//----------------------------------------------------------------------------//
// GNU GPL OS/K //
// //
// Desc: ACPI, Hardware detection related functions //
// //
// //
// Copyright © 2018-2019 The OS/K Team //
// //
// This file is part of OS/K. //
// //
// OS/K 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 //
// any later version. //
// //
// OS/K 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 OS/K. If not, see . //
//----------------------------------------------------------------------------//
#include
#include
#include
#include
#include
SDTHeader *AcpiSDT = NULL;
SDTHeader *AcpiFADT = NULL;
char IoACPIVersion = 1;
int tableCount = 1;
extern MemoryMap_t memoryMap;
//
// Returns the checksum of the given structure
//
static char DoChecksum(const void *ptr, const size_t size,
size_t intermediateSize, ulong reason)
{
char checksum = 0;
for (ulong i=0; i < (ulong)size; i++) {
if (reason && i > (ulong)intermediateSize)
break;
checksum += (uchar)((char*)ptr)[i];
}
return checksum;
}
//
// Returns the address of the RSDP
//
static inline RSDPDescriptor *IoFindRSDP()
{
char *rsdp = NULL;
// Search in EBDA
for (rsdp = (char *)0x00080000; // EBDA address
(ulong)rsdp < (ulong)0x0009FFFF; // EBDA end
rsdp++) {
if (rsdp[0] == 'R' &&
rsdp[1] == 'S' &&
rsdp[2] == 'D' &&
rsdp[3] == ' ' &&
rsdp[4] == 'P' &&
rsdp[5] == 'T' &&
rsdp[6] == 'R' &&
rsdp[7] == ' '
) {
return (RSDPDescriptor *)rsdp;
}
}
// Search in BDA
for (rsdp = (char *)0x000E0000; // BDA address
(ulong)rsdp < (ulong)0x000FFFFF; // BDA end
rsdp++) {
if (rsdp[0] == 'R' &&
rsdp[1] == 'S' &&
rsdp[2] == 'D' &&
rsdp[3] == ' ' &&
rsdp[4] == 'P' &&
rsdp[5] == 'T' &&
rsdp[6] == 'R' &&
rsdp[7] == ' '
) {
return (RSDPDescriptor *)rsdp;
}
}
return NULL;
}
//
// RSDP Exploration
//
static inline void IoInitRSDP(void)
{
char checksum = 1;
RSDPDescriptor *rsdp = IoFindRSDP();
if (!rsdp)
KeStartPanic("ACPI RSDP not found in memory");
// Checksum calculation
checksum = DoChecksum(rsdp, (size_t)sizeof(RSDPDescriptor),
(size_t)sizeof(struct RSDPLegacy),
!rsdp->legacy.revision
);
if (checksum)
KeStartPanic("Invalid RSDP checksum : %d vs 0", checksum);
if (rsdp->legacy.revision == 1 || rsdp->legacy.revision >= 3)
KeStartPanic("Invalid ACPI Revision : %d", rsdp->legacy.revision);
DebugLog("ACPI Revision %d (OEM %s)\n",
(uint)rsdp->legacy.revision,
rsdp->legacy.OEMID
);
AcpiSDT = (void *)(ulong)rsdp->legacy.rsdtAddress;
if (rsdp->legacy.revision) {
AcpiSDT = (void *)rsdp->xsdtAddress;
IoACPIVersion = 2;
}
}
//
// R/XSDT Exploration
//
static inline void IoInitRXSDT(void)
{
char checksum = 1;
SDTHeader *rxsdt = AcpiSDT;
/* // Checksum calculation */
checksum = DoChecksum(rxsdt, (size_t)rxsdt->length,
0,
0
);
if (checksum)
KeStartPanic("Invalid RSDT checksum : %d vs 0", checksum);
if (IoACPIVersion == 1) {
DebugLog("ACPI Root System Table %s (%s) length %d [%p]\n",
rxsdt->signature,
rxsdt->OEMID,
rxsdt->length,
rxsdt
);
} else {
DebugLog("ACPI Extended System Table %s (%s) length %d [%p]\n",
rxsdt->signature,
rxsdt->OEMID,
rxsdt->length,
rxsdt
);
}
}
//
// Explore all ACPI Tables
//
static inline void IoSearchAcpiTables(void)
{
SDTHeader *xrsdt = AcpiSDT;
SDTHeader *table = NULL;
uint *curInt = NULL;
ulong *curLong = NULL;
register char checksum;
int entries;
if (IoACPIVersion == 1) {
entries = (xrsdt->length - sizeof(xrsdt)) / 4;
} else {
entries = (xrsdt->length - sizeof(xrsdt)) / 8;
}
DebugLog("ACPI detected %d entries\n", entries);
curInt = &(xrsdt->sdtTablePtr);
curLong = &(xrsdt->sdtTablePtr);
for (int i = 0; i < entries; i++) {
if (IoACPIVersion == 1)
table = (SDTHeader *)curInt[i];
else
table = (SDTHeader *)curLong[i];
//KernLog("\tACPI RSDT[%d] %p\n", i, table);
if (MmIsBusyZone(table)) {
checksum = DoChecksum(table, (size_t)table->length, 0, 0);
if (!checksum) {
DebugLog("ACPI System Table %s (OEM %s) length %d [%p]\n",
table->signature,
table->OEMID,
table->length,
table);
}
}
}
}
// -------------------------------------------------------------------------- //
//
// Initialise the ACPI by finding tables
//
void IoInitAcpi(void)
{
// MAP ACPI PAGES
// Search the zone where the start address is
for (uint i = 0; i < memoryMap.length; i++) {
// if the address is in an available zone, we can return the length
if (memoryMap.entry[i].type != AVAILABLE_ZONE) {
// Map each page that is in the busy zone
for (uint j = 0;
j < (memoryMap.entry[i].length
+ ((ulong)memoryMap.entry[i].addr)
- ((ulong)memoryMap.entry[i].addr
& 0xFFFFFFFFFFFFF000))
/ KPAGESIZE;
j++) {
MmMapPage(memoryMap.entry[i].addr + KPAGESIZE*j,
memoryMap.entry[i].addr + KPAGESIZE*j,
PRESENT);
//KernLog("ACPI %d ID MAP %p\n", i,
// memoryMap.entry[i].addr + KPAGESIZE*j);
}
}
}
// FIND RSDP
IoInitRSDP();
IoInitRXSDT();
IoSearchAcpiTables();
}