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#include <uacpi/types.h>
#include <uacpi/kernel_api.h>
#include <uacpi/platform/arch_helpers.h>
#if defined(__x86_64__)
#include <arch/x86_64/drivers/io.hpp>
#include <arch/x86_64/drivers/pci.hpp>
#endif
#include <generic/bootloader/bootloader.hpp>
#include <generic/hhdm.hpp>
#include <generic/paging.hpp>
#include <utils/gobject.hpp>
#include <klibc/stdio.hpp>
#include <generic/heap.hpp>
#include <generic/lock/spinlock.hpp>
#include <generic/time.hpp>
uacpi_status uacpi_kernel_get_rsdp(uacpi_phys_addr *out_rsdp_address) {
if(bootloader::bootloader->get_rsdp() == nullptr)
return UACPI_STATUS_NOT_FOUND;
*out_rsdp_address = ((std::uint64_t)bootloader::bootloader->get_rsdp() - etc::hhdm());
return UACPI_STATUS_OK;
}
void *uacpi_kernel_map(uacpi_phys_addr addr, uacpi_size len) {
paging::map_range(gobject::kernel_root,addr,addr + etc::hhdm(),ALIGNUP(len, PAGE_SIZE),PAGING_PRESENT | PAGING_RW);
return (void*)(addr + etc::hhdm());
}
void uacpi_kernel_unmap(void *addr, uacpi_size len) {
(void)addr;
(void)len;
}
void uacpi_kernel_log(uacpi_log_level, const uacpi_char* msg) {
klibc::printf("uACPI: %s\r", msg);
}
uacpi_status uacpi_kernel_pci_device_open(
uacpi_pci_address address, uacpi_handle *out_handle
) {
uacpi_pci_address* pci = (uacpi_pci_address*)kheap::opt_malloc(sizeof(uacpi_pci_address));
*pci = address;
*out_handle = (uacpi_handle)pci;
return UACPI_STATUS_OK;
}
void uacpi_kernel_pci_device_close(uacpi_handle hnd) {
kheap::opt_free((void*)hnd);
}
typedef struct {
uint64_t base;
uint64_t len;
} __attribute__((packed)) uacpi_io_struct_t;
uacpi_status uacpi_kernel_io_map(
uacpi_io_addr base, uacpi_size len, uacpi_handle *out_handle
) {
uacpi_io_struct_t* iomap = (uacpi_io_struct_t*)kheap::opt_malloc(sizeof(uacpi_io_struct_t));
iomap->base = base;
iomap->len = len;
*out_handle = (uacpi_handle*)iomap;
return UACPI_STATUS_OK;
}
void uacpi_kernel_io_unmap(uacpi_handle handle) {
kheap::opt_free((void*)handle);
}
#if defined(__x86_64__)
uacpi_status uacpi_kernel_pci_read8(
uacpi_handle device, uacpi_size offset, uacpi_u8 *value
) {
uacpi_pci_address* pci = (uacpi_pci_address*)device;
*value = x86_64::pci::pci_read_config8(pci->bus,pci->device,pci->function,offset);
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_pci_read16(
uacpi_handle device, uacpi_size offset, uacpi_u16 *value
) {
uacpi_pci_address* pci = (uacpi_pci_address*)device;
*value = x86_64::pci::pci_read_config16(pci->bus,pci->device,pci->function,offset);
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_pci_read32(
uacpi_handle device, uacpi_size offset, uacpi_u32 *value
) {
uacpi_pci_address* pci = (uacpi_pci_address*)device;
*value = x86_64::pci::pci_read_config32(pci->bus,pci->device,pci->function,offset);
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_pci_write8(
uacpi_handle device, uacpi_size offset, uacpi_u8 value
) {
uacpi_pci_address* pci = (uacpi_pci_address*)device;
x86_64::pci::pci_write_config8(pci->bus,pci->device,pci->function,offset,value);
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_pci_write16(
uacpi_handle device, uacpi_size offset, uacpi_u16 value
) {
uacpi_pci_address* pci = (uacpi_pci_address*)device;
x86_64::pci::pci_write_config16(pci->bus,pci->device,pci->function,offset,value);
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_pci_write32(
uacpi_handle device, uacpi_size offset, uacpi_u32 value
) {
uacpi_pci_address* pci = (uacpi_pci_address*)device;
x86_64::pci::pci_write_config32(pci->bus,pci->device,pci->function,offset,value);
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_io_read8(
uacpi_handle hnd, uacpi_size offset, uacpi_u8 *out_value
) {
*out_value = x86_64::io::inb(*(std::uint16_t*)hnd + offset);
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_io_read16(
uacpi_handle hnd, uacpi_size offset, uacpi_u16 *out_value
) {
*out_value = x86_64::io::inw(*(std::uint16_t*)hnd + offset);
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_io_read32(
uacpi_handle hnd, uacpi_size offset, uacpi_u32 *out_value
) {
*out_value = x86_64::io::ind(*(std::uint16_t*)hnd + offset);
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_io_write8(
uacpi_handle hnd, uacpi_size offset, uacpi_u8 in_value
) {
x86_64::io::outb(*(std::uint16_t*)hnd + offset,in_value);
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_io_write16(
uacpi_handle hnd, uacpi_size offset, uacpi_u16 in_value
) {
x86_64::io::outw(*(std::uint16_t*)hnd + offset,in_value);
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_io_write32(
uacpi_handle hnd, uacpi_size offset, uacpi_u32 in_value
) {
x86_64::io::outd(*(std::uint16_t*)hnd + offset,in_value);
return UACPI_STATUS_OK;
}
#else
uacpi_status uacpi_kernel_pci_read8(
uacpi_handle device, uacpi_size offset, uacpi_u8 *value
) {
(void)device;
(void)offset;
(void)value;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_pci_read16(
uacpi_handle device, uacpi_size offset, uacpi_u16 *value
) {
(void)device;
(void)offset;
(void)value;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_pci_read32(
uacpi_handle device, uacpi_size offset, uacpi_u32 *value
) {
(void)device;
(void)offset;
(void)value;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_pci_write8(
uacpi_handle device, uacpi_size offset, uacpi_u8 value
) {
(void)device;
(void)offset;
(void)value;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_pci_write16(
uacpi_handle device, uacpi_size offset, uacpi_u16 value
) {
(void)device;
(void)offset;
(void)value;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_pci_write32(
uacpi_handle device, uacpi_size offset, uacpi_u32 value
) {
(void)device;
(void)offset;
(void)value;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_io_read8(
uacpi_handle hnd, uacpi_size offset, uacpi_u8 *out_value
) {
(void)hnd;
(void)offset;
(void)out_value;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_io_read16(
uacpi_handle hnd, uacpi_size offset, uacpi_u16 *out_value
) {
(void)hnd;
(void)offset;
(void)out_value;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_io_read32(
uacpi_handle hnd, uacpi_size offset, uacpi_u32 *out_value
) {
(void)hnd;
(void)offset;
(void)out_value;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_io_write8(
uacpi_handle hnd, uacpi_size offset, uacpi_u8 in_value
) {
(void)hnd;
(void)offset;
(void)in_value;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_io_write16(
uacpi_handle hnd, uacpi_size offset, uacpi_u16 in_value
) {
(void)hnd;
(void)offset;
(void)in_value;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_io_write32(
uacpi_handle hnd, uacpi_size offset, uacpi_u32 in_value
) {
(void)hnd;
(void)offset;
(void)in_value;
return UACPI_STATUS_UNIMPLEMENTED;
}
#endif
void *uacpi_kernel_alloc(uacpi_size size) {
return kheap::opt_malloc(size);
}
void uacpi_kernel_free(void *mem) {
kheap::opt_free(mem);
}
/*
* Returns the number of nanosecond ticks elapsed since boot,
* strictly monotonic.
*/
uacpi_u64 uacpi_kernel_get_nanoseconds_since_boot(void) {
if(!time::timer) {
klibc::printf("uACPI: generic timer is missing !\r\n");
return 0;
}
return time::timer->current_nano();
}
/*
* Spin for N microseconds.
*/
void uacpi_kernel_stall(uacpi_u8 usec) {
if(!time::timer) {
klibc::printf("uACPI: generic timer is missing !\r\n");
return;
}
time::timer->sleep(usec);
}
void uacpi_kernel_sleep(uacpi_u64 msec) {
if(!time::timer) {
klibc::printf("uACPI: generic timer is missing !\r\n");
return;
}
time::timer->sleep(msec * 1000);
}
uacpi_handle uacpi_kernel_create_mutex(void) {
locks::spinlock* lock = (locks::spinlock*)kheap::opt_malloc(sizeof(locks::spinlock));
return (uacpi_handle)lock;
}
void uacpi_kernel_free_mutex(uacpi_handle hnd) {
kheap::opt_free((void*)hnd);
}
uacpi_handle uacpi_kernel_create_event(void) {
return (uacpi_handle)1;
}
void uacpi_kernel_free_event(uacpi_handle) {
asm volatile("nop");
}
uacpi_thread_id uacpi_kernel_get_thread_id(void) {
return 0;
}
uacpi_status uacpi_kernel_acquire_mutex(uacpi_handle lock, uacpi_u16) {
(void)lock;
return UACPI_STATUS_OK;
}
void uacpi_kernel_release_mutex(uacpi_handle lock) {
(void)lock;
}
uacpi_bool uacpi_kernel_wait_for_event(uacpi_handle, uacpi_u16) {
return 1;
}
void uacpi_kernel_signal_event(uacpi_handle) {
asm volatile("nop");
}
void uacpi_kernel_reset_event(uacpi_handle) {
asm volatile("nop");
}
uacpi_status uacpi_kernel_handle_firmware_request(uacpi_firmware_request*) {
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_install_interrupt_handler(
uacpi_u32 irq, uacpi_interrupt_handler base, uacpi_handle ctx,
uacpi_handle *out_irq_handle
) {
(void)irq;
(void)base;
(void)ctx;
(void)out_irq_handle;
return UACPI_STATUS_OK;
}
uacpi_status uacpi_kernel_uninstall_interrupt_handler(
uacpi_interrupt_handler, uacpi_handle irq_handle
) {
(void)irq_handle;
return UACPI_STATUS_OK;
}
uacpi_handle uacpi_kernel_create_spinlock(void) {
locks::spinlock* lock = (locks::spinlock*)kheap::opt_malloc(sizeof(locks::spinlock));
return (uacpi_handle)lock;
}
void uacpi_kernel_free_spinlock(uacpi_handle hnd) {
kheap::opt_free((void*)hnd);
}
uacpi_cpu_flags uacpi_kernel_lock_spinlock(uacpi_handle hnd) {
(void)hnd;
return UACPI_STATUS_OK;
}
void uacpi_kernel_unlock_spinlock(uacpi_handle hnd, uacpi_cpu_flags) {
(void)hnd;
}
uacpi_status uacpi_kernel_schedule_work(
uacpi_work_type, uacpi_work_handler, uacpi_handle ctx
) {
(void)ctx;
return UACPI_STATUS_UNIMPLEMENTED;
}
uacpi_status uacpi_kernel_wait_for_work_completion(void) {
return UACPI_STATUS_OK;
}
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