(DP_RDBUFF, &data); TEST_ASSERT(ack == SWD_OK); if (ack != SWD_OK) { return false; } ack = _swd.Transfer(DP_CTRL_STAT_R, &data); TEST_ASSERT(ack == SWD_OK); if (ack != SWD_OK) { return false; } TEST_ASSERT(data == 0xf0000040); data = CSYSPWRUPREQ | CDBGPWRUPREQ | 0x04000000; TEST_ASSERT(data == 0x54000000); ack = _swd.Transfer(DP_CTRL_STAT, &data); TEST_ASSERT(ack == SWD_OK); if (ack != SWD_OK) { return false; } ack = _swd.Transfer(DP_RDBUFF, &data); TEST_ASSERT(ack == SWD_OK); if (ack != SWD_OK) { return false; } data = CSYSPWRUPREQ | CDBGPWRUPREQ | MASKLANE; TEST_ASSERT(data == 0x50000f00); ack = _swd.Transfer(DP_CTRL_STAT, &data); TEST_ASSERT(ack == SWD_OK); if (ack != SWD_OK) { return false; } ack = _swd.Transfer(DP_RDBUFF, &data); TEST_ASSERT(ack == SWD_OK); if (ack != SWD_OK) { return false; } return true; } void Target2::Reset() { _swd.reset(); } uint32_t Target2::readMemory(uint32_t addr) { _setaddr(addr); uint32_t data; uint8_t ack = _swd.Transfer(AP_DRW_R, &data); // dummy read TEST_ASSERT(ack == SWD_OK); ack = _swd.Transfer(DP_RDBUFF, &data); TEST_ASSERT(ack == SWD_OK); return data; } void Target2::readMemory(uint32_t addr, uint32_t* data, int count) { if (count == 0) { return; } _setaddr(addr); uint8_t ack = _swd.Transfer(AP_DRW_R, NULL); // dummy read TEST_ASSERT(ack == SWD_OK); for(int i = 0; i < count-1; i++) { ack = _swd.Transfer(AP_DRW_R, data++); TEST_ASSERT(ack == SWD_OK); } ack = _swd.Transfer(DP_RDBUFF, data); TEST_ASSERT(ack == SWD_OK); } void Target2::writeMemory(uint32_t addr, uint32_t data) { writeMemory(addr, &data, 1); } void Target2::writeMemory(uint32_t addr, uint32_t* data, int count) { _setaddr(addr); while(count-- > 0) { uint8_t ack = _swd.Transfer(AP_DRW_W, data); TEST_ASSERT(ack == SWD_OK); data++; } } void Target2::_setaddr(uint32_t addr) { uint32_t ctl = CSW_VALUE|CSW_SIZE32; TEST_ASSERT(ctl == 0x23000052); uint8_t ack = _swd.Transfer(AP_CSW, &ctl); TEST_ASSERT(ack == SWD_OK); ack = _swd.Transfer(DP_RDBUFF, NULL); TEST_ASSERT(ack == SWD_OK); ack = _swd.Transfer(AP_TAR, &addr); TEST_ASSERT(ack == SWD_OK); ack = _swd.Transfer(DP_RDBUFF, NULL); TEST_ASSERT(ack == SWD_OK); } void Target2::Abort() { uint32_t data = 0x1e; uint8_t ack = _swd.Transfer(DP_ABORT, &data); TEST_ASSERT(ack == SWD_OK); } int Target2::getStatus() { return readMemory(DHCSR) & 6 ? TARGET_HALTED : TARGET_RUNNING; } bool Target2::wait_status(int status, int timeout_ms) { Timer t; t.reset(); t.start(); while(t.read_ms() < timeout_ms) { if (getStatus() == status) { return true; } } return false; } void Target2::halt() { writeMemory(DHCSR, 0xa05f0003); } void Target2::resume() { writeMemory(DHCSR, 0xa05f0001); } uint32_t CoreReg::read() { _target->writeMemory(DCRSR, _reg); return _target->readMemory(DCRDR); } void CoreReg::write(uint32_t value) { _target->writeMemory(DCRDR, value); _target->writeMemory(DCRSR, _reg|0x10000); } void CoreReg::setup(Target2* target, uint8_t reg) { _target = target; _reg = reg; }