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qemu / seabios / refs/tags/rel-1.12.0 / . / src / fw / shadow.c
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// Support for enabling/disabling BIOS ram shadowing.
//
// Copyright (C) 2008-2010 Kevin O'Connor <kevin@koconnor.net>
// Copyright (C) 2006 Fabrice Bellard
//
// This file may be distributed under the terms of the GNU LGPLv3 license.
#include "config.h" // CONFIG_*
#include "dev-q35.h" // PCI_VENDOR_ID_INTEL
#include "dev-piix.h" // I440FX_PAM0
#include "hw/pci.h" // pci_config_writeb
#include "hw/pci_ids.h" // PCI_VENDOR_ID_INTEL
#include "hw/pci_regs.h" // PCI_VENDOR_ID
#include "malloc.h" // rom_get_last
#include "output.h" // dprintf
#include "paravirt.h" // runningOnXen
#include "string.h" // memset
#include "util.h" // make_bios_writable
#include "x86.h" // wbinvd
// On the emulators, the bios at 0xf0000 is also at 0xffff0000
#define BIOS_SRC_OFFSET 0xfff00000
union pamdata_u {
u8 data8[8];
u32 data32[2];
};
// Enable shadowing and copy bios.
static void
__make_bios_writable_intel(u16 bdf, u32 pam0)
{
// Read in current PAM settings from pci config space
union pamdata_u pamdata;
pamdata.data32[0] = pci_config_readl(bdf, ALIGN_DOWN(pam0, 4));
pamdata.data32[1] = pci_config_readl(bdf, ALIGN_DOWN(pam0, 4) + 4);
u8 *pam = &pamdata.data8[pam0 & 0x03];
// Make ram from 0xc0000-0xf0000 writable
int i;
for (i=0; i<6; i++)
pam[i + 1] = 0x33;
// Make ram from 0xf0000-0x100000 writable
int ram_present = pam[0] & 0x10;
pam[0] = 0x30;
// Write PAM settings back to pci config space
pci_config_writel(bdf, ALIGN_DOWN(pam0, 4), pamdata.data32[0]);
pci_config_writel(bdf, ALIGN_DOWN(pam0, 4) + 4, pamdata.data32[1]);
if (!ram_present)
// Copy bios.
memcpy(VSYMBOL(code32flat_start)
, VSYMBOL(code32flat_start) + BIOS_SRC_OFFSET
, SYMBOL(code32flat_end) - SYMBOL(code32flat_start));
}
static void
make_bios_writable_intel(u16 bdf, u32 pam0)
{
int reg = pci_config_readb(bdf, pam0);
if (!(reg & 0x10)) {
// QEMU doesn't fully implement the piix shadow capabilities -
// if ram isn't backing the bios segment when shadowing is
// disabled, the code itself won't be in memory. So, run the
// code from the high-memory flash location.
u32 pos = (u32)__make_bios_writable_intel + BIOS_SRC_OFFSET;
void (*func)(u16 bdf, u32 pam0) = (void*)pos;
func(bdf, pam0);
return;
}
// Ram already present - just enable writes
__make_bios_writable_intel(bdf, pam0);
}
static void
make_bios_readonly_intel(u16 bdf, u32 pam0)
{
// Flush any pending writes before locking memory.
wbinvd();
// Read in current PAM settings from pci config space
union pamdata_u pamdata;
pamdata.data32[0] = pci_config_readl(bdf, ALIGN_DOWN(pam0, 4));
pamdata.data32[1] = pci_config_readl(bdf, ALIGN_DOWN(pam0, 4) + 4);
u8 *pam = &pamdata.data8[pam0 & 0x03];
// Write protect roms from 0xc0000-0xf0000
u32 romlast = BUILD_BIOS_ADDR, rommax = BUILD_BIOS_ADDR;
if (CONFIG_WRITABLE_UPPERMEMORY)
romlast = rom_get_last();
if (CONFIG_MALLOC_UPPERMEMORY)
rommax = rom_get_max();
int i;
for (i=0; i<6; i++) {
u32 mem = BUILD_ROM_START + i * 32*1024;
if (romlast < mem + 16*1024 || rommax < mem + 32*1024) {
if (romlast >= mem && rommax >= mem + 16*1024)
pam[i + 1] = 0x31;
break;
}
pam[i + 1] = 0x11;
}
// Write protect 0xf0000-0x100000
pam[0] = 0x10;
// Write PAM settings back to pci config space
pci_config_writel(bdf, ALIGN_DOWN(pam0, 4), pamdata.data32[0]);
pci_config_writel(bdf, ALIGN_DOWN(pam0, 4) + 4, pamdata.data32[1]);
}
static int ShadowBDF = -1;
// Make the 0xc0000-0x100000 area read/writable.
void
make_bios_writable(void)
{
if (!CONFIG_QEMU || runningOnXen())
return;
dprintf(3, "enabling shadow ram\n");
// At this point, statically allocated variables can't be written,
// so do this search manually.
int bdf;
foreachbdf(bdf, 0) {
u32 vendev = pci_config_readl(bdf, PCI_VENDOR_ID);
u16 vendor = vendev & 0xffff, device = vendev >> 16;
if (vendor == PCI_VENDOR_ID_INTEL
&& device == PCI_DEVICE_ID_INTEL_82441) {
make_bios_writable_intel(bdf, I440FX_PAM0);
code_mutable_preinit();
ShadowBDF = bdf;
return;
}
if (vendor == PCI_VENDOR_ID_INTEL
&& device == PCI_DEVICE_ID_INTEL_Q35_MCH) {
make_bios_writable_intel(bdf, Q35_HOST_BRIDGE_PAM0);
code_mutable_preinit();
ShadowBDF = bdf;
return;
}
}
dprintf(1, "Unable to unlock ram - bridge not found\n");
}
// Make the BIOS code segment area (0xf0000) read-only.
void
make_bios_readonly(void)
{
if (!CONFIG_QEMU || runningOnXen())
return;
dprintf(3, "locking shadow ram\n");
if (ShadowBDF < 0) {
dprintf(1, "Unable to lock ram - bridge not found\n");
return;
}
u16 device = pci_config_readw(ShadowBDF, PCI_DEVICE_ID);
if (device == PCI_DEVICE_ID_INTEL_82441)
make_bios_readonly_intel(ShadowBDF, I440FX_PAM0);
else
make_bios_readonly_intel(ShadowBDF, Q35_HOST_BRIDGE_PAM0);
}
void
qemu_reboot(void)
{
if (!CONFIG_QEMU || runningOnXen())
return;
// QEMU doesn't map 0xc0000-0xfffff back to the original rom on a
// reset, so do that manually before invoking a hard reset.
void *flash = (void*)BIOS_SRC_OFFSET;
u32 hrp = (u32)&HaveRunPost;
if (readl(flash + hrp)) {
// There isn't a pristine copy of the BIOS at 0xffff0000 to copy
if (HaveRunPost == 3) {
// In a reboot loop. Try to shutdown the machine instead.
dprintf(1, "Unable to hard-reboot machine - attempting shutdown.\n");
apm_shutdown();
}
make_bios_writable();
HaveRunPost = 3;
} else {
// Copy the BIOS making sure to only reset HaveRunPost at end
make_bios_writable();
u32 cstart = SYMBOL(code32flat_start), cend = SYMBOL(code32flat_end);
memcpy((void*)cstart, flash + cstart, hrp - cstart);
memcpy((void*)hrp + 4, flash + hrp + 4, cend - (hrp + 4));
barrier();
HaveRunPost = 0;
barrier();
}
// Request a QEMU system reset. Do the reset in this function as
// the BIOS code was overwritten above and not all BIOS
// functionality may be available.
// Attempt PCI style reset
outb(0x02, PORT_PCI_REBOOT);
outb(0x06, PORT_PCI_REBOOT);
// Next try triple faulting the CPU to force a reset
asm volatile("int3");
}