x86_64: Use lapic as preempt source on bsp

This commit is contained in:
K. Lange 2024-01-22 07:32:12 +09:00
parent 5b0c5da5f5
commit 4a1b944525
2 changed files with 37 additions and 28 deletions

View File

@ -477,14 +477,12 @@ int kmain(struct multiboot * mboot, uint32_t mboot_mag, void* esp, uint64_t base
framebuffer_initialize(); framebuffer_initialize();
fbterm_initialize(); fbterm_initialize();
/* Start up other cores and enable an appropriate preempt source. */
smp_initialize(); smp_initialize();
/* Decompress and mount all initial ramdisks. */ /* Decompress and mount all initial ramdisks. */
mount_multiboot_ramdisks(mboot_struct); mount_multiboot_ramdisks(mboot_struct);
/* Set up preempt source */
pit_initialize();
/* Install generic PC device drivers. */ /* Install generic PC device drivers. */
ps2hid_install(); ps2hid_install();
serial_initialize(); serial_initialize();

View File

@ -177,6 +177,27 @@ void load_processor_info(void) {
asm volatile ("wrmsr" : : "c"(0xC0000084), "d"(0), "a"(0x700)); /* SFMASK: Direction flag, interrupt flag, trap flag are all cleared */ asm volatile ("wrmsr" : : "c"(0xC0000084), "d"(0), "a"(0x700)); /* SFMASK: Direction flag, interrupt flag, trap flag are all cleared */
} }
static void lapic_timer_initialize(void) {
/* Enable our spurious vector register */
*((volatile uint32_t*)(lapic_final + 0x0F0)) = 0x127;
*((volatile uint32_t*)(lapic_final + 0x320)) = 0x7b;
*((volatile uint32_t*)(lapic_final + 0x3e0)) = 1;
/* Time our APIC timer against the TSC */
uint64_t before = arch_perf_timer();
*((volatile uint32_t*)(lapic_final + 0x380)) = 1000000;
while (*((volatile uint32_t*)(lapic_final + 0x390)));
uint64_t after = arch_perf_timer();
uint64_t ms = (after-before)/arch_cpu_mhz();
uint64_t target = 10000000000UL / ms;
/* Enable our APIC timer to send periodic wakeup signals */
*((volatile uint32_t*)(lapic_final + 0x3e0)) = 1;
*((volatile uint32_t*)(lapic_final + 0x320)) = 0x7b | 0x20000;
*((volatile uint32_t*)(lapic_final + 0x380)) = target;
}
/** /**
* @brief C entrypoint for APs, called by the bootstrap. * @brief C entrypoint for APs, called by the bootstrap.
* *
@ -202,25 +223,6 @@ void ap_main(void) {
fpu_initialize(); fpu_initialize();
pat_initialize(); pat_initialize();
/* Enable our spurious vector register */
*((volatile uint32_t*)(lapic_final + 0x0F0)) = 0x127;
*((volatile uint32_t*)(lapic_final + 0x320)) = 0x7b;
*((volatile uint32_t*)(lapic_final + 0x3e0)) = 1;
/* Time our APIC timer against the TSC */
uint64_t before = arch_perf_timer();
*((volatile uint32_t*)(lapic_final + 0x380)) = 1000000;
while (*((volatile uint32_t*)(lapic_final + 0x390)));
uint64_t after = arch_perf_timer();
uint64_t ms = (after-before)/arch_cpu_mhz();
uint64_t target = 10000000000UL / ms;
/* Enable our APIC timer to send periodic wakeup signals */
*((volatile uint32_t*)(lapic_final + 0x3e0)) = 1;
*((volatile uint32_t*)(lapic_final + 0x320)) = 0x7b | 0x20000;
*((volatile uint32_t*)(lapic_final + 0x380)) = target;
/* Set our pml pointers */ /* Set our pml pointers */
this_core->current_pml = &init_page_region[0]; this_core->current_pml = &init_page_region[0];
@ -234,6 +236,8 @@ void ap_main(void) {
/* Inform BSP it can continue. */ /* Inform BSP it can continue. */
_ap_startup_flag = 1; _ap_startup_flag = 1;
lapic_timer_initialize();
/* Enter scheduler */ /* Enter scheduler */
switch_next(); switch_next();
} }
@ -366,7 +370,7 @@ void smp_initialize(void) {
/* Did we still not find our table? */ /* Did we still not find our table? */
if (!good) { if (!good) {
dprintf("smp: No RSD PTR found\n"); dprintf("smp: No RSD PTR found\n");
return; goto _pit_fallback;
} }
/* Map the ACPI RSDP */ /* Map the ACPI RSDP */
@ -382,11 +386,11 @@ void smp_initialize(void) {
/* Did the checksum fail? */ /* Did the checksum fail? */
if (check != 0 && !args_present("noacpichecksum")) { if (check != 0 && !args_present("noacpichecksum")) {
dprintf("smp: Bad checksum on RSDP (add 'noacpichecksum' to ignore this)\n"); dprintf("smp: Bad checksum on RSDP (add 'noacpichecksum' to ignore this)\n");
return; /* bad checksum */ goto _pit_fallback; /* bad checksum */
} }
/* Was SMP disabled by a commandline flag? */ /* Was SMP disabled by a commandline flag? */
if (args_present("nosmp")) return; if (args_present("nosmp")) goto _pit_fallback;
/* Map the RSDT from the address given by the RSDP */ /* Map the RSDT from the address given by the RSDP */
struct rsdt * rsdt = mmu_map_from_physical(rsdp->rsdt_address); struct rsdt * rsdt = mmu_map_from_physical(rsdp->rsdt_address);
@ -419,12 +423,11 @@ void smp_initialize(void) {
} }
_toomany: _toomany:
processor_count = cores; if (!lapic_base) goto _pit_fallback;
if (!lapic_base) return;
/* Allocate a virtual address with which we can poke the lapic */ /* Allocate a virtual address with which we can poke the lapic */
lapic_final = (uintptr_t)mmu_map_mmio_region(lapic_base, 0x1000); lapic_final = (uintptr_t)mmu_map_mmio_region(lapic_base, 0x1000);
lapic_timer_initialize();
if (cores <= 1) return; if (cores <= 1) return;
@ -458,6 +461,8 @@ _toomany:
/* Wait for AP to signal it is ready before starting next AP */ /* Wait for AP to signal it is ready before starting next AP */
do { asm volatile ("pause" : : : "memory"); } while (!_ap_startup_flag); do { asm volatile ("pause" : : : "memory"); } while (!_ap_startup_flag);
processor_count++;
} }
/* Copy data back */ /* Copy data back */
@ -465,6 +470,12 @@ _toomany:
mmu_frame_clear(tmp_space); mmu_frame_clear(tmp_space);
dprintf("smp: enabled with %d cores\n", cores); dprintf("smp: enabled with %d cores\n", cores);
return;
_pit_fallback:
dprintf("pit: falling back to pit as preempt source\n");
extern void pit_initialize(void);
pit_initialize();
} }
/** /**