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/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <Kernel/ACPI/ACPIStaticParser.h>
#include <Kernel/IO.h>
#include <Kernel/StdLib.h>
#include <Kernel/VM/MemoryManager.h>
//#define ACPI_DEBUG
void ACPIStaticParser::initialize(ACPI_RAW::RSDPDescriptor20& rsdp)
{
if (!ACPIParser::is_initialized()) {
new ACPIStaticParser(rsdp);
}
}
void ACPIStaticParser::initialize_without_rsdp()
{
if (!ACPIParser::is_initialized()) {
new ACPIStaticParser();
}
}
bool ACPIStaticParser::is_initialized()
{
return ACPIParser::is_initialized();
}
void ACPIStaticParser::locate_static_data()
{
locate_main_system_description_table();
initialize_main_system_description_table();
init_fadt();
locate_all_aml_tables();
}
ACPI_RAW::SDTHeader* ACPIStaticParser::find_table(const char* sig)
{
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Calling Find Table method!\n");
#endif
for (auto* physical_sdt_ptr : m_main_sdt->get_sdt_pointers()) {
auto region = MM.allocate_kernel_region(PhysicalAddress(page_base_of((uintptr_t)physical_sdt_ptr)), (PAGE_SIZE * 2), "ACPI Static Parser Tables Finding", Region::Access::Read);
ACPI_RAW::SDTHeader* sdt = (ACPI_RAW::SDTHeader*)region->vaddr().offset(offset_in_page((uintptr_t)physical_sdt_ptr)).as_ptr();
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Examining Table @ P 0x%x\n", physical_sdt_ptr);
#endif
if (!strncmp(sdt->sig, sig, 4)) {
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Found Table @ P 0x%x\n", physical_sdt_ptr);
#endif
return physical_sdt_ptr;
}
}
return nullptr;
}
void ACPIStaticParser::init_fadt()
{
kprintf("ACPI: Initializing Fixed ACPI data\n");
kprintf("ACPI: Searching for the Fixed ACPI Data Table\n");
ASSERT(find_table("FACP") != nullptr);
auto* fadt_ptr = find_table("FACP");
auto checkup_region = MM.allocate_kernel_region(PhysicalAddress(page_base_of((uintptr_t)(fadt_ptr))), (PAGE_SIZE * 2), "ACPI Static Parser", Region::Access::Read);
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Checking FADT Length to choose the correct mapping size\n");
#endif
ACPI_RAW::SDTHeader* sdt = (ACPI_RAW::SDTHeader*)checkup_region->vaddr().offset(offset_in_page((uintptr_t)(fadt_ptr))).as_ptr();
#ifdef ACPI_DEBUG
dbgprintf("ACPI: FADT @ V 0x%x, P 0x%x\n", sdt, fadt_ptr);
#endif
u32 length = sdt->length;
kprintf("ACPI: Fixed ACPI data, Revision %u\n", sdt->revision);
auto fadt_region = MM.allocate_kernel_region(PhysicalAddress(page_base_of((uintptr_t)(fadt_ptr))), PAGE_ROUND_UP(length) + PAGE_SIZE, "ACPI Static Parser", Region::Access::Read);
m_fadt = make<ACPI::FixedACPIData>(*(ACPI_RAW::FADT*)fadt_region->vaddr().offset(offset_in_page((uintptr_t)(fadt_ptr))).as_ptr());
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Finished to initialize Fixed ACPI data\n");
#endif
}
void ACPIStaticParser::do_acpi_reboot()
{
// FIXME: Determine if we need to do MMIO/PCI/IO access to reboot, according to ACPI spec 6.2, Section 4.8.3.6
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Rebooting, Probing FADT (P @ 0x%x)\n", m_fadt.ptr());
#endif
if (m_fadt->m_revision >= 2) {
kprintf("ACPI: Reboot, Sending value 0%x to Port 0x%x\n", m_fadt->m_reset_value, m_fadt->m_reset_reg.address);
IO::out8(m_fadt->m_reset_reg.address, m_fadt->m_reset_value);
} else {
kprintf("ACPI: Reboot, Not supported!\n");
}
ASSERT_NOT_REACHED(); /// If rebooting didn't work, halt.
}
void ACPIStaticParser::do_acpi_shutdown()
{
kprintf("ACPI: Shutdown is not supported with the current configuration, Abort!\n");
ASSERT_NOT_REACHED();
}
inline bool validate_acpi_table(ACPI_RAW::SDTHeader& v_header, size_t length)
{
u8 checksum = 0;
auto* sdt = (u8*)&v_header;
for (size_t i = 0; i < length; i++)
checksum += sdt[i];
if (checksum == 0)
return true;
return false;
}
size_t ACPIStaticParser::get_table_size(ACPI_RAW::SDTHeader& p_header)
{
InterruptDisabler disabler;
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Checking SDT Length\n");
#endif
auto region = MM.allocate_kernel_region(PhysicalAddress((uintptr_t)&p_header & PAGE_MASK), (PAGE_SIZE * 2), "ACPI get_table_size()", Region::Access::Read);
volatile auto* sdt = (ACPI_RAW::SDTHeader*)region->vaddr().offset(offset_in_page((uintptr_t)&p_header)).as_ptr();
return sdt->length;
}
u8 ACPIStaticParser::get_table_revision(ACPI_RAW::SDTHeader& p_header)
{
InterruptDisabler disabler;
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Checking SDT Revision\n");
#endif
auto region = MM.allocate_kernel_region(PhysicalAddress((uintptr_t)&p_header & PAGE_MASK), (PAGE_SIZE * 2), "ACPI get_table_revision()", Region::Access::Read);
volatile auto* sdt = (ACPI_RAW::SDTHeader*)region->vaddr().offset(offset_in_page((uintptr_t)&p_header)).as_ptr();
return sdt->revision;
}
void ACPIStaticParser::initialize_main_system_description_table()
{
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Checking Main SDT Length to choose the correct mapping size\n");
#endif
ASSERT(m_main_system_description_table != nullptr);
u32 length;
u8 revision;
if (m_xsdt_supported) {
length = get_table_size(*m_main_system_description_table);
revision = get_table_revision(*m_main_system_description_table);
} else {
length = get_table_size(*m_main_system_description_table);
revision = get_table_revision(*m_main_system_description_table);
}
auto main_sdt_region = MM.allocate_kernel_region(PhysicalAddress(page_base_of((uintptr_t)m_main_system_description_table)), PAGE_ROUND_UP(length) + PAGE_SIZE, "ACPI Static Parser Initialization", Region::Access::Read, false, true);
volatile auto* sdt = (ACPI_RAW::SDTHeader*)main_sdt_region->vaddr().offset(offset_in_page((uintptr_t)m_main_system_description_table)).as_ptr();
kprintf("ACPI: Main Description Table valid? 0x%x\n", validate_acpi_table(const_cast<ACPI_RAW::SDTHeader&>(*sdt), length));
Vector<ACPI_RAW::SDTHeader*> sdt_pointers;
if (m_xsdt_supported) {
volatile auto* xsdt = (volatile ACPI_RAW::XSDT*)sdt;
kprintf("ACPI: Using XSDT, Enumerating tables @ P 0x%x\n", m_main_system_description_table);
kprintf("ACPI: XSDT Revision %d, Total length - %u\n", revision, length);
#ifdef ACPI_DEBUG
dbgprintf("ACPI: XSDT pointer @ V 0x%x\n", xsdt);
#endif
for (u32 i = 0; i < ((length - sizeof(ACPI_RAW::SDTHeader)) / sizeof(u64)); i++) {
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Found new table [%u], @ V0x%x - P0x%x\n", i, &xsdt->table_ptrs[i], xsdt->table_ptrs[i]);
#endif
sdt_pointers.append((ACPI_RAW::SDTHeader*)xsdt->table_ptrs[i]);
}
} else {
volatile auto* rsdt = (volatile ACPI_RAW::RSDT*)sdt;
kprintf("ACPI: Using RSDT, Enumerating tables @ P 0x%x\n", m_main_system_description_table);
kprintf("ACPI: RSDT Revision %d, Total length - %u\n", revision, length);
#ifdef ACPI_DEBUG
dbgprintf("ACPI: RSDT pointer @ V 0x%x\n", rsdt);
#endif
for (u32 i = 0; i < ((length - sizeof(ACPI_RAW::SDTHeader)) / sizeof(u32)); i++) {
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Found new table [%u], @ V0x%x - P0x%x\n", i, &rsdt->table_ptrs[i], rsdt->table_ptrs[i]);
#endif
sdt_pointers.append((ACPI_RAW::SDTHeader*)rsdt->table_ptrs[i]);
}
}
m_main_sdt = OwnPtr<ACPI::MainSystemDescriptionTable>(new ACPI::MainSystemDescriptionTable(move(sdt_pointers)));
}
void ACPIStaticParser::locate_main_system_description_table()
{
if (m_rsdp->base.revision == 0) {
m_xsdt_supported = false;
} else if (m_rsdp->base.revision >= 2) {
if (m_rsdp->xsdt_ptr != (u64) nullptr) {
m_xsdt_supported = true;
} else {
m_xsdt_supported = false;
}
}
if (!m_xsdt_supported) {
m_main_system_description_table = (ACPI_RAW::SDTHeader*)m_rsdp->base.rsdt_ptr;
} else {
m_main_system_description_table = (ACPI_RAW::SDTHeader*)m_rsdp->xsdt_ptr;
}
}
void ACPIStaticParser::locate_all_aml_tables()
{
// Note: According to the ACPI spec, DSDT pointer may be found in the FADT table.
// All other continuation of the DSDT can be found as pointers in the RSDT/XSDT.
kprintf("ACPI: Searching for AML Tables\n");
m_aml_tables_ptrs.append(m_fadt->get_dsdt());
for (auto* sdt_ptr : m_main_sdt->get_sdt_pointers()) {
auto region = MM.allocate_kernel_region(PhysicalAddress(page_base_of((uintptr_t)sdt_ptr)), (PAGE_SIZE * 2), "ACPI Static Parser AML Tables Finding", Region::Access::Read);
auto* sdt = (ACPI_RAW::SDTHeader*)region->vaddr().offset(offset_in_page((uintptr_t)sdt_ptr)).as_ptr();
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Examining Table @ P 0x%x\n", sdt_ptr);
#endif
if (!strncmp(sdt->sig, "SSDT", 4)) {
kprintf("ACPI: Found AML Table @ P 0x%x, registering\n", sdt_ptr);
m_aml_tables_ptrs.append(sdt);
}
}
}
ACPIStaticParser::ACPIStaticParser()
: ACPIParser(true)
, m_rsdp(nullptr)
, m_main_sdt(nullptr)
, m_fadt(nullptr)
{
m_rsdp = search_rsdp();
if (m_rsdp != nullptr) {
kprintf("ACPI: Using RSDP @ P 0x%x\n", m_rsdp);
m_operable = true;
locate_static_data();
} else {
m_operable = false;
kprintf("ACPI: Disabled, due to RSDP being absent\n");
}
}
ACPI_RAW::RSDPDescriptor20* ACPIStaticParser::search_rsdp()
{
auto region = MM.allocate_kernel_region(PhysicalAddress(0), PAGE_SIZE, "ACPI Static Parser RSDP Finding", Region::Access::Read);
u16 ebda_seg = (u16) * ((uint16_t*)((region->vaddr().get() & PAGE_MASK) + 0x40e));
kprintf("ACPI: Probing EBDA, Segment 0x%x\n", ebda_seg);
// FIXME: Ensure that we always have identity mapping (identity paging) here! Don't rely on existing mapping...
for (char* rsdp_str = (char*)(PhysicalAddress(ebda_seg << 4).as_ptr()); rsdp_str < (char*)((ebda_seg << 4) + 1024); rsdp_str += 16) {
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Looking for RSDP in EBDA @ Px%x\n", rsdp_str);
#endif
if (!strncmp("RSD PTR ", rsdp_str, strlen("RSD PTR ")))
return (ACPI_RAW::RSDPDescriptor20*)rsdp_str;
}
// FIXME: Ensure that we always have identity mapping (identity paging) here! Don't rely on existing mapping...
for (char* rsdp_str = (char*)(PhysicalAddress(0xE0000).as_ptr()); rsdp_str < (char*)0xFFFFF; rsdp_str += 16) {
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Looking for RSDP in EBDA @ Px%x\n", rsdp_str);
#endif
if (!strncmp("RSD PTR ", rsdp_str, strlen("RSD PTR ")))
return (ACPI_RAW::RSDPDescriptor20*)rsdp_str;
}
return nullptr;
}
ACPIStaticParser::ACPIStaticParser(ACPI_RAW::RSDPDescriptor20& rsdp)
: ACPIParser(true)
, m_rsdp(&rsdp)
, m_main_sdt(nullptr)
, m_fadt(nullptr)
{
kprintf("ACPI: Using RSDP @ Px%x\n", &rsdp);
m_operable = true;
locate_static_data();
}
ACPI::MainSystemDescriptionTable::MainSystemDescriptionTable(Vector<ACPI_RAW::SDTHeader*>&& sdt_pointers)
{
for (auto* sdt_ptr : sdt_pointers) {
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Register new table in Main SDT, @ P 0x%x\n", sdt_ptr);
#endif
m_sdt_pointers.append(sdt_ptr);
}
}
Vector<ACPI_RAW::SDTHeader*>& ACPI::MainSystemDescriptionTable::get_sdt_pointers()
{
return m_sdt_pointers;
}
ACPI::FixedACPIData::FixedACPIData(ACPI_RAW::FADT& fadt)
{
m_dsdt_ptr = fadt.dsdt_ptr;
#ifdef ACPI_DEBUG
dbgprintf("ACPI: DSDT pointer @ P 0x%x\n", m_dsdt_ptr);
#endif
m_revision = fadt.h.revision;
m_x_dsdt_ptr = fadt.x_dsdt;
m_preferred_pm_profile = fadt.preferred_pm_profile;
m_sci_int = fadt.sci_int;
m_smi_cmd = fadt.smi_cmd;
m_acpi_enable_value = fadt.acpi_enable_value;
m_acpi_disable_value = fadt.acpi_disable_value;
m_s4bios_req = fadt.s4bios_req;
m_pstate_cnt = fadt.pstate_cnt;
m_PM1a_EVT_BLK = fadt.PM1a_EVT_BLK;
m_PM1b_EVT_BLK = fadt.PM1b_EVT_BLK;
m_PM1a_CNT_BLK = fadt.PM1a_CNT_BLK;
m_PM1b_CNT_BLK = fadt.PM1b_CNT_BLK;
m_PM2_CNT_BLK = fadt.PM2_CNT_BLK;
m_PM_TMR_BLK = fadt.PM_TMR_BLK;
m_GPE0_BLK = fadt.GPE0_BLK;
m_GPE1_BLK = fadt.GPE1_BLK;
m_PM1_EVT_LEN = fadt.PM1_EVT_LEN;
m_PM1_CNT_LEN = fadt.PM1_CNT_LEN;
m_PM2_CNT_LEN = fadt.PM2_CNT_LEN;
m_PM_TMR_LEN = fadt.PM_TMR_LEN;
m_GPE0_BLK_LEN = fadt.GPE0_BLK_LEN;
m_GPE1_BLK_LEN = fadt.GPE1_BLK_LEN;
m_GPE1_BASE = fadt.GPE1_BASE;
m_cst_cnt = fadt.cst_cnt;
m_P_LVL2_LAT = fadt.P_LVL2_LAT;
m_P_LVL3_LAT = fadt.P_LVL3_LAT;
m_flush_size = fadt.flush_size;
m_flush_stride = fadt.flush_stride;
m_duty_offset = fadt.duty_offset;
m_duty_width = fadt.duty_width;
m_day_alrm = fadt.day_alrm;
m_mon_alrm = fadt.mon_alrm;
m_century = fadt.century;
m_ia_pc_boot_arch_flags = fadt.ia_pc_boot_arch_flags;
m_flags = fadt.flags;
m_reset_reg = fadt.reset_reg;
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Reset Register @ IO 0x%x\n", m_reset_reg.address);
dbgprintf("ACPI: Reset Register Address space %x\n", fadt.reset_reg.address_space);
#endif
m_reset_value = fadt.reset_value;
#ifdef ACPI_DEBUG
dbgprintf("ACPI: Reset Register value @ P 0x%x\n", m_reset_value);
#endif
m_x_pm1a_evt_blk = fadt.x_pm1a_evt_blk;
m_x_pm1b_evt_blk = fadt.x_pm1b_evt_blk;
m_x_pm1a_cnt_blk = fadt.x_pm1a_cnt_blk;
m_x_pm1b_cnt_blk = fadt.x_pm1b_cnt_blk;
m_x_pm2_cnt_blk = fadt.x_pm2_cnt_blk;
m_x_pm_tmr_blk = fadt.x_pm_tmr_blk;
m_x_gpe0_blk = fadt.x_gpe0_blk;
m_x_gpe1_blk = fadt.x_gpe1_blk;
m_sleep_control = fadt.sleep_control;
m_sleep_status = fadt.sleep_status;
m_hypervisor_vendor_identity = fadt.hypervisor_vendor_identity;
}
ACPI_RAW::SDTHeader* ACPI::FixedACPIData::get_dsdt()
{
if (m_x_dsdt_ptr != (uintptr_t) nullptr)
return (ACPI_RAW::SDTHeader*)m_x_dsdt_ptr;
else {
ASSERT((ACPI_RAW::SDTHeader*)m_dsdt_ptr != nullptr);
return (ACPI_RAW::SDTHeader*)m_dsdt_ptr;
}
}
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