/** @verbatim Copyright (C) 2004,2005 ADDI-DATA GmbH for the source code of this module. ADDI-DATA GmbH Dieselstrasse 3 D-77833 Ottersweier Tel: +19(0)7223/9493-0 Fax: +49(0)7223/9493-92 http://www.addi-data-com info@addi-data.com 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 2 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 You shoud also find the complete GPL in the COPYING file accompanying this source code. @endverbatim */ /* +-----------------------------------------------------------------------+ | (C) ADDI-DATA GmbH Dieselstraße 3 D-77833 Ottersweier | +-----------------------------------------------------------------------+ | Tel : +49 (0) 7223/9493-0 | email : info@addi-data.com | | Fax : +49 (0) 7223/9493-92 | Internet : http://www.addi-data.com | +-------------------------------+---------------------------------------+ | Project : ADDI HEADER READ WRITER | Compiler : Visual C++ | | Module name : S5920.cpp | Version : 6.0 | +-------------------------------+---------------------------------------+ | Author : E. LIBS Date : 02/05/2002 | +-----------------------------------------------------------------------+ | Description : DLL with the S5920 PCI Controller functions | +-----------------------------------------------------------------------+ | UPDATE'S | +-----------------------------------------------------------------------+ | Date | Author | Description of updates | +----------+-----------+------------------------------------------------+ | 28/08/02 | LIBS Eric | Add return codes each time a function of the | | | | Addi Library is called | +-----------------------------------------------------------------------+ | 31/07/03 | KRAUTH J. | Changes for the MSX-Box | +-----------------------------------------------------------------------+ */ #include "addi_amcc_S5920.h" /*+----------------------------------------------------------------------------+*/ /*| Function Name : INT i_AddiHeaderRW_ReadEeprom |*/ /*| (INT i_NbOfWordsToRead, |*/ /*| DWORD dw_PCIBoardEepromAddress, |*/ /*| WORD w_EepromStartAddress, |*/ /*| PWORD pw_DataRead) |*/ /*+----------------------------------------------------------------------------+*/ /*| Task : Read word from the 5920 eeprom. |*/ /*+----------------------------------------------------------------------------+*/ /*| Input Parameters : INT i_NbOfWordsToRead : Nbr. of word to read |*/ /*| DWORD dw_PCIBoardEepromAddress : Address of the eeprom |*/ /*| WORD w_EepromStartAddress : Eeprom strat address |*/ /*+----------------------------------------------------------------------------+*/ /*| Output Parameters : PWORD pw_DataRead : Read data |*/ /*+----------------------------------------------------------------------------+*/ /*| Return Value : - |*/ /*+----------------------------------------------------------------------------+*/ INT i_AddiHeaderRW_ReadEeprom(INT i_NbOfWordsToRead, DWORD dw_PCIBoardEepromAddress, WORD w_EepromStartAddress, PWORD pw_DataRead) { DWORD dw_eeprom_busy = 0; INT i_Counter = 0; INT i_WordCounter; INT i; BYTE pb_ReadByte[1]; BYTE b_ReadLowByte = 0; BYTE b_ReadHighByte = 0; BYTE b_SelectedAddressLow = 0; BYTE b_SelectedAddressHigh = 0; WORD w_ReadWord = 0; for (i_WordCounter = 0; i_WordCounter < i_NbOfWordsToRead; i_WordCounter++) { do { dw_eeprom_busy = inl(dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR); dw_eeprom_busy = dw_eeprom_busy & EEPROM_BUSY; } while (dw_eeprom_busy == EEPROM_BUSY); for (i_Counter = 0; i_Counter < 2; i_Counter++) { b_SelectedAddressLow = (w_EepromStartAddress + i_Counter) % 256; //Read the low 8 bit part b_SelectedAddressHigh = (w_EepromStartAddress + i_Counter) / 256; //Read the high 8 bit part //Select the load low address mode outb(NVCMD_LOAD_LOW, dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR + 3); //Wait on busy do { dw_eeprom_busy = inl(dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR); dw_eeprom_busy = dw_eeprom_busy & EEPROM_BUSY; } while (dw_eeprom_busy == EEPROM_BUSY); //Load the low address outb(b_SelectedAddressLow, dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR + 2); //Wait on busy do { dw_eeprom_busy = inl(dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR); dw_eeprom_busy = dw_eeprom_busy & EEPROM_BUSY; } while (dw_eeprom_busy == EEPROM_BUSY); //Select the load high address mode outb(NVCMD_LOAD_HIGH, dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR + 3); //Wait on busy do { dw_eeprom_busy = inl(dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR); dw_eeprom_busy = dw_eeprom_busy & EEPROM_BUSY; } while (dw_eeprom_busy == EEPROM_BUSY); //Load the high address outb(b_SelectedAddressHigh, dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR + 2); //Wait on busy do { dw_eeprom_busy = inl(dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR); dw_eeprom_busy = dw_eeprom_busy & EEPROM_BUSY; } while (dw_eeprom_busy == EEPROM_BUSY); //Select the READ mode outb(NVCMD_BEGIN_READ, dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR + 3); //Wait on busy do { dw_eeprom_busy = inl(dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR); dw_eeprom_busy = dw_eeprom_busy & EEPROM_BUSY; } while (dw_eeprom_busy == EEPROM_BUSY); //Read data into the EEPROM *pb_ReadByte = inb(dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR + 2); //Wait on busy do { dw_eeprom_busy = inl(dw_PCIBoardEepromAddress + AMCC_OP_REG_MCSR); dw_eeprom_busy = dw_eeprom_busy & EEPROM_BUSY; } while (dw_eeprom_busy == EEPROM_BUSY); //Select the upper address part if (i_Counter == 0) { b_ReadLowByte = pb_ReadByte[0]; } else { b_ReadHighByte = pb_ReadByte[0]; } //Sleep for (i = 0; i < 10000; i++) ; } w_ReadWord = (b_ReadLowByte | (((unsigned short)b_ReadHighByte) * 256)); pw_DataRead[i_WordCounter] = w_ReadWord; w_EepromStartAddress += 2; // to read the next word } // for (...) i_NbOfWordsToRead return (0); }