/**************************************************************************** * * BIOS emulator and interface * to Realmode X86 Emulator Library * * ======================================================================== * * Copyright (C) 2007 Freescale Semiconductor, Inc. * Jason Jin * * Copyright (C) 1991-2004 SciTech Software, Inc. All rights reserved. * * This file may be distributed and/or modified under the terms of the * GNU General Public License version 2.0 as published by the Free * Software Foundation and appearing in the file LICENSE.GPL included * in the packaging of this file. * * Licensees holding a valid Commercial License for this product from * SciTech Software, Inc. may use this file in accordance with the * Commercial License Agreement provided with the Software. * * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING * THE WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE. * * See http://www.scitechsoft.com/license/ for information about * the licensing options available and how to purchase a Commercial * License Agreement. * * Contact license@scitechsoft.com if any conditions of this licensing * are not clear to you, or you have questions about licensing options. * * ======================================================================== * * Language: ANSI C * Environment: Any * Developer: Kendall Bennett * * Description: This file includes BIOS emulator I/O and memory access * functions. * * Jason ported this file to u-boot to run the ATI video card * BIOS in u-boot. Removed some emulate functions such as the * timer port access. Made all the VGA port except reading 0x3c3 * be emulated. Seems like reading 0x3c3 should return the high * 16 bit of the io port. * ****************************************************************************/ #define __io #include #include "biosemui.h" /*------------------------- Global Variables ------------------------------*/ #ifndef CONFIG_X86EMU_RAW_IO static char *BE_biosDate = "08/14/99"; static u8 BE_model = 0xFC; static u8 BE_submodel = 0x00; #endif #undef DEBUG_IO_ACCESS #ifdef DEBUG_IO_ACCESS #define debug_io(fmt, ...) printf(fmt, ##__VA_ARGS__) #else #define debug_io(x, b...) #endif /*----------------------------- Implementation ----------------------------*/ /**************************************************************************** PARAMETERS: addr - Emulator memory address to convert RETURNS: Actual memory address to read or write the data REMARKS: This function converts an emulator memory address in a 32-bit range to a real memory address that we wish to access. It handles splitting up the memory address space appropriately to access the emulator BIOS image, video memory and system BIOS etc. ****************************************************************************/ static u8 *BE_memaddr(u32 addr) { if (addr >= 0xC0000 && addr <= _BE_env.biosmem_limit) { return (u8*)(_BE_env.biosmem_base + addr - 0xC0000); } else if (addr > _BE_env.biosmem_limit && addr < 0xD0000) { DB(printf("BE_memaddr: address %#lx may be invalid!\n", (ulong)addr);) return (u8 *)M.mem_base; } else if (addr >= 0xA0000 && addr <= 0xBFFFF) { return (u8*)(_BE_env.busmem_base + addr - 0xA0000); } #ifdef CONFIG_X86EMU_RAW_IO else if (addr >= 0xD0000 && addr <= 0xFFFFF) { /* We map the real System BIOS directly on real PC's */ DB(printf("BE_memaddr: System BIOS address %#lx\n", (ulong)addr);) return (u8 *)_BE_env.busmem_base + addr - 0xA0000; } #else else if (addr >= 0xFFFF5 && addr < 0xFFFFE) { /* Return a faked BIOS date string for non-x86 machines */ debug_io("BE_memaddr - Returning BIOS date\n"); return (u8 *)(BE_biosDate + addr - 0xFFFF5); } else if (addr == 0xFFFFE) { /* Return system model identifier for non-x86 machines */ debug_io("BE_memaddr - Returning model\n"); return &BE_model; } else if (addr == 0xFFFFF) { /* Return system submodel identifier for non-x86 machines */ debug_io("BE_memaddr - Returning submodel\n"); return &BE_submodel; } #endif else if (addr > M.mem_size - 1) { HALT_SYS(); return (u8 *)M.mem_base; } return (u8 *)(M.mem_base + addr); } /**************************************************************************** PARAMETERS: addr - Emulator memory address to read RETURNS: Byte value read from emulator memory. REMARKS: Reads a byte value from the emulator memory. We have three distinct memory regions that are handled differently, which this function handles. ****************************************************************************/ u8 X86API BE_rdb(u32 addr) { if (_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF) return 0; else { u8 val = readb_le(BE_memaddr(addr)); return val; } } /**************************************************************************** PARAMETERS: addr - Emulator memory address to read RETURNS: Word value read from emulator memory. REMARKS: Reads a word value from the emulator memory. We have three distinct memory regions that are handled differently, which this function handles. ****************************************************************************/ u16 X86API BE_rdw(u32 addr) { if (_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF) return 0; else { u8 *base = BE_memaddr(addr); u16 val = readw_le(base); return val; } } /**************************************************************************** PARAMETERS: addr - Emulator memory address to read RETURNS: Long value read from emulator memory. REMARKS: Reads a 32-bit value from the emulator memory. We have three distinct memory regions that are handled differently, which this function handles. ****************************************************************************/ u32 X86API BE_rdl(u32 addr) { if (_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF) return 0; else { u8 *base = BE_memaddr(addr); u32 val = readl_le(base); return val; } } /**************************************************************************** PARAMETERS: addr - Emulator memory address to read val - Value to store REMARKS: Writes a byte value to emulator memory. We have three distinct memory regions that are handled differently, which this function handles. ****************************************************************************/ void X86API BE_wrb(u32 addr, u8 val) { if (!(_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF)) { writeb_le(BE_memaddr(addr), val); } } /**************************************************************************** PARAMETERS: addr - Emulator memory address to read val - Value to store REMARKS: Writes a word value to emulator memory. We have three distinct memory regions that are handled differently, which this function handles. ****************************************************************************/ void X86API BE_wrw(u32 addr, u16 val) { if (!(_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF)) { u8 *base = BE_memaddr(addr); writew_le(base, val); } } /**************************************************************************** PARAMETERS: addr - Emulator memory address to read val - Value to store REMARKS: Writes a 32-bit value to emulator memory. We have three distinct memory regions that are handled differently, which this function handles. ****************************************************************************/ void X86API BE_wrl(u32 addr, u32 val) { if (!(_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF)) { u8 *base = BE_memaddr(addr); writel_le(base, val); } } #if !defined(CONFIG_X86EMU_RAW_IO) /* For Non-Intel machines we may need to emulate some I/O port accesses that * the BIOS may try to access, such as the PCI config registers. */ #define IS_TIMER_PORT(port) (0x40 <= port && port <= 0x43) #define IS_CMOS_PORT(port) (0x70 <= port && port <= 0x71) /*#define IS_VGA_PORT(port) (_BE_env.emulateVGA && 0x3C0 <= port && port <= 0x3DA)*/ #define IS_VGA_PORT(port) (0x3C0 <= port && port <= 0x3DA) #define IS_PCI_PORT(port) (0xCF8 <= port && port <= 0xCFF) #define IS_SPKR_PORT(port) (port == 0x61) /**************************************************************************** PARAMETERS: port - Port to read from type - Type of access to perform REMARKS: Performs an emulated read from the Standard VGA I/O ports. If the target hardware does not support mapping the VGA I/O and memory (such as some PowerPC systems), we emulate the VGA so that the BIOS will still be able to set NonVGA display modes such as on ATI hardware. ****************************************************************************/ static u8 VGA_inpb (const int port) { u8 val = 0xff; debug_io("vga_inb.%04X -> ", (u16) port); switch (port) { case 0x3C0: /* 3C0 has funky characteristics because it can act as either a data register or index register depending on the state of an internal flip flop in the hardware. Hence we have to emulate that functionality in here. */ if (_BE_env.flipFlop3C0 == 0) { /* Access 3C0 as index register */ val = _BE_env.emu3C0; } else { /* Access 3C0 as data register */ if (_BE_env.emu3C0 < ATT_C) val = _BE_env.emu3C1[_BE_env.emu3C0]; } _BE_env.flipFlop3C0 ^= 1; break; case 0x3C1: if (_BE_env.emu3C0 < ATT_C) return _BE_env.emu3C1[_BE_env.emu3C0]; break; case 0x3CC: return _BE_env.emu3C2; case 0x3C4: return _BE_env.emu3C4; case 0x3C5: if (_BE_env.emu3C4 < ATT_C) return _BE_env.emu3C5[_BE_env.emu3C4]; break; case 0x3C6: return _BE_env.emu3C6; case 0x3C7: return _BE_env.emu3C7; case 0x3C8: return _BE_env.emu3C8; case 0x3C9: if (_BE_env.emu3C7 < PAL_C) return _BE_env.emu3C9[_BE_env.emu3C7++]; break; case 0x3CE: return _BE_env.emu3CE; case 0x3CF: if (_BE_env.emu3CE < GRA_C) return _BE_env.emu3CF[_BE_env.emu3CE]; break; case 0x3D4: if (_BE_env.emu3C2 & 0x1) return _BE_env.emu3D4; break; case 0x3D5: if ((_BE_env.emu3C2 & 0x1) && (_BE_env.emu3D4 < CRT_C)) return _BE_env.emu3D5[_BE_env.emu3D4]; break; case 0x3DA: _BE_env.flipFlop3C0 = 0; val = _BE_env.emu3DA; _BE_env.emu3DA ^= 0x9; break; } return val; } /**************************************************************************** PARAMETERS: port - Port to write to type - Type of access to perform REMARKS: Performs an emulated write to one of the 8253 timer registers. For now we only emulate timer 0 which is the only timer that the BIOS code appears to use. ****************************************************************************/ static void VGA_outpb (int port, u8 val) { switch (port) { case 0x3C0: /* 3C0 has funky characteristics because it can act as either a data register or index register depending on the state of an internal flip flop in the hardware. Hence we have to emulate that functionality in here. */ if (_BE_env.flipFlop3C0 == 0) { /* Access 3C0 as index register */ _BE_env.emu3C0 = val; } else { /* Access 3C0 as data register */ if (_BE_env.emu3C0 < ATT_C) _BE_env.emu3C1[_BE_env.emu3C0] = val; } _BE_env.flipFlop3C0 ^= 1; break; case 0x3C2: _BE_env.emu3C2 = val; break; case 0x3C4: _BE_env.emu3C4 = val; break; case 0x3C5: if (_BE_env.emu3C4 < ATT_C) _BE_env.emu3C5[_BE_env.emu3C4] = val; break; case 0x3C6: _BE_env.emu3C6 = val; break; case 0x3C7: _BE_env.emu3C7 = (int) val *3; break; case 0x3C8: _BE_env.emu3C8 = (int) val *3; break; case 0x3C9: if (_BE_env.emu3C8 < PAL_C) _BE_env.emu3C9[_BE_env.emu3C8++] = val; break; case 0x3CE: _BE_env.emu3CE = val; break; case 0x3CF: if (_BE_env.emu3CE < GRA_C) _BE_env.emu3CF[_BE_env.emu3CE] = val; break; case 0x3D4: if (_BE_env.emu3C2 & 0x1) _BE_env.emu3D4 = val; break; case 0x3D5: if ((_BE_env.emu3C2 & 0x1) && (_BE_env.emu3D4 < CRT_C)) _BE_env.emu3D5[_BE_env.emu3D4] = val; break; } } /**************************************************************************** PARAMETERS: regOffset - Offset into register space for non-DWORD accesses value - Value to write to register for PCI_WRITE_* operations func - Function to perform (PCIAccessRegFlags) RETURNS: Value read from configuration register for PCI_READ_* operations REMARKS: Accesses a PCI configuration space register by decoding the value currently stored in the _BE_env.configAddress variable and passing it through to the portable PCI_accessReg function. ****************************************************************************/ static u32 BE_accessReg(int regOffset, u32 value, int func) { #ifdef __KERNEL__ int function, device, bus; u8 val8; u16 val16; u32 val32; /* Decode the configuration register values for the register we wish to * access */ regOffset += (_BE_env.configAddress & 0xFF); function = (_BE_env.configAddress >> 8) & 0x7; device = (_BE_env.configAddress >> 11) & 0x1F; bus = (_BE_env.configAddress >> 16) & 0xFF; /* Ignore accesses to all devices other than the one we're POSTing */ if ((function == _BE_env.vgaInfo.function) && (device == _BE_env.vgaInfo.device) && (bus == _BE_env.vgaInfo.bus)) { switch (func) { case REG_READ_BYTE: pci_read_config_byte(_BE_env.vgaInfo.pcidev, regOffset, &val8); return val8; case REG_READ_WORD: pci_read_config_word(_BE_env.vgaInfo.pcidev, regOffset, &val16); return val16; case REG_READ_DWORD: pci_read_config_dword(_BE_env.vgaInfo.pcidev, regOffset, &val32); return val32; case REG_WRITE_BYTE: pci_write_config_byte(_BE_env.vgaInfo.pcidev, regOffset, value); return 0; case REG_WRITE_WORD: pci_write_config_word(_BE_env.vgaInfo.pcidev, regOffset, value); return 0; case REG_WRITE_DWORD: pci_write_config_dword(_BE_env.vgaInfo.pcidev, regOffset, value); return 0; } } return 0; #else PCIDeviceInfo pciInfo; pciInfo.mech1 = 1; pciInfo.slot.i = 0; pciInfo.slot.p.Function = (_BE_env.configAddress >> 8) & 0x7; pciInfo.slot.p.Device = (_BE_env.configAddress >> 11) & 0x1F; pciInfo.slot.p.Bus = (_BE_env.configAddress >> 16) & 0xFF; pciInfo.slot.p.Enable = 1; /* Ignore accesses to all devices other than the one we're POSTing */ if ((pciInfo.slot.p.Function == _BE_env.vgaInfo.pciInfo->slot.p.Function) && (pciInfo.slot.p.Device == _BE_env.vgaInfo.pciInfo->slot.p.Device) && (pciInfo.slot.p.Bus == _BE_env.vgaInfo.pciInfo->slot.p.Bus)) return PCI_accessReg((_BE_env.configAddress & 0xFF) + regOffset, value, func, &pciInfo); return 0; #endif } /**************************************************************************** PARAMETERS: port - Port to read from type - Type of access to perform REMARKS: Performs an emulated read from one of the PCI configuration space registers. We emulate this using our PCI_accessReg function which will access the PCI configuration space registers in a portable fashion. ****************************************************************************/ static u32 PCI_inp(int port, int type) { switch (type) { case REG_READ_BYTE: if ((_BE_env.configAddress & 0x80000000) && 0xCFC <= port && port <= 0xCFF) return BE_accessReg(port - 0xCFC, 0, REG_READ_BYTE); break; case REG_READ_WORD: if ((_BE_env.configAddress & 0x80000000) && 0xCFC <= port && port <= 0xCFF) return BE_accessReg(port - 0xCFC, 0, REG_READ_WORD); break; case REG_READ_DWORD: if (port == 0xCF8) return _BE_env.configAddress; else if ((_BE_env.configAddress & 0x80000000) && port == 0xCFC) return BE_accessReg(0, 0, REG_READ_DWORD); break; } return 0; } /**************************************************************************** PARAMETERS: port - Port to write to type - Type of access to perform REMARKS: Performs an emulated write to one of the PCI control registers. ****************************************************************************/ static void PCI_outp(int port, u32 val, int type) { switch (type) { case REG_WRITE_BYTE: if ((_BE_env.configAddress & 0x80000000) && 0xCFC <= port && port <= 0xCFF) BE_accessReg(port - 0xCFC, val, REG_WRITE_BYTE); break; case REG_WRITE_WORD: if ((_BE_env.configAddress & 0x80000000) && 0xCFC <= port && port <= 0xCFF) BE_accessReg(port - 0xCFC, val, REG_WRITE_WORD); break; case REG_WRITE_DWORD: if (port == 0xCF8) { _BE_env.configAddress = val & 0x80FFFFFC; } else if ((_BE_env.configAddress & 0x80000000) && port == 0xCFC) BE_accessReg(0, val, REG_WRITE_DWORD); break; } } #endif /**************************************************************************** PARAMETERS: port - Port to write to RETURNS: Value read from the I/O port REMARKS: Performs an emulated 8-bit read from an I/O port. We handle special cases that we need to emulate in here, and fall through to reflecting the write through to the real hardware if we don't need to special case it. ****************************************************************************/ u8 X86API BE_inb(X86EMU_pioAddr port) { u8 val = 0; #if !defined(CONFIG_X86EMU_RAW_IO) if (IS_VGA_PORT(port)){ /*seems reading port 0x3c3 return the high 16 bit of io port*/ if(port == 0x3c3) val = LOG_inpb(port); else val = VGA_inpb(port); } else if (IS_TIMER_PORT(port)) DB(printf("Can not interept TIMER port now!\n");) else if (IS_SPKR_PORT(port)) DB(printf("Can not interept SPEAKER port now!\n");) else if (IS_CMOS_PORT(port)) DB(printf("Can not interept CMOS port now!\n");) else if (IS_PCI_PORT(port)) val = PCI_inp(port, REG_READ_BYTE); else if (port < 0x100) { DB(printf("WARN: INVALID inb.%04X -> %02X\n", (u16) port, val);) val = LOG_inpb(port); } else #endif { debug_io("inb.%04X -> ", (u16) port); val = LOG_inpb(port); debug_io("%02X\n", val); } return val; } /**************************************************************************** PARAMETERS: port - Port to write to RETURNS: Value read from the I/O port REMARKS: Performs an emulated 16-bit read from an I/O port. We handle special cases that we need to emulate in here, and fall through to reflecting the write through to the real hardware if we don't need to special case it. ****************************************************************************/ u16 X86API BE_inw(X86EMU_pioAddr port) { u16 val = 0; #if !defined(CONFIG_X86EMU_RAW_IO) if (IS_PCI_PORT(port)) val = PCI_inp(port, REG_READ_WORD); else if (port < 0x100) { DB(printf("WARN: Maybe INVALID inw.%04X -> %04X\n", (u16) port, val);) val = LOG_inpw(port); } else #endif { debug_io("inw.%04X -> ", (u16) port); val = LOG_inpw(port); debug_io("%04X\n", val); } return val; } /**************************************************************************** PARAMETERS: port - Port to write to RETURNS: Value read from the I/O port REMARKS: Performs an emulated 32-bit read from an I/O port. We handle special cases that we need to emulate in here, and fall through to reflecting the write through to the real hardware if we don't need to special case it. ****************************************************************************/ u32 X86API BE_inl(X86EMU_pioAddr port) { u32 val = 0; #if !defined(CONFIG_X86EMU_RAW_IO) if (IS_PCI_PORT(port)) val = PCI_inp(port, REG_READ_DWORD); else if (port < 0x100) { val = LOG_inpd(port); } else #endif { debug_io("inl.%04X -> ", (u16) port); val = LOG_inpd(port); debug_io("%08X\n", val); } return val; } /**************************************************************************** PARAMETERS: port - Port to write to val - Value to write to port REMARKS: Performs an emulated 8-bit write to an I/O port. We handle special cases that we need to emulate in here, and fall through to reflecting the write through to the real hardware if we don't need to special case it. ****************************************************************************/ void X86API BE_outb(X86EMU_pioAddr port, u8 val) { #if !defined(CONFIG_X86EMU_RAW_IO) if (IS_VGA_PORT(port)) VGA_outpb(port, val); else if (IS_TIMER_PORT(port)) DB(printf("Can not interept TIMER port now!\n");) else if (IS_SPKR_PORT(port)) DB(printf("Can not interept SPEAKER port now!\n");) else if (IS_CMOS_PORT(port)) DB(printf("Can not interept CMOS port now!\n");) else if (IS_PCI_PORT(port)) PCI_outp(port, val, REG_WRITE_BYTE); else if (port < 0x100) { DB(printf("WARN:Maybe INVALID outb.%04X <- %02X\n", (u16) port, val);) LOG_outpb(port, val); } else #endif { debug_io("outb.%04X <- %02X", (u16) port, val); LOG_outpb(port, val); debug_io("\n"); } } /**************************************************************************** PARAMETERS: port - Port to write to val - Value to write to port REMARKS: Performs an emulated 16-bit write to an I/O port. We handle special cases that we need to emulate in here, and fall through to reflecting the write through to the real hardware if we don't need to special case it. ****************************************************************************/ void X86API BE_outw(X86EMU_pioAddr port, u16 val) { #if !defined(CONFIG_X86EMU_RAW_IO) if (IS_VGA_PORT(port)) { VGA_outpb(port, val); VGA_outpb(port + 1, val >> 8); } else if (IS_PCI_PORT(port)) { PCI_outp(port, val, REG_WRITE_WORD); } else if (port < 0x100) { DB(printf("WARN: MAybe INVALID outw.%04X <- %04X\n", (u16)port, val);) LOG_outpw(port, val); } else #endif { debug_io("outw.%04X <- %04X", (u16) port, val); LOG_outpw(port, val); debug_io("\n"); } } /**************************************************************************** PARAMETERS: port - Port to write to val - Value to write to port REMARKS: Performs an emulated 32-bit write to an I/O port. We handle special cases that we need to emulate in here, and fall through to reflecting the write through to the real hardware if we don't need to special case it. ****************************************************************************/ void X86API BE_outl(X86EMU_pioAddr port, u32 val) { #if !defined(CONFIG_X86EMU_RAW_IO) if (IS_PCI_PORT(port)) { PCI_outp(port, val, REG_WRITE_DWORD); } else if (port < 0x100) { DB(printf("WARN: INVALID outl.%04X <- %08X\n", (u16) port,val);) LOG_outpd(port, val); } else #endif { debug_io("outl.%04X <- %08X", (u16) port, val); LOG_outpd(port, val); debug_io("\n"); } }