/** ****************************************************************************** * @addtogroup OpenPilotBL OpenPilot BootLoader * @brief These files contain the code to the OpenPilot MB Bootloader. * * @{ * @file op_dfu.c * @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010. * @brief This file contains the DFU commands handling code * @see The GNU Public License (GPL) Version 3 * *****************************************************************************/ /* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* Includes ------------------------------------------------------------------*/ #include "pios.h" #include "op_dfu.h" #include "pios_bl_helper.h" #include "pios_opahrs.h" #include "ssp.h" /* Private typedef -----------------------------------------------------------*/ /* Private define ------------------------------------------------------------*/ /* Private macro -------------------------------------------------------------*/ /* Private variables ---------------------------------------------------------*/ //programmable devices Device devicesTable[10]; uint8_t numberOfDevices = 0; DFUProgType currentProgrammingDestination; //flash, flash_trough spi uint8_t currentDeviceCanRead; uint8_t currentDeviceCanWrite; Device currentDevice; uint8_t Buffer[64]; uint8_t echoBuffer[64]; uint8_t SendBuffer[64]; uint8_t Command = 0; uint8_t EchoReqFlag = 0; uint8_t EchoAnsFlag = 0; uint8_t StartFlag = 0; uint32_t Aditionals = 0; uint32_t SizeOfTransfer = 0; uint32_t Expected_CRC = 0; uint8_t SizeOfLastPacket = 0; uint32_t Next_Packet = 0; uint8_t TransferType; uint32_t Count = 0; uint32_t Data; uint8_t Data0; uint8_t Data1; uint8_t Data2; uint8_t Data3; uint8_t offset = 0; uint32_t aux; //Download vars uint32_t downSizeOfLastPacket = 0; uint32_t downPacketTotal = 0; uint32_t downPacketCurrent = 0; DFUTransfer downType = 0; /* Extern variables ----------------------------------------------------------*/ extern DFUStates DeviceState; extern uint8_t JumpToApp; extern Port_t ssp_port; extern DFUPort ProgPort; /* Private function prototypes -----------------------------------------------*/ /* Private functions ---------------------------------------------------------*/ void sendData(uint8_t * buf,uint16_t size); uint32_t CalcFirmCRC(void); void DataDownload(DownloadAction action) { if ((DeviceState == downloading)) { uint8_t packetSize; uint32_t offset; uint32_t partoffset; SendBuffer[0] = 0x01; SendBuffer[1] = Download; SendBuffer[2] = downPacketCurrent >> 24; SendBuffer[3] = downPacketCurrent >> 16; SendBuffer[4] = downPacketCurrent >> 8; SendBuffer[5] = downPacketCurrent; if (downPacketCurrent == downPacketTotal - 1) { packetSize = downSizeOfLastPacket; } else { packetSize = 14; } for (uint8_t x = 0; x < packetSize; ++x) { partoffset = (downPacketCurrent * 14 * 4) + (x * 4); offset = baseOfAdressType(downType) + partoffset; if(!flash_read(SendBuffer+(6+x*4),offset,currentProgrammingDestination)) { DeviceState = Last_operation_failed; } /* switch (currentProgrammingDestination) { case Remote_flash_via_spi: if (downType == Descript) { SendBuffer[6 + (x * 4)] = spi_dev_desc[(uint8_t) partoffset]; SendBuffer[7 + (x * 4)] = spi_dev_desc[(uint8_t) partoffset + 1]; SendBuffer[8 + (x * 4)] = spi_dev_desc[(uint8_t) partoffset + 2]; SendBuffer[9 + (x * 4)] = spi_dev_desc[(uint8_t) partoffset + 3]; } break; case Self_flash: SendBuffer[6 + (x * 4)] = *FLASH_If_Read(offset); SendBuffer[7 + (x * 4)] = *FLASH_If_Read(offset + 1); SendBuffer[8 + (x * 4)] = *FLASH_If_Read(offset + 2); SendBuffer[9 + (x * 4)] = *FLASH_If_Read(offset + 3); break; } */ } //PIOS USB_SIL_Write(EP1_IN, (uint8_t*) SendBuffer, 64); downPacketCurrent = downPacketCurrent + 1; if (downPacketCurrent > downPacketTotal - 1) { // STM_EVAL_LEDOn(LED2); DeviceState = Last_operation_Success; Aditionals = (uint32_t) Download; } sendData(SendBuffer+1,63); } } void processComand(uint8_t *xReceive_Buffer) { Command = xReceive_Buffer[COMMAND]; #ifdef DEBUG_SSP char str[63]={0}; sprintf(str,"Received COMMAND:%d|",Command); PIOS_COM_SendString(PIOS_COM_TELEM_USB,str); #endif EchoReqFlag = (Command >> 7); EchoAnsFlag = (Command >> 6) & 0x01; StartFlag = (Command >> 5) & 0x01; Count = xReceive_Buffer[COUNT] << 24; Count += xReceive_Buffer[COUNT + 1] << 16; Count += xReceive_Buffer[COUNT + 2] << 8; Count += xReceive_Buffer[COUNT + 3]; Data = xReceive_Buffer[DATA] << 24; Data += xReceive_Buffer[DATA + 1] << 16; Data += xReceive_Buffer[DATA + 2] << 8; Data += xReceive_Buffer[DATA + 3]; Data0 = xReceive_Buffer[DATA]; Data1 = xReceive_Buffer[DATA + 1]; Data2 = xReceive_Buffer[DATA + 2]; Data3 = xReceive_Buffer[DATA + 3]; Command = Command & 0b00011111; if (EchoReqFlag == 1) { memcpy(echoBuffer, Buffer, 64); } switch (Command) { case EnterDFU: if (((DeviceState == BLidle) && (Data0 < numberOfDevices)) || (DeviceState == DFUidle)) { if (Data0 > 0)//PORQUE??? OPDfuIni(TRUE); DeviceState = DFUidle; currentProgrammingDestination = devicesTable[Data0].programmingType; currentDeviceCanRead = devicesTable[Data0].readWriteFlags & 0x01; currentDeviceCanWrite = devicesTable[Data0].readWriteFlags >> 1 & 0x01; currentDevice = devicesTable[Data0]; uint8_t result = 0; switch (currentProgrammingDestination) { case Self_flash: result = FLASH_Ini(); break; case Remote_flash_via_spi: result = TRUE; break; default: DeviceState = Last_operation_failed; Aditionals = (uint16_t) Command; } if (result != 1) { DeviceState = Last_operation_failed; Aditionals = (uint32_t) Command; } } break; case Upload: if ((DeviceState == DFUidle) || (DeviceState == uploading)) { if ((StartFlag == 1) && (Next_Packet == 0)) { TransferType = Data0; SizeOfTransfer = Count; Next_Packet = 1; Expected_CRC = Data2 << 24; Expected_CRC += Data3 << 16; Expected_CRC += xReceive_Buffer[DATA + 4] << 8; Expected_CRC += xReceive_Buffer[DATA + 5]; SizeOfLastPacket = Data1; if (isBiggerThanAvailable(TransferType, (SizeOfTransfer - 1) * 14 * 4 + SizeOfLastPacket * 4) == TRUE) { DeviceState = outsideDevCapabilities; Aditionals = (uint32_t) Command; } else { uint8_t result = 1; struct opahrs_msg_v0 rsp; if (TransferType == FW) { switch (currentProgrammingDestination) { case Self_flash: result = FLASH_Start(); break; case Remote_flash_via_spi: PIOS_OPAHRS_bl_FwupStart(&rsp); result = FALSE; for (int i = 0; i < 5; ++i) { PIOS_DELAY_WaitmS(1000); PIOS_OPAHRS_bl_resync(); if (PIOS_OPAHRS_bl_FwupStatus(&rsp) == OPAHRS_RESULT_OK) { if (rsp.payload.user.v.rsp.fwup_status.status == started) { result = TRUE; break; } else { result = FALSE; break; } } } break; default: break; } } if (result != 1) { DeviceState = Last_operation_failed;//ok Aditionals = (uint32_t) Command; } else { DeviceState = uploading; } } } else if ((StartFlag != 1) && (Next_Packet != 0)) { if (Count > SizeOfTransfer) { DeviceState = too_many_packets; Aditionals = Count; } else if (Count == Next_Packet - 1) { uint8_t numberOfWords = 14; if (Count == SizeOfTransfer - 1)//is this the last packet? { numberOfWords = SizeOfLastPacket; } struct opahrs_msg_v0 rsp; struct opahrs_msg_v0 req; uint8_t result = 0; switch (currentProgrammingDestination) { case Self_flash: for (uint8_t x = 0; x < numberOfWords; ++x) { offset = 4 * x; Data = xReceive_Buffer[DATA + offset] << 24; Data += xReceive_Buffer[DATA + 1 + offset] << 16; Data += xReceive_Buffer[DATA + 2 + offset] << 8; Data += xReceive_Buffer[DATA + 3 + offset]; aux = baseOfAdressType(TransferType) + (uint32_t)( Count * 14 * 4 + x * 4); result = 0; for (int retry = 0; retry < MAX_WRI_RETRYS; ++retry) { if (result == 0) { result = (FLASH_ProgramWord(aux, Data) == FLASH_COMPLETE) ? 1 : 0; } } } break; case Remote_flash_via_spi: for (uint8_t x = 0; x < numberOfWords; ++x) { offset = 4 * x; Data = xReceive_Buffer[DATA + offset] << 24; Data += xReceive_Buffer[DATA + 1 + offset] << 16; Data += xReceive_Buffer[DATA + 2 + offset] << 8; Data += xReceive_Buffer[DATA + 3 + offset]; req.payload.user.v.req.fwup_data.data[x] = Data; } aux = (baseOfAdressType(TransferType) + (uint32_t)( Count * 14 * 4)); req.payload.user.v.req.fwup_data.adress = aux; req.payload.user.v.req.fwup_data.size = numberOfWords; if (PIOS_OPAHRS_bl_FwupData(&req, &rsp) == OPAHRS_RESULT_OK) { if (rsp.payload.user.v.rsp.fwup_status.status == write_error) { result = FALSE; } else if (rsp.payload.user.v.rsp.fwup_status.status == outside_dev_capabilities) { result = TRUE; DeviceState = outsideDevCapabilities; } else result = TRUE; } else result = FALSE; break; default: result = 0; break; } if (result != 1) { DeviceState = Last_operation_failed; Aditionals = (uint32_t) Command; } ++Next_Packet; } else { DeviceState = wrong_packet_received; Aditionals = Count; } // FLASH_ProgramWord(MemLocations[TransferType]+4,++Next_Packet);//+Count,Data); } else { DeviceState = Last_operation_failed; Aditionals = (uint32_t) Command; } } break; case Req_Capabilities: OPDfuIni(TRUE); Buffer[0] = 0x01; Buffer[1] = Rep_Capabilities; if (Data0 == 0) { Buffer[2] = 0; Buffer[3] = 0; Buffer[4] = 0; Buffer[5] = 0; Buffer[6] = 0; Buffer[7] = numberOfDevices; uint16_t WRFlags = 0; for (int x = 0; x < numberOfDevices; ++x) { WRFlags = ((devicesTable[x].readWriteFlags << (x * 2)) | WRFlags); } Buffer[8] = WRFlags >> 8; Buffer[9] = WRFlags; } else { Buffer[2] = devicesTable[Data0 - 1].sizeOfCode >> 24; Buffer[3] = devicesTable[Data0 - 1].sizeOfCode >> 16; Buffer[4] = devicesTable[Data0 - 1].sizeOfCode >> 8; Buffer[5] = devicesTable[Data0 - 1].sizeOfCode; Buffer[6] = Data0; Buffer[7] = devicesTable[Data0 - 1].BL_Version; Buffer[8] = devicesTable[Data0 - 1].sizeOfDescription; Buffer[9] = devicesTable[Data0 - 1].devID; Buffer[10] = devicesTable[Data0 - 1].FW_Crc >> 24; Buffer[11] = devicesTable[Data0 - 1].FW_Crc >> 16; Buffer[12] = devicesTable[Data0 - 1].FW_Crc >> 8; Buffer[13] = devicesTable[Data0 - 1].FW_Crc; Buffer[14] = devicesTable[Data0 - 1].devID>>8; Buffer[15] = devicesTable[Data0 - 1].devID; } sendData(Buffer + 1, 63); //PIOS_COM_SendBuffer(PIOS_COM_TELEM_USB, Buffer + 1, 63);//FIX+1 break; case JumpFW: if (numberOfDevices > 1) { struct opahrs_msg_v0 rsp; PIOS_OPAHRS_bl_boot(0); if (PIOS_OPAHRS_bl_FwupStatus(&rsp) == OPAHRS_RESULT_OK) { DeviceState = failed_jump; break; } else { FLASH_Lock(); JumpToApp = 1; } } else { FLASH_Lock(); JumpToApp = 1; } break; case Reset: //PIOS Reset_Device(); break; case Abort_Operation: Next_Packet = 0; DeviceState = DFUidle; break; case Op_END: if (DeviceState == uploading) { if (Next_Packet - 1 == SizeOfTransfer) { Next_Packet = 0; if ((TransferType != FW) || (Expected_CRC == CalcFirmCRC())) { DeviceState = Last_operation_Success; } else { DeviceState = CRC_Fail; } } if (Next_Packet - 1 < SizeOfTransfer) { Next_Packet = 0; DeviceState = too_few_packets; } } break; case Download_Req: #ifdef DEBUG_SSP sprintf(str,"COMMAND:DOWNLOAD_REQ 1 Status=%d|",DeviceState); PIOS_COM_SendString(PIOS_COM_TELEM_USB,str); #endif if (DeviceState == DFUidle) { #ifdef DEBUG_SSP PIOS_COM_SendString(PIOS_COM_TELEM_USB,"COMMAND:DOWNLOAD_REQ 1|"); #endif downType = Data0; downPacketTotal = Count; downSizeOfLastPacket = Data1; if (isBiggerThanAvailable(downType, (downPacketTotal - 1) * 14 + downSizeOfLastPacket) == 1) { DeviceState = outsideDevCapabilities; Aditionals = (uint32_t) Command; } else { downPacketCurrent = 0; DeviceState = downloading; } } else { DeviceState = Last_operation_failed; Aditionals = (uint32_t) Command; } break; case Status_Request: Buffer[0] = 0x01; Buffer[1] = Status_Rep; if (DeviceState == wrong_packet_received) { Buffer[2] = Aditionals >> 24; Buffer[3] = Aditionals >> 16; Buffer[4] = Aditionals >> 8; Buffer[5] = Aditionals; } else { Buffer[2] = 0; Buffer[3] = ((uint16_t) Aditionals) >> 8; Buffer[4] = ((uint16_t) Aditionals); Buffer[5] = 0; } Buffer[6] = DeviceState; Buffer[7] = 0; Buffer[8] = 0; Buffer[9] = 0; sendData(Buffer + 1, 63); if (DeviceState == Last_operation_Success) { DeviceState = DFUidle; } break; case Status_Rep: break; } if (EchoReqFlag == 1) { echoBuffer[1] = echoBuffer[1] | EchoAnsFlag; sendData(echoBuffer + 1, 63); } return; } void OPDfuIni(uint8_t discover) { Device dev; dev.programmingType = Self_flash; dev.readWriteFlags = (BOARD_READABLE | (BOARD_WRITABLA << 1)); dev.startOfUserCode = START_OF_USER_CODE; dev.sizeOfCode = SIZE_OF_CODE; dev.sizeOfDescription = SIZE_OF_DESCRIPTION; dev.BL_Version = BOOTLOADER_VERSION; dev.FW_Crc = CalcFirmCRC(); dev.devID = (BOARD_TYPE << 8) | BOARD_REVISION; dev.devType = HW_TYPE; numberOfDevices = 1; devicesTable[0] = dev; if (discover) { uint8_t found_spi_device = FALSE; for (int t = 0; t < 3; ++t) { if (PIOS_OPAHRS_bl_resync() == OPAHRS_RESULT_OK) { found_spi_device = TRUE; dev.FW_Crc = 0; break; } PIOS_DELAY_WaitmS(100); } if (found_spi_device == TRUE) { struct opahrs_msg_v0 rsp; if (PIOS_OPAHRS_bl_GetVersions(&rsp) == OPAHRS_RESULT_OK) { dev.programmingType = Remote_flash_via_spi; dev.BL_Version = rsp.payload.user.v.rsp.versions.bl_version; dev.FW_Crc = rsp.payload.user.v.rsp.versions.fw_crc; dev.devID = rsp.payload.user.v.rsp.versions.hw_version; if (PIOS_OPAHRS_bl_GetMemMap(&rsp) == OPAHRS_RESULT_OK) { dev.readWriteFlags = rsp.payload.user.v.rsp.mem_map.rw_flags; dev.startOfUserCode = rsp.payload.user.v.rsp.mem_map.start_of_user_code; dev.sizeOfCode = rsp.payload.user.v.rsp.mem_map.size_of_code_memory; dev.sizeOfDescription = rsp.payload.user.v.rsp.mem_map.size_of_description; dev.devType = rsp.payload.user.v.rsp.mem_map.density; numberOfDevices = 2; devicesTable[1] = dev; } } } else PIOS_SPI_RC_PinSet(PIOS_OPAHRS_SPI, 0); } //TODO check other devices trough spi or whatever } uint32_t baseOfAdressType(DFUTransfer type) { switch (type) { case FW: return currentDevice.startOfUserCode; break; case Descript: return currentDevice.startOfUserCode + currentDevice.sizeOfCode; break; default: return 0; } } uint8_t isBiggerThanAvailable(DFUTransfer type, uint32_t size) { switch (type) { case FW: return (size > currentDevice.sizeOfCode) ? 1 : 0; break; case Descript: return (size > currentDevice.sizeOfDescription) ? 1 : 0; break; default: return TRUE; } } uint32_t CalcFirmCRC() { struct opahrs_msg_v0 rsp; switch (currentProgrammingDestination) { case Self_flash: return crc_memory_calc(); break; case Remote_flash_via_spi: PIOS_OPAHRS_bl_FwupVerify(&rsp); for (int i = 0; i < 5; ++i) { PIOS_DELAY_WaitmS(1000); PIOS_OPAHRS_bl_resync(); if (PIOS_OPAHRS_bl_GetVersions(&rsp) == OPAHRS_RESULT_OK) { return rsp.payload.user.v.rsp.versions.fw_crc; } } return 0; break; default: return 0; break; } } void sendData(uint8_t * buf,uint16_t size) { if (ProgPort == Usb) { PIOS_COM_SendBuffer(PIOS_COM_TELEM_USB, buf, size); if(DeviceState == downloading) PIOS_DELAY_WaitmS(10); } else if (ProgPort == Serial) { ssp_SendData(&ssp_port, buf, size); } } bool flash_read(uint8_t * buffer, uint32_t adr, DFUProgType type) { struct opahrs_msg_v0 rsp; struct opahrs_msg_v0 req; switch (type) { case Remote_flash_via_spi: req.payload.user.v.req.fwdn_data.adress = adr; if (PIOS_OPAHRS_bl_FwDlData(&req, &rsp) == OPAHRS_RESULT_OK) { for (uint8_t x = 0; x < 4; ++x) { buffer[x] = rsp.payload.user.v.rsp.fw_dn.data[x]; } return TRUE; } return FALSE; break; case Self_flash: for (uint8_t x = 0; x < 4; ++x) { buffer[x] = *FLASH_If_Read(adr + x); } return TRUE; break; default: return FALSE; } }