mirror of
https://github.com/Atmosphere-NX/Atmosphere
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284 lines
11 KiB
ArmAsm
284 lines
11 KiB
ArmAsm
/*
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* Copyright (c) Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <mesosphere/kern_select_assembly_macros.h>
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/* ams::kern::KScheduler::ScheduleImpl() */
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.section .text._ZN3ams4kern10KScheduler12ScheduleImplEv, "ax", %progbits
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.global _ZN3ams4kern10KScheduler12ScheduleImplEv
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.type _ZN3ams4kern10KScheduler12ScheduleImplEv, %function
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/* Ensure ScheduleImpl is aligned to 0x40 bytes. */
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.balign 0x40
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_ZN3ams4kern10KScheduler12ScheduleImplEv:
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/* Right now, x0 contains (this). We want x1 to point to the scheduling state, */
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/* KScheduler layout has state at +0x0, this is guaranteed statically by assembly offsets. */
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mov x1, x0
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/* First, clear the need's scheduling bool (and dmb ish after, as it's an atomic). */
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/* TODO: Should this be a stlrb? Nintendo does not do one. */
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strb wzr, [x1]
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dmb ish
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/* Check whether there are runnable interrupt tasks. */
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ldrb w8, [x1, #(KSCHEDULER_INTERRUPT_TASK_RUNNABLE)]
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cbnz w8, 0f
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/* If it isn't, we want to check if the highest priority thread is the same as the current thread. */
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ldr x7, [x1, #(KSCHEDULER_HIGHEST_PRIORITY_THREAD)]
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cmp x7, x18
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b.ne 1f
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/* If they're the same, then we can just issue a memory barrier and return. */
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dmb ish
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ret
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0: /* The interrupt task thread is runnable. */
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/* We want to switch to the interrupt task/idle thread. */
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mov x7, #0
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1: /* The highest priority thread is not the same as the current thread. */
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/* Get a reference to the current thread's stack parameters. */
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add x2, sp, #0x1000
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and x2, x2, #~(0x1000-1)
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sub x2, x2, #(THREAD_STACK_PARAMETERS_SIZE)
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/* Get a reference to the current thread's context. */
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add x3, x2, #(THREAD_STACK_PARAMETERS_THREAD_CONTEXT)
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/* Save the callee-save registers + SP. */
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stp x19, x20, [x3, #(THREAD_CONTEXT_X19_X20)]
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stp x21, x22, [x3, #(THREAD_CONTEXT_X21_X22)]
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stp x23, x24, [x3, #(THREAD_CONTEXT_X23_X24)]
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stp x25, x26, [x3, #(THREAD_CONTEXT_X25_X26)]
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stp x27, x28, [x3, #(THREAD_CONTEXT_X27_X28)]
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stp x29, x30, [x3, #(THREAD_CONTEXT_X29_X30)]
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mov x4, sp
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str x4, [x3, #(THREAD_CONTEXT_SP)]
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/* Check if the fpu is enabled; if it is, we need to save it. */
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mrs x5, cpacr_el1
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and x4, x5, #0x300000
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cbz x4, 8f
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/* We need to save the fpu state; save fpsr/fpcr. */
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mrs x4, fpcr
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mrs x6, fpsr
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stp w4, w6, [x3, #(THREAD_CONTEXT_FPCR_FPSR)]
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/* Set fpu-restore-needed in our exception flags. */
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ldrb w4, [x2, #(THREAD_STACK_PARAMETERS_EXCEPTION_FLAGS)]
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orr w4, w4, #(THREAD_EXCEPTION_FLAG_IS_FPU_CONTEXT_RESTORE_NEEDED)
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strb w4, [x2, #(THREAD_STACK_PARAMETERS_EXCEPTION_FLAGS)]
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/* We need to save fpu state based on whether we're a 64-bit or 32-bit thread. */
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tbz w4, #(THREAD_EXCEPTION_FLAG_BIT_INDEX_IS_FPU_64_BIT), 4f
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/* We have a 64-bit fpu. */
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/* If we're in a usermode exception, we need to save the caller-save fpu registers. */
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tbz w4, #(THREAD_EXCEPTION_FLAG_BIT_INDEX_IS_IN_USERMODE_EXCEPTION_HANDLER), 2f
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/* If we're in an SVC (and not a usermode exception), we only need to save the callee-save fpu registers. */
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tbz w4, #(THREAD_EXCEPTION_FLAG_BIT_INDEX_IS_CALLING_SVC), 3f
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2: /* Save the 64-bit caller-save fpu registers. */
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ldr x6, [x2, #(THREAD_STACK_PARAMETERS_CALLER_SAVE_FPU_REGISTERS)]
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stp q0, q1, [x6, #(THREAD_FPU64_CONTEXT_Q0_Q1)]
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stp q2, q3, [x6, #(THREAD_FPU64_CONTEXT_Q2_Q3)]
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stp q4, q5, [x6, #(THREAD_FPU64_CONTEXT_Q4_Q5)]
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stp q6, q7, [x6, #(THREAD_FPU64_CONTEXT_Q6_Q7)]
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stp q16, q17, [x6, #(THREAD_FPU64_CONTEXT_Q16_Q17)]
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stp q18, q19, [x6, #(THREAD_FPU64_CONTEXT_Q18_Q19)]
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stp q20, q21, [x6, #(THREAD_FPU64_CONTEXT_Q20_Q21)]
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stp q22, q23, [x6, #(THREAD_FPU64_CONTEXT_Q22_Q23)]
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stp q24, q25, [x6, #(THREAD_FPU64_CONTEXT_Q24_Q25)]
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stp q26, q27, [x6, #(THREAD_FPU64_CONTEXT_Q26_Q27)]
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stp q28, q29, [x6, #(THREAD_FPU64_CONTEXT_Q28_Q29)]
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stp q30, q31, [x6, #(THREAD_FPU64_CONTEXT_Q30_Q31)]
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3: /* Save the 64-bit callee-save fpu registers. */
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stp q8, q9, [x3, #(THREAD_CONTEXT_FPU64_Q8_Q9)]
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stp q10, q11, [x3, #(THREAD_CONTEXT_FPU64_Q10_Q11)]
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stp q12, q13, [x3, #(THREAD_CONTEXT_FPU64_Q12_Q13)]
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stp q14, q15, [x3, #(THREAD_CONTEXT_FPU64_Q14_Q15)]
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b 7f
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4: /* We have a 32-bit fpu. */
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/* If we're in a usermode exception, we need to save the caller-save fpu registers. */
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tbz w4, #(THREAD_EXCEPTION_FLAG_BIT_INDEX_IS_IN_USERMODE_EXCEPTION_HANDLER), 5f
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/* If we're in an SVC (and not a usermode exception), we only need to save the callee-save fpu registers. */
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tbz w4, #(THREAD_EXCEPTION_FLAG_BIT_INDEX_IS_CALLING_SVC), 6f
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5: /* Save the 32-bit caller-save fpu registers. */
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ldr x6, [x2, #(THREAD_STACK_PARAMETERS_CALLER_SAVE_FPU_REGISTERS)]
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stp q0, q1, [x6, #(THREAD_FPU32_CONTEXT_Q0_Q1)]
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stp q2, q3, [x6, #(THREAD_FPU32_CONTEXT_Q2_Q3)]
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stp q8, q9, [x6, #(THREAD_FPU32_CONTEXT_Q8_Q9)]
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stp q10, q11, [x6, #(THREAD_FPU32_CONTEXT_Q10_Q11)]
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stp q12, q13, [x6, #(THREAD_FPU32_CONTEXT_Q12_Q13)]
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stp q14, q15, [x6, #(THREAD_FPU32_CONTEXT_Q14_Q15)]
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6: /* Save the 32-bit callee-save fpu registers. */
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stp q4, q5, [x3, #(THREAD_CONTEXT_FPU32_Q4_Q5)]
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stp q6, q7, [x3, #(THREAD_CONTEXT_FPU32_Q6_Q7)]
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7: /* With the fpu state saved, disable the fpu. */
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and x5, x5, #(~0x300000)
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msr cpacr_el1, x5
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8: /* We're done saving this thread's context. */
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/* Check if the thread is terminated by checking the DPC flags for DpcFlag_Terminated. */
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ldrb w4, [x2, #(THREAD_STACK_PARAMETERS_DPC_FLAGS)]
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tbnz w4, #1, 9f
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/* The thread isn't terminated, so we want to unlock it. */
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/* Write atomically to the context's locked member. */
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add x3, x3, #(THREAD_CONTEXT_LOCKED)
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stlrb wzr, [x3]
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9: /* The current thread's context has been entirely taken care of. */
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/* Now we want to loop until we successfully switch the thread context. */
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/* Start by saving all the values we care about in callee-save registers. */
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mov x19, x0 /* this */
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mov x20, x1 /* this->state */
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mov x21, x7 /* highest priority thread */
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/* Set our stack to the idle thread stack. */
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ldr x3, [x20, #(KSCHEDULER_IDLE_THREAD_STACK)]
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mov sp, x3
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b 11f
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10: /* We failed to successfully do the context switch, and need to retry. */
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/* Clear the exclusive monitor. */
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clrex
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/* Clear the need's scheduling bool (and dmb ish after, as it's an atomic). */
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strb wzr, [x20]
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dmb ish
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/* Refresh the highest priority thread. */
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ldr x21, [x20, #(KSCHEDULER_HIGHEST_PRIORITY_THREAD)]
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11: /* We're starting to try to do the context switch. */
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/* Check if the highest priority thread if null. */
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/* If it is, we want to branch to a special idle thread loop. */
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cbz x21, 16f
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/* Get the highest priority thread's context, and save it. */
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/* ams::kern::KThread::GetContextForSchedulerLoop() */
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ldr x22, [x21, #(THREAD_KERNEL_STACK_TOP)]
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sub x22, x22, #(THREAD_STACK_PARAMETERS_SIZE - THREAD_STACK_PARAMETERS_THREAD_CONTEXT)
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/* Prepare to try to acquire the context lock. */
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add x1, x22, #(THREAD_CONTEXT_LOCKED)
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mov w2, #1
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12: /* We want to try to lock the highest priority thread's context. */
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/* Check if the lock is already held. */
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ldaxrb w3, [x1]
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cbnz w3, 13f
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/* If it's not, try to take it. */
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stxrb w3, w2, [x1]
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cbnz w3, 12b
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/* We hold the lock, so we can now switch the thread. */
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b 14f
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13: /* The highest priority thread's context is already locked. */
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/* Check if we need scheduling. If we don't, we can retry directly. */
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ldarb w3, [x20] // ldarb w3, [x20, #(KSCHEDULER_NEEDS_SCHEDULING)]
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cbz w3, 12b
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/* If we do, another core is interfering, and we must start from the top. */
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b 10b
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14: /* It's time to switch the thread. */
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/* Switch to the highest priority thread. */
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mov x0, x19
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mov x1, x21
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/* Call ams::kern::KScheduler::SwitchThread(ams::kern::KThread *) */
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bl _ZN3ams4kern10KScheduler12SwitchThreadEPNS0_7KThreadE
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/* Check if we need scheduling. If we do, then we can't complete the switch and should retry. */
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ldarb w1, [x20] // ldarb w1, [x20, #(KSCHEDULER_NEEDS_SCHEDULING)]
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cbnz w1, 15f
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/* Restore the thread context. */
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mov x0, x22
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ldp x19, x20, [x0, #(THREAD_CONTEXT_X19_X20)]
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ldp x21, x22, [x0, #(THREAD_CONTEXT_X21_X22)]
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ldp x23, x24, [x0, #(THREAD_CONTEXT_X23_X24)]
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ldp x25, x26, [x0, #(THREAD_CONTEXT_X25_X26)]
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ldp x27, x28, [x0, #(THREAD_CONTEXT_X27_X28)]
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ldp x29, x30, [x0, #(THREAD_CONTEXT_X29_X30)]
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ldr x1, [x0, #(THREAD_CONTEXT_SP)]
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mov sp, x1
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/* Return. */
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ret
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15: /* Our switch failed. */
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/* We should unlock the thread context, and then retry. */
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add x1, x22, #(THREAD_CONTEXT_LOCKED)
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stlrb wzr, [x1]
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b 10b
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16: /* The next thread is nullptr! */
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/* Switch to nullptr. This will actually switch to the idle thread. */
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mov x0, x19
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mov x1, #0
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/* Call ams::kern::KScheduler::SwitchThread(ams::kern::KThread *) */
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bl _ZN3ams4kern10KScheduler12SwitchThreadEPNS0_7KThreadE
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17: /* We've switched to the idle thread, so we want to process interrupt tasks until we schedule a non-idle thread. */
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/* Check whether there are runnable interrupt tasks. */
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ldrb w3, [x20, #(KSCHEDULER_INTERRUPT_TASK_RUNNABLE)]
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cbnz w3, 18f
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/* Check if we need scheduling. */
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ldarb w3, [x20] // ldarb w3, [x20, #(KSCHEDULER_NEEDS_SCHEDULING)]
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cbnz w3, 10b
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/* Clear the previous thread. */
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str xzr, [x20, #(KSCHEDULER_PREVIOUS_THREAD)]
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/* Wait for an interrupt and check again. */
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wfi
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msr daifclr, #2
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msr daifset, #2
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b 17b
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18: /* We have interrupt tasks to execute! */
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/* Execute any pending interrupt tasks. */
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ldr x0, [x20, #(KSCHEDULER_INTERRUPT_TASK_MANAGER)]
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bl _ZN3ams4kern21KInterruptTaskManager7DoTasksEv
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/* Clear the interrupt task thread as runnable. */
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strb wzr, [x20, #(KSCHEDULER_INTERRUPT_TASK_RUNNABLE)]
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/* Retry the scheduling loop. */
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b 10b
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