///////////////////////////////////////////////////////////////////////// // $Id: memory.cc,v 1.27 2003-03-02 23:59:12 cbothamy Exp $ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2001 MandrakeSoft S.A. // // MandrakeSoft S.A. // 43, rue d'Aboukir // 75002 Paris - France // http://www.linux-mandrake.com/ // http://www.mandrakesoft.com/ // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA #include "bochs.h" #define LOG_THIS BX_MEM_THIS #if BX_PROVIDE_CPU_MEMORY void BX_CPP_AttrRegparmN(3) BX_MEM_C::writePhysicalPage(BX_CPU_C *cpu, Bit32u addr, unsigned len, void *data) { Bit8u *data_ptr; Bit32u a20addr; // Note: accesses should always be contained within a single page now. #if BX_IODEBUG_SUPPORT bx_iodebug_c::mem_write(cpu, addr, len, data); #endif a20addr = A20ADDR(addr); BX_INSTR_PHY_WRITE(cpu->which_cpu(), a20addr, len); #if BX_DEBUGGER // (mch) Check for physical write break points, TODO // (bbd) Each breakpoint should have an associated CPU#, TODO for (int i = 0; i < num_write_watchpoints; i++) if (write_watchpoint[i] == a20addr) { BX_CPU(0)->watchpoint = a20addr; BX_CPU(0)->break_point = BREAK_POINT_WRITE; break; } #endif #if BX_SupportICache if (a20addr < BX_MEM_THIS len) cpu->iCache.decWriteStamp(cpu, a20addr); #endif if ( a20addr <= BX_MEM_THIS len ) { // all of data is within limits of physical memory if ( (a20addr & 0xfff80000) != 0x00080000 ) { if (len == 4) { WriteHostDWordToLittleEndian(&vector[a20addr], *(Bit32u*)data); BX_DBG_DIRTY_PAGE(a20addr >> 12); return; } if (len == 2) { WriteHostWordToLittleEndian(&vector[a20addr], *(Bit16u*)data); BX_DBG_DIRTY_PAGE(a20addr >> 12); return; } if (len == 1) { * ((Bit8u *) (&vector[a20addr])) = * (Bit8u *) data; BX_DBG_DIRTY_PAGE(a20addr >> 12); return; } // len == other, just fall thru to special cases handling } #ifdef BX_LITTLE_ENDIAN data_ptr = (Bit8u *) data; #else // BX_BIG_ENDIAN data_ptr = (Bit8u *) data + (len - 1); #endif write_one: if ( (a20addr & 0xfff80000) != 0x00080000 ) { // addr *not* in range 00080000 .. 000FFFFF vector[a20addr] = *data_ptr; BX_DBG_DIRTY_PAGE(a20addr >> 12); inc_one: if (len == 1) return; len--; a20addr++; #ifdef BX_LITTLE_ENDIAN data_ptr++; #else // BX_BIG_ENDIAN data_ptr--; #endif goto write_one; } // addr in range 00080000 .. 000FFFFF if (a20addr <= 0x0009ffff) { // regular memory 80000 .. 9FFFF vector[a20addr] = *data_ptr; BX_DBG_DIRTY_PAGE(a20addr >> 12); goto inc_one; } if (a20addr <= 0x000bffff) { // VGA memory A0000 .. BFFFF DEV_vga_mem_write(a20addr, *data_ptr); BX_DBG_DIRTY_PAGE(a20addr >> 12); BX_DBG_UCMEM_REPORT(a20addr, 1, BX_WRITE, *data_ptr); // obsolete goto inc_one; } // adapter ROM C0000 .. DFFFF // ROM BIOS memory E0000 .. FFFFF // (ignore write) //BX_INFO(("ROM lock %08x: len=%u", // (unsigned) a20addr, (unsigned) len)); #if BX_PCI_SUPPORT == 0 #if BX_SHADOW_RAM // Write it since its in shadow RAM vector[a20addr] = *data_ptr; BX_DBG_DIRTY_PAGE(a20addr >> 12); #else // ignore write to ROM #endif #else // Write Based on 440fx Programming if (bx_options.Oi440FXSupport->get () && ((a20addr >= 0xC0000) && (a20addr <= 0xFFFFF))) { switch (DEV_pci_wr_memtype(a20addr & 0xFC000)) { case 0x1: // Writes to ShadowRAM // BX_INFO(("Writing to ShadowRAM %08x, len %u ! ", (unsigned) a20addr, (unsigned) len)); shadow[a20addr - 0xc0000] = *data_ptr; BX_DBG_DIRTY_PAGE(a20addr >> 12); goto inc_one; case 0x0: // Writes to ROM, Inhibit BX_DEBUG(("Write to ROM ignored: address %08x, data %02x", (unsigned) a20addr, *data_ptr)); goto inc_one; default: BX_PANIC(("writePhysicalPage: default case")); goto inc_one; } } #endif goto inc_one; } else { // some or all of data is outside limits of physical memory unsigned i; #ifdef BX_LITTLE_ENDIAN data_ptr = (Bit8u *) data; #else // BX_BIG_ENDIAN data_ptr = (Bit8u *) data + (len - 1); #endif #if BX_SUPPORT_VBE // Check VBE LFB support if ((a20addr >= VBE_DISPI_LFB_PHYSICAL_ADDRESS) && (a20addr < (VBE_DISPI_LFB_PHYSICAL_ADDRESS + VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES))) { for (i = 0; i < len; i++) { //if (a20addr < BX_MEM_THIS len) { //vector[a20addr] = *data_ptr; //BX_DBG_DIRTY_PAGE(a20addr >> 12); DEV_vga_mem_write(a20addr, *data_ptr); // } // otherwise ignore byte, since it overruns memory addr++; a20addr = (addr); #ifdef BX_LITTLE_ENDIAN data_ptr++; #else // BX_BIG_ENDIAN data_ptr--; #endif } return; } #endif #if BX_SUPPORT_APIC bx_generic_apic_c *local_apic = &cpu->local_apic; bx_generic_apic_c *ioapic = bx_devices.ioapic; if (local_apic->is_selected (a20addr, len)) { local_apic->write (a20addr, (Bit32u *)data, len); return; } else if (ioapic->is_selected (a20addr, len)) { ioapic->write (a20addr, (Bit32u *)data, len); return; } else #endif for (i = 0; i < len; i++) { if (a20addr < BX_MEM_THIS len) { vector[a20addr] = *data_ptr; BX_DBG_DIRTY_PAGE(a20addr >> 12); } // otherwise ignore byte, since it overruns memory addr++; a20addr = (addr); #ifdef BX_LITTLE_ENDIAN data_ptr++; #else // BX_BIG_ENDIAN data_ptr--; #endif } return; } } void BX_CPP_AttrRegparmN(3) BX_MEM_C::readPhysicalPage(BX_CPU_C *cpu, Bit32u addr, unsigned len, void *data) { Bit8u *data_ptr; Bit32u a20addr; #if BX_IODEBUG_SUPPORT bx_iodebug_c::mem_read(cpu, addr, len, data); #endif a20addr = A20ADDR(addr); BX_INSTR_PHY_READ(cpu->which_cpu(), a20addr, len); #if BX_DEBUGGER // (mch) Check for physical read break points, TODO // (bbd) Each breakpoint should have an associated CPU#, TODO for (int i = 0; i < num_read_watchpoints; i++) if (read_watchpoint[i] == a20addr) { BX_CPU(0)->watchpoint = a20addr; BX_CPU(0)->break_point = BREAK_POINT_READ; break; } #endif if ( (a20addr + len) <= BX_MEM_THIS len ) { // all of data is within limits of physical memory if ( (a20addr & 0xfff80000) != 0x00080000 ) { if (len == 4) { ReadHostDWordFromLittleEndian(&vector[a20addr], * (Bit32u*) data); return; } if (len == 2) { ReadHostWordFromLittleEndian(&vector[a20addr], * (Bit16u*) data); return; } if (len == 1) { * (Bit8u *) data = * ((Bit8u *) (&vector[a20addr])); return; } // len == 3 case can just fall thru to special cases handling } #ifdef BX_LITTLE_ENDIAN data_ptr = (Bit8u *) data; #else // BX_BIG_ENDIAN data_ptr = (Bit8u *) data + (len - 1); #endif read_one: if ( (a20addr & 0xfff80000) != 0x00080000 ) { // addr *not* in range 00080000 .. 000FFFFF *data_ptr = vector[a20addr]; inc_one: if (len == 1) return; len--; a20addr++; #ifdef BX_LITTLE_ENDIAN data_ptr++; #else // BX_BIG_ENDIAN data_ptr--; #endif goto read_one; } // addr in range 00080000 .. 000FFFFF #if BX_PCI_SUPPORT == 0 if ((a20addr <= 0x0009ffff) || (a20addr >= 0x000c0000) ) { // regular memory 80000 .. 9FFFF, C0000 .. F0000 *data_ptr = vector[a20addr]; goto inc_one; } // VGA memory A0000 .. BFFFF *data_ptr = DEV_vga_mem_read(a20addr); BX_DBG_UCMEM_REPORT(a20addr, 1, BX_READ, *data_ptr); // obsolete goto inc_one; #else // #if BX_PCI_SUPPORT == 0 if (a20addr <= 0x0009ffff) { *data_ptr = vector[a20addr]; goto inc_one; } if (a20addr <= 0x000BFFFF) { // VGA memory A0000 .. BFFFF *data_ptr = DEV_vga_mem_read(a20addr); BX_DBG_UCMEM_REPORT(a20addr, 1, BX_READ, *data_ptr); goto inc_one; } // a20addr in C0000 .. FFFFF if (!bx_options.Oi440FXSupport->get ()) { *data_ptr = vector[a20addr]; goto inc_one; } else { switch (DEV_pci_rd_memtype(a20addr & 0xFC000)) { case 0x1: // Read from ShadowRAM *data_ptr = shadow[a20addr - 0xc0000]; BX_INFO(("Reading from ShadowRAM %08x, Data %02x ", (unsigned) a20addr, *data_ptr)); goto inc_one; case 0x0: // Read from ROM *data_ptr = vector[a20addr]; //BX_INFO(("Reading from ROM %08x, Data %02x ", (unsigned) a20addr, *data_ptr)); goto inc_one; default: BX_PANIC(("::readPhysicalPage: default case")); } } goto inc_one; #endif // #if BX_PCI_SUPPORT == 0 } else { // some or all of data is outside limits of physical memory unsigned i; #ifdef BX_LITTLE_ENDIAN data_ptr = (Bit8u *) data; #else // BX_BIG_ENDIAN data_ptr = (Bit8u *) data + (len - 1); #endif #if BX_SUPPORT_VBE // Check VBE LFB support if ((a20addr >= VBE_DISPI_LFB_PHYSICAL_ADDRESS) && (a20addr < (VBE_DISPI_LFB_PHYSICAL_ADDRESS + VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES))) { for (i = 0; i < len; i++) { //if (a20addr < BX_MEM_THIS len) { //vector[a20addr] = *data_ptr; //BX_DBG_DIRTY_PAGE(a20addr >> 12); *data_ptr = DEV_vga_mem_read(a20addr); // } // otherwise ignore byte, since it overruns memory addr++; a20addr = (addr); #ifdef BX_LITTLE_ENDIAN data_ptr++; #else // BX_BIG_ENDIAN data_ptr--; #endif } return; } #endif #if BX_SUPPORT_APIC bx_generic_apic_c *local_apic = &cpu->local_apic; bx_generic_apic_c *ioapic = bx_devices.ioapic; if (local_apic->is_selected (addr, len)) { local_apic->read (addr, data, len); return; } else if (ioapic->is_selected (addr, len)) { ioapic->read (addr, data, len); return; } #endif for (i = 0; i < len; i++) { #if BX_PCI_SUPPORT == 0 if (a20addr < BX_MEM_THIS len) *data_ptr = vector[a20addr]; else *data_ptr = 0xff; #else // BX_PCI_SUPPORT == 0 if (a20addr < BX_MEM_THIS len) { if ((a20addr >= 0x000C0000) && (a20addr <= 0x000FFFFF)) { if (!bx_options.Oi440FXSupport->get ()) *data_ptr = vector[a20addr]; else { switch (DEV_pci_rd_memtype(a20addr & 0xFC000)) { case 0x0: // Read from ROM *data_ptr = vector[a20addr]; //BX_INFO(("Reading from ROM %08x, Data %02x ", (unsigned) a20addr, *data_ptr)); break; case 0x1: // Read from Shadow RAM *data_ptr = shadow[a20addr - 0xc0000]; BX_INFO(("Reading from ShadowRAM %08x, Data %02x ", (unsigned) a20addr, *data_ptr)); break; default: BX_PANIC(("readPhysicalPage: default case")); } // Switch } } else { *data_ptr = vector[a20addr]; BX_INFO(("Reading from Norm %08x, Data %02x ", (unsigned) a20addr, *data_ptr)); } } else *data_ptr = 0xff; #endif // BX_PCI_SUPPORT == 0 addr++; a20addr = (addr); #ifdef BX_LITTLE_ENDIAN data_ptr++; #else // BX_BIG_ENDIAN data_ptr--; #endif } return; } } #endif // #if BX_PROVIDE_CPU_MEMORY