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1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 | /* * Copyright (c) 2016 Jean-Paul Etienne <fractalclone@gmail.com> * Copyright (c) 2018 Foundries.io Ltd * Copyright (c) 2020 BayLibre, SAS * * SPDX-License-Identifier: Apache-2.0 */ #include <toolchain.h> #include <linker/sections.h> #include <offsets_short.h> #include <arch/cpu.h> #include <sys/util.h> #include <kernel.h> #include <syscall.h> #include <arch/riscv/csr.h> /* Convenience macros for loading/storing register states. */ #define DO_FP_CALLER_SAVED(op, reg) \ op ft0, __z_arch_esf_t_ft0_OFFSET(reg) ;\ op ft1, __z_arch_esf_t_ft1_OFFSET(reg) ;\ op ft2, __z_arch_esf_t_ft2_OFFSET(reg) ;\ op ft3, __z_arch_esf_t_ft3_OFFSET(reg) ;\ op ft4, __z_arch_esf_t_ft4_OFFSET(reg) ;\ op ft5, __z_arch_esf_t_ft5_OFFSET(reg) ;\ op ft6, __z_arch_esf_t_ft6_OFFSET(reg) ;\ op ft7, __z_arch_esf_t_ft7_OFFSET(reg) ;\ op ft8, __z_arch_esf_t_ft8_OFFSET(reg) ;\ op ft9, __z_arch_esf_t_ft9_OFFSET(reg) ;\ op ft10, __z_arch_esf_t_ft10_OFFSET(reg) ;\ op ft11, __z_arch_esf_t_ft11_OFFSET(reg) ;\ op fa0, __z_arch_esf_t_fa0_OFFSET(reg) ;\ op fa1, __z_arch_esf_t_fa1_OFFSET(reg) ;\ op fa2, __z_arch_esf_t_fa2_OFFSET(reg) ;\ op fa3, __z_arch_esf_t_fa3_OFFSET(reg) ;\ op fa4, __z_arch_esf_t_fa4_OFFSET(reg) ;\ op fa5, __z_arch_esf_t_fa5_OFFSET(reg) ;\ op fa6, __z_arch_esf_t_fa6_OFFSET(reg) ;\ op fa7, __z_arch_esf_t_fa7_OFFSET(reg) ; #define STORE_FP_CALLER_SAVED(reg) \ DO_FP_CALLER_SAVED(RV_OP_STOREFPREG, reg) #define LOAD_FP_CALLER_SAVED(reg) \ DO_FP_CALLER_SAVED(RV_OP_LOADFPREG, reg) #define DO_FP_CALLEE_SAVED(op, reg) \ op fs0, _thread_offset_to_fs0(reg) ;\ op fs1, _thread_offset_to_fs1(reg) ;\ op fs2, _thread_offset_to_fs2(reg) ;\ op fs3, _thread_offset_to_fs3(reg) ;\ op fs4, _thread_offset_to_fs4(reg) ;\ op fs5, _thread_offset_to_fs5(reg) ;\ op fs6, _thread_offset_to_fs6(reg) ;\ op fs7, _thread_offset_to_fs7(reg) ;\ op fs8, _thread_offset_to_fs8(reg) ;\ op fs9, _thread_offset_to_fs9(reg) ;\ op fs10, _thread_offset_to_fs10(reg) ;\ op fs11, _thread_offset_to_fs11(reg) ; #define STORE_FP_CALLEE_SAVED(reg) \ frcsr t2 ;\ RV_OP_STOREREG t2, _thread_offset_to_fcsr(reg) ;\ DO_FP_CALLEE_SAVED(RV_OP_STOREFPREG, reg) #define LOAD_FP_CALLEE_SAVED(reg) \ RV_OP_LOADREG t2, _thread_offset_to_fcsr(reg) ;\ fscsr x0, t2 ;\ DO_FP_CALLEE_SAVED(RV_OP_LOADFPREG, reg) #define COPY_ESF_FP_STATE(to_reg, from_reg, temp) \ RV_OP_LOADREG temp, __z_arch_esf_t_fp_state_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_fp_state_OFFSET(to_reg) ; #define COPY_ESF_FP(to_reg, from_reg, temp) \ RV_OP_LOADREG temp, __z_arch_esf_t_ft0_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft0_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ft1_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft1_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ft2_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft2_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ft3_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft3_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ft4_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft4_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ft5_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft5_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ft6_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft6_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ft7_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft7_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ft8_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft8_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ft9_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft9_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ft10_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft10_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ft11_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ft11_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_fa0_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_fa0_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_fa1_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_fa1_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_fa2_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_fa2_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_fa3_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_fa3_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_fa4_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_fa4_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_fa5_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_fa5_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_fa6_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_fa6_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_fa7_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_fa7_OFFSET(to_reg) ; #define COPY_ESF(to_reg, from_reg, temp) \ RV_OP_LOADREG temp, __z_arch_esf_t_mepc_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_mepc_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_mstatus_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_mstatus_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_ra_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_ra_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_gp_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_gp_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_tp_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_tp_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_t0_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_t0_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_t1_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_t1_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_t2_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_t2_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_t3_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_t3_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_t4_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_t4_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_t5_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_t5_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_t6_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_t6_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_a0_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_a0_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_a1_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_a1_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_a2_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_a2_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_a3_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_a3_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_a4_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_a4_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_a5_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_a5_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_a6_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_a6_OFFSET(to_reg) ;\ RV_OP_LOADREG temp, __z_arch_esf_t_a7_OFFSET(from_reg) ;\ RV_OP_STOREREG temp, __z_arch_esf_t_a7_OFFSET(to_reg) ; #define DO_CALLEE_SAVED(op, reg) \ op s0, _thread_offset_to_s0(reg) ;\ op s1, _thread_offset_to_s1(reg) ;\ op s2, _thread_offset_to_s2(reg) ;\ op s3, _thread_offset_to_s3(reg) ;\ op s4, _thread_offset_to_s4(reg) ;\ op s5, _thread_offset_to_s5(reg) ;\ op s6, _thread_offset_to_s6(reg) ;\ op s7, _thread_offset_to_s7(reg) ;\ op s8, _thread_offset_to_s8(reg) ;\ op s9, _thread_offset_to_s9(reg) ;\ op s10, _thread_offset_to_s10(reg) ;\ op s11, _thread_offset_to_s11(reg) ; #define STORE_CALLEE_SAVED(reg) \ DO_CALLEE_SAVED(RV_OP_STOREREG, reg) #define LOAD_CALLER_SAVED(reg) \ DO_CALLEE_SAVED(RV_OP_LOADREG, reg) #define DO_CALLER_SAVED(op) \ op ra, __z_arch_esf_t_ra_OFFSET(sp) ;\ op gp, __z_arch_esf_t_gp_OFFSET(sp) ;\ op tp, __z_arch_esf_t_tp_OFFSET(sp) ;\ op t0, __z_arch_esf_t_t0_OFFSET(sp) ;\ op t1, __z_arch_esf_t_t1_OFFSET(sp) ;\ op t2, __z_arch_esf_t_t2_OFFSET(sp) ;\ op t3, __z_arch_esf_t_t3_OFFSET(sp) ;\ op t4, __z_arch_esf_t_t4_OFFSET(sp) ;\ op t5, __z_arch_esf_t_t5_OFFSET(sp) ;\ op t6, __z_arch_esf_t_t6_OFFSET(sp) ;\ op a0, __z_arch_esf_t_a0_OFFSET(sp) ;\ op a1, __z_arch_esf_t_a1_OFFSET(sp) ;\ op a2, __z_arch_esf_t_a2_OFFSET(sp) ;\ op a3, __z_arch_esf_t_a3_OFFSET(sp) ;\ op a4, __z_arch_esf_t_a4_OFFSET(sp) ;\ op a5, __z_arch_esf_t_a5_OFFSET(sp) ;\ op a6, __z_arch_esf_t_a6_OFFSET(sp) ;\ op a7, __z_arch_esf_t_a7_OFFSET(sp) ; #define STORE_CALLER_SAVED() \ addi sp, sp, -__z_arch_esf_t_SIZEOF ;\ DO_CALLER_SAVED(RV_OP_STOREREG) ; #define LOAD_CALLEE_SAVED() \ DO_CALLER_SAVED(RV_OP_LOADREG) ;\ addi sp, sp, __z_arch_esf_t_SIZEOF ; /* * @brief Check previous mode. * * @param ret Register to return value. * @param temp Register used foor temporary value. * * @return 0 if previous mode is user. */ #define WAS_NOT_USER(ret, temp) \ RV_OP_LOADREG ret, __z_arch_esf_t_mstatus_OFFSET(sp) ;\ li temp, MSTATUS_MPP ;\ and ret, ret, temp ; /* imports */ GDATA(_sw_isr_table) GTEXT(__soc_is_irq) GTEXT(__soc_handle_irq) GTEXT(_Fault) #ifdef CONFIG_RISCV_SOC_CONTEXT_SAVE GTEXT(__soc_save_context) GTEXT(__soc_restore_context) #endif /* CONFIG_RISCV_SOC_CONTEXT_SAVE */ GTEXT(_k_neg_eagain) GTEXT(_is_next_thread_current) GTEXT(z_get_next_ready_thread) #ifdef CONFIG_INSTRUMENT_THREAD_SWITCHING GTEXT(z_thread_mark_switched_in) GTEXT(z_thread_mark_switched_out) #ifdef CONFIG_TRACING GTEXT(sys_trace_isr_enter) #endif #endif #ifdef CONFIG_IRQ_OFFLOAD GTEXT(_offload_routine) #endif #ifdef CONFIG_USERSPACE GTEXT(z_riscv_do_syscall) GTEXT(z_riscv_configure_user_allowed_stack) GTEXT(z_interrupt_stacks) GTEXT(z_riscv_do_syscall_start) GTEXT(z_riscv_do_syscall_end) #endif #ifdef CONFIG_PMP_STACK_GUARD GTEXT(z_riscv_configure_stack_guard) #endif /* exports */ GTEXT(__irq_wrapper) /* use ABI name of registers for the sake of simplicity */ /* * Generic architecture-level IRQ handling, along with callouts to * SoC-specific routines. * * Architecture level IRQ handling includes basic context save/restore * of standard registers and calling ISRs registered at Zephyr's driver * level. * * Since RISC-V does not completely prescribe IRQ handling behavior, * implementations vary (some implementations also deviate from * what standard behavior is defined). Hence, the arch level code expects * the following functions to be provided at the SOC level: * * - __soc_is_irq: decide if we're handling an interrupt or an exception * - __soc_handle_irq: handle SoC-specific details for a pending IRQ * (e.g. clear a pending bit in a SoC-specific register) * * If CONFIG_RISCV_SOC_CONTEXT_SAVE=y, calls to SoC-level context save/restore * routines are also made here. For details, see the Kconfig help text. */ /* * Handler called upon each exception/interrupt/fault * In this architecture, system call (ECALL) is used to perform context * switching or IRQ offloading (when enabled). */ SECTION_FUNC(exception.entry, __irq_wrapper) #ifdef CONFIG_PMP_STACK_GUARD /* Jump at the beginning of IRQ stack to avoid stack overflow */ csrrw sp, mscratch, sp #endif /* CONFIG_PMP_STACK_GUARD */ /* * Save caller-saved registers on current thread stack. * NOTE: need to be updated to account for floating-point registers * floating-point registers should be accounted for when corresponding * config variable is set */ STORE_CALLER_SAVED() #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) /* Assess whether floating-point registers need to be saved. */ la t0, _kernel RV_OP_LOADREG t0, _kernel_offset_to_current(t0) RV_OP_LOADREG t0, _thread_offset_to_user_options(t0) andi t0, t0, K_FP_REGS RV_OP_STOREREG t0, __z_arch_esf_t_fp_state_OFFSET(sp) beqz t0, skip_store_fp_caller_saved STORE_FP_CALLER_SAVED(sp) skip_store_fp_caller_saved: #endif /* CONFIG_FPU && CONFIG_FPU_SHARING */ /* Save MEPC register */ csrr t0, mepc RV_OP_STOREREG t0, __z_arch_esf_t_mepc_OFFSET(sp) /* Save SOC-specific MSTATUS register */ csrr t0, mstatus RV_OP_STOREREG t0, __z_arch_esf_t_mstatus_OFFSET(sp) #ifdef CONFIG_RISCV_SOC_CONTEXT_SAVE /* Handle context saving at SOC level. */ addi a0, sp, __z_arch_esf_t_soc_context_OFFSET jal ra, __soc_save_context #endif /* CONFIG_RISCV_SOC_CONTEXT_SAVE */ #ifdef CONFIG_USERSPACE /* Check if we are in user stack by checking previous privilege mode */ WAS_NOT_USER(t0, t1) bnez t0, is_priv_sp la t0, _kernel RV_OP_LOADREG t1, _kernel_offset_to_current(t0) /* Save user stack pointer */ #ifdef CONFIG_PMP_STACK_GUARD csrr t2, mscratch #else mv t2, sp #endif /* CONFIG_PMP_STACK_GUARD */ RV_OP_STOREREG t2, _thread_offset_to_user_sp(t1) /* * Save callee-saved registers of user thread here * because rescheduling will occur in nested ecall, * that mean these registers will be out of context * at reschedule time. */ STORE_CALLEE_SAVED(t1) #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) /* Assess whether floating-point registers need to be saved. */ RV_OP_LOADREG t2, _thread_offset_to_user_options(t1) andi t2, t2, K_FP_REGS beqz t2, skip_store_fp_callee_saved_user STORE_FP_CALLEE_SAVED(t1) skip_store_fp_callee_saved_user: #endif /* CONFIG_FPU && CONFIG_FPU_SHARING */ is_priv_sp: /* Clear user mode variable */ la t0, is_user_mode sb zero, 0x00(t0) #endif /* CONFIG_USERSPACE */ /* * Check if exception is the result of an interrupt or not. * (SOC dependent). Following the RISC-V architecture spec, the MSB * of the mcause register is used to indicate whether an exception * is the result of an interrupt or an exception/fault. But for some * SOCs (like pulpino or riscv-qemu), the MSB is never set to indicate * interrupt. Hence, check for interrupt/exception via the __soc_is_irq * function (that needs to be implemented by each SOC). The result is * returned via register a0 (1: interrupt, 0 exception) */ jal ra, __soc_is_irq /* If a0 != 0, jump to is_interrupt */ addi t1, x0, 0 bnez a0, is_interrupt #ifdef CONFIG_USERSPACE /* Reset IRQ flag */ la t1, irq_flag sb zero, 0x00(t1) #endif /* CONFIG_USERSPACE */ /* * If the exception is the result of an ECALL, check whether to * perform a context-switch or an IRQ offload. Otherwise call _Fault * to report the exception. */ csrr t0, mcause li t2, SOC_MCAUSE_EXP_MASK and t0, t0, t2 li t1, SOC_MCAUSE_ECALL_EXP /* * If mcause == SOC_MCAUSE_ECALL_EXP, handle system call from * kernel thread. */ beq t0, t1, is_kernel_syscall #ifdef CONFIG_USERSPACE li t1, SOC_MCAUSE_USER_ECALL_EXP /* * If mcause == SOC_MCAUSE_USER_ECALL_EXP, handle system call from * user thread, otherwise handle fault. */ beq t0, t1, is_user_syscall #endif /* CONFIG_USERSPACE */ /* * Call _Fault to handle exception. * Stack pointer is pointing to a z_arch_esf_t structure, pass it * to _Fault (via register a0). * If _Fault shall return, set return address to * no_reschedule to restore stack. */ addi a0, sp, 0 #ifdef CONFIG_USERSPACE la ra, no_reschedule_from_fault /* Switch to privilege stack */ la t0, _kernel RV_OP_LOADREG t1, _kernel_offset_to_current(t0) RV_OP_LOADREG t0, _thread_offset_to_priv_stack_start(t1) RV_OP_STOREREG sp, _thread_offset_to_user_sp(t1) /* Update user SP */ addi sp, t0, CONFIG_PRIVILEGED_STACK_SIZE #else la ra, no_reschedule #endif /* CONFIG_USERSPACE */ tail _Fault is_kernel_syscall: #ifdef CONFIG_USERSPACE /* Check if it is a return from user syscall */ csrr t0, mepc la t1, z_riscv_do_syscall_start bltu t0, t1, not_user_syscall la t1, z_riscv_do_syscall_end bleu t0, t1, return_from_syscall not_user_syscall: #endif /* CONFIG_USERSPACE */ /* * A syscall is the result of an ecall instruction, in which case the * MEPC will contain the address of the ecall instruction. * Increment saved MEPC by 4 to prevent triggering the same ecall * again upon exiting the ISR. * * It's safe to always increment by 4, even with compressed * instructions, because the ecall instruction is always 4 bytes. */ RV_OP_LOADREG t0, __z_arch_esf_t_mepc_OFFSET(sp) addi t0, t0, 4 RV_OP_STOREREG t0, __z_arch_esf_t_mepc_OFFSET(sp) #ifdef CONFIG_IRQ_OFFLOAD /* * Determine if the system call is the result of an IRQ offloading. * Done by checking if _offload_routine is not pointing to NULL. * If NULL, jump to reschedule to perform a context-switch, otherwise, * jump to is_interrupt to handle the IRQ offload. */ la t0, _offload_routine RV_OP_LOADREG t1, 0x00(t0) bnez t1, is_interrupt #endif /* CONFIG_IRQ_OFFLOAD */ #ifdef CONFIG_PMP_STACK_GUARD li t0, MSTATUS_MPRV csrs mstatus, t0 /* Move to current thread SP and move ESF */ csrrw sp, mscratch, sp csrr t0, mscratch addi sp, sp, -__z_arch_esf_t_SIZEOF #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) RV_OP_LOADREG t1, __z_arch_esf_t_fp_state_OFFSET(t0) beqz t1, skip_fp_move_kernel_syscall COPY_ESF_FP(sp, t0, t1) skip_fp_move_kernel_syscall: COPY_ESF_FP_STATE(sp, t0, t1) #endif /* CONFIG_FPU && CONFIG_FPU_SHARING */ COPY_ESF(sp, t0, t1) addi t0, t0, __z_arch_esf_t_SIZEOF csrw mscratch, t0 #endif /* CONFIG_PMP_STACK_GUARD */ #ifdef CONFIG_USERSPACE /* * Check for forced syscall, * otherwise go to reschedule to handle context-switch */ li t0, FORCE_SYSCALL_ID bne a7, t0, reschedule RV_OP_LOADREG a0, __z_arch_esf_t_a0_OFFSET(sp) /* Check for user_mode_enter function */ la t0, arch_user_mode_enter bne t0, a0, reschedule RV_OP_LOADREG a0, __z_arch_esf_t_a1_OFFSET(sp) RV_OP_LOADREG a1, __z_arch_esf_t_a2_OFFSET(sp) RV_OP_LOADREG a2, __z_arch_esf_t_a3_OFFSET(sp) RV_OP_LOADREG a3, __z_arch_esf_t_a4_OFFSET(sp) /* * MRET will be done in the following function because * restore caller-saved registers is not need anymore * due to user mode jump (new stack/context). */ j z_riscv_user_mode_enter_syscall #endif /* CONFIG_USERSPACE */ /* * Go to reschedule to handle context-switch */ j reschedule #ifdef CONFIG_USERSPACE is_user_syscall: #ifdef CONFIG_PMP_STACK_GUARD la t0, _kernel RV_OP_LOADREG a0, _kernel_offset_to_current(t0) jal ra, z_riscv_configure_stack_guard #endif /* CONFIG_PMP_STACK_GUARD */ /* * A syscall is the result of an ecall instruction, in which case the * MEPC will contain the address of the ecall instruction. * Increment saved MEPC by 4 to prevent triggering the same ecall * again upon exiting the ISR. * * It is safe to always increment by 4, even with compressed * instructions, because the ecall instruction is always 4 bytes. */ RV_OP_LOADREG t1, __z_arch_esf_t_mepc_OFFSET(sp) addi t1, t1, 4 RV_OP_STOREREG t1, __z_arch_esf_t_mepc_OFFSET(sp) #ifdef CONFIG_PMP_STACK_GUARD /* * Copy ESF to user stack in case of rescheduling * directly from kernel ECALL (nested ECALL) */ csrrw sp, mscratch, sp csrr t0, mscratch addi sp, sp, -__z_arch_esf_t_SIZEOF #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) RV_OP_LOADREG t1, __z_arch_esf_t_fp_state_OFFSET(t0) beqz t1, skip_fp_copy_user_syscall COPY_ESF_FP(sp, t0, t1) skip_fp_copy_user_syscall: COPY_ESF_FP_STATE(sp, t0, t1) #endif /* CONFIG_FPU && CONFIG_FPU_SHARING */ COPY_ESF(sp, t0, t1) #endif /* CONFIG_PMP_STACK_GUARD */ /* Restore argument registers from user stack */ RV_OP_LOADREG a0, __z_arch_esf_t_a0_OFFSET(sp) RV_OP_LOADREG a1, __z_arch_esf_t_a1_OFFSET(sp) RV_OP_LOADREG a2, __z_arch_esf_t_a2_OFFSET(sp) RV_OP_LOADREG a3, __z_arch_esf_t_a3_OFFSET(sp) RV_OP_LOADREG a4, __z_arch_esf_t_a4_OFFSET(sp) RV_OP_LOADREG a5, __z_arch_esf_t_a5_OFFSET(sp) mv a6, sp RV_OP_LOADREG a7, __z_arch_esf_t_a7_OFFSET(sp) /* Switch to privilege stack */ la t0, _kernel RV_OP_LOADREG t1, _kernel_offset_to_current(t0) RV_OP_LOADREG t0, _thread_offset_to_priv_stack_start(t1) RV_OP_STOREREG sp, _thread_offset_to_user_sp(t1) /* Update user SP */ addi sp, t0, CONFIG_PRIVILEGED_STACK_SIZE /* validate syscall limit */ li t0, K_SYSCALL_LIMIT bltu a7, t0, valid_syscall_id /* bad syscall id. Set arg1 to bad id and set call_id to SYSCALL_BAD */ mv a0, a7 li a7, K_SYSCALL_BAD valid_syscall_id: /* Prepare to jump into do_syscall function */ la t0, z_riscv_do_syscall csrw mepc, t0 /* Force kernel mode for syscall execution */ li t0, MSTATUS_MPP csrs mstatus, t0 SOC_ERET return_from_syscall: /* * Retrieve a0 (returned value) from privilege stack * (or IRQ stack if stack guard is enabled). */ RV_OP_LOADREG a0, __z_arch_esf_t_a0_OFFSET(sp) no_reschedule_from_fault: /* Restore User SP */ la t0, _kernel RV_OP_LOADREG t1, _kernel_offset_to_current(t0) RV_OP_LOADREG sp, _thread_offset_to_user_sp(t1) /* Update a0 (return value) */ RV_OP_STOREREG a0, __z_arch_esf_t_a0_OFFSET(sp) #ifdef CONFIG_PMP_STACK_GUARD /* Move to IRQ stack start */ csrw mscratch, sp /* Save user sp */ la t2, z_interrupt_stacks li t3, CONFIG_ISR_STACK_SIZE add sp, t2, t3 /* * Copy ESF to IRQ stack from user stack * to execute "no_reschedule" properly. */ csrr t0, mscratch addi sp, sp, -__z_arch_esf_t_SIZEOF #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) RV_OP_LOADREG t1, __z_arch_esf_t_fp_state_OFFSET(t0) beqz t1, skip_fp_copy_return_user_syscall COPY_ESF_FP(sp, t0, t1) skip_fp_copy_return_user_syscall: COPY_ESF_FP_STATE(sp, t0, t1) #endif /* CONFIG_FPU && CONFIG_FPU_SHARING */ COPY_ESF(sp, t0, t1) #endif /* CONFIG_PMP_STACK_GUARD */ j no_reschedule #endif /* CONFIG_USERSPACE */ is_interrupt: #ifdef CONFIG_USERSPACE la t0, irq_flag li t2, 0x1 sb t2, 0x00(t0) #endif /* CONFIG_USERSPACE */ #if (CONFIG_USERSPACE == 0) && (CONFIG_PMP_STACK_GUARD == 0) /* * Save current thread stack pointer and switch * stack pointer to interrupt stack. */ /* Save thread stack pointer to temp register t0 */ addi t0, sp, 0 /* Switch to interrupt stack */ la t2, _kernel RV_OP_LOADREG sp, _kernel_offset_to_irq_stack(t2) /* * Save thread stack pointer on interrupt stack * In RISC-V, stack pointer needs to be 16-byte aligned */ addi sp, sp, -16 RV_OP_STOREREG t0, 0x00(sp) #else la t2, _kernel #endif /* !CONFIG_USERSPACE && !CONFIG_PMP_STACK_GUARD */ on_irq_stack: /* Increment _kernel.cpus[0].nested variable */ lw t3, _kernel_offset_to_nested(t2) addi t3, t3, 1 sw t3, _kernel_offset_to_nested(t2) #ifdef CONFIG_IRQ_OFFLOAD /* * If we are here due to a system call, t1 register should != 0. * In this case, perform IRQ offloading, otherwise jump to call_irq */ beqz t1, call_irq /* * Call z_irq_do_offload to handle IRQ offloading. * Set return address to on_thread_stack in order to jump there * upon returning from z_irq_do_offload */ la ra, on_thread_stack tail z_irq_do_offload call_irq: #endif /* CONFIG_IRQ_OFFLOAD */ #ifdef CONFIG_TRACING_ISR call sys_trace_isr_enter #endif /* Get IRQ causing interrupt */ csrr a0, mcause li t0, SOC_MCAUSE_EXP_MASK and a0, a0, t0 /* * Clear pending IRQ generating the interrupt at SOC level * Pass IRQ number to __soc_handle_irq via register a0 */ jal ra, __soc_handle_irq /* * Call corresponding registered function in _sw_isr_table. * (table is 2-word wide, we should shift index accordingly) */ la t0, _sw_isr_table slli a0, a0, (RV_REGSHIFT + 1) add t0, t0, a0 /* Load argument in a0 register */ RV_OP_LOADREG a0, 0x00(t0) /* Load ISR function address in register t1 */ RV_OP_LOADREG t1, RV_REGSIZE(t0) /* Call ISR function */ jalr ra, t1 on_thread_stack: /* Get reference to _kernel */ la t1, _kernel /* Decrement _kernel.cpus[0].nested variable */ lw t2, _kernel_offset_to_nested(t1) addi t2, t2, -1 sw t2, _kernel_offset_to_nested(t1) #if !defined(CONFIG_USERSPACE) && !defined(CONFIG_PMP_STACK_GUARD) /* Restore thread stack pointer */ RV_OP_LOADREG t0, 0x00(sp) addi sp, t0, 0 #endif /* !CONFIG_USERSPACE && !CONFIG_PMP_STACK_GUARD */ #ifdef CONFIG_STACK_SENTINEL call z_check_stack_sentinel la t1, _kernel #endif #ifdef CONFIG_PREEMPT_ENABLED /* * Check if we need to perform a reschedule */ /* Get pointer to _kernel.current */ RV_OP_LOADREG t2, _kernel_offset_to_current(t1) /* * Check if next thread to schedule is current thread. * If yes do not perform a reschedule */ RV_OP_LOADREG t3, _kernel_offset_to_ready_q_cache(t1) beq t3, t2, no_reschedule #else j no_reschedule #endif /* CONFIG_PREEMPT_ENABLED */ #ifdef CONFIG_PMP_STACK_GUARD RV_OP_LOADREG a0, _kernel_offset_to_current(t1) jal ra, z_riscv_configure_stack_guard /* * Move to saved SP and move ESF to retrieve it * after reschedule. */ csrrw sp, mscratch, sp csrr t0, mscratch addi sp, sp, -__z_arch_esf_t_SIZEOF #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) RV_OP_LOADREG t1, __z_arch_esf_t_fp_state_OFFSET(t0) beqz t1, skip_fp_move_irq COPY_ESF_FP(sp, t0, t1) skip_fp_move_irq: COPY_ESF_FP_STATE(sp, t0, t1) #endif /* CONFIG_FPU && CONFIG_FPU_SHARING */ COPY_ESF(sp, t0, t1) addi t0, t0, __z_arch_esf_t_SIZEOF csrw mscratch, t0 #endif /* CONFIG_PMP_STACK_GUARD */ #ifdef CONFIG_USERSPACE /* Check if we are in user thread */ WAS_NOT_USER(t3, t4) bnez t3, reschedule /* * Switch to privilege stack because we want * this starting point after reschedule. */ RV_OP_LOADREG t3, _thread_offset_to_priv_stack_start(t2) RV_OP_STOREREG sp, _thread_offset_to_user_sp(t2) /* Save user SP */ mv t0, sp addi sp, t3, CONFIG_PRIVILEGED_STACK_SIZE /* * Copy Saved ESF to priv stack, that will allow us to know during * rescheduling if the thread was working on user mode. */ addi sp, sp, -__z_arch_esf_t_SIZEOF COPY_ESF(sp, t0, t1) #endif /* CONFIG_USERSPACE */ reschedule: #if CONFIG_INSTRUMENT_THREAD_SWITCHING call z_thread_mark_switched_out #endif /* Get reference to _kernel */ la t0, _kernel /* Get pointer to _kernel.current */ RV_OP_LOADREG t1, _kernel_offset_to_current(t0) #ifdef CONFIG_USERSPACE /* * Check the thread mode and skip callee saved storing * because it is already done for user */ WAS_NOT_USER(t6, t4) beqz t6, skip_callee_saved_reg #endif /* CONFIG_USERSPACE */ /* * Save callee-saved registers of current kernel thread * prior to handle context-switching */ STORE_CALLEE_SAVED(t1) #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) /* Assess whether floating-point registers need to be saved. */ RV_OP_LOADREG t2, _thread_offset_to_user_options(t1) andi t2, t2, K_FP_REGS beqz t2, skip_store_fp_callee_saved STORE_FP_CALLEE_SAVED(t1) skip_store_fp_callee_saved: #endif /* CONFIG_FPU && CONFIG_FPU_SHARING */ skip_callee_saved_reg: #ifdef CONFIG_PMP_STACK_GUARD /* * Reset mscratch value because is simpler * than remove user ESF, and prevent unknown corner cases */ la t2, z_interrupt_stacks li t3, CONFIG_ISR_STACK_SIZE add t2, t2, t3 csrw mscratch, t2 #endif /* CONFIG_PMP_STACK_GUARD */ /* * Save stack pointer of current thread and set the default return value * of z_swap to _k_neg_eagain for the thread. */ RV_OP_STOREREG sp, _thread_offset_to_sp(t1) la t2, _k_neg_eagain lw t3, 0x00(t2) sw t3, _thread_offset_to_swap_return_value(t1) /* Get next thread to schedule. */ RV_OP_LOADREG t1, _kernel_offset_to_ready_q_cache(t0) /* * Set _kernel.current to new thread loaded in t1 */ RV_OP_STOREREG t1, _kernel_offset_to_current(t0) /* Switch to new thread stack */ RV_OP_LOADREG sp, _thread_offset_to_sp(t1) /* Restore callee-saved registers of new thread */ LOAD_CALLER_SAVED(t1) #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) /* Determine if we need to restore floating-point registers. */ RV_OP_LOADREG t2, _thread_offset_to_user_options(t1) andi t2, t2, K_FP_REGS beqz t2, skip_load_fp_callee_saved /* * If we are switching from a thread with floating-point disabled the * mstatus FS bits will still be cleared, which can cause an illegal * instruction fault. Set the FS state before restoring the registers. * mstatus will be restored later on. */ li t2, MSTATUS_FS_INIT csrrs x0, mstatus, t2 LOAD_FP_CALLEE_SAVED(t1) skip_load_fp_callee_saved: #endif /* CONFIG_FPU && CONFIG_FPU_SHARING */ #ifdef CONFIG_PMP_STACK_GUARD mv a0, t1 /* kernel current */ jal ra, z_riscv_configure_stack_guard #endif // CONFIG_PMP_STACK_GUARD #ifdef CONFIG_USERSPACE /* t0 still reference to _kernel */ /* t1 still pointer to _kernel.current */ /* Check the thread mode */ WAS_NOT_USER(t2, t4) bnez t2, kernel_swap /* Switch to user stack */ RV_OP_LOADREG sp, _thread_offset_to_user_sp(t1) /* Setup User allowed stack */ li t0, MSTATUS_MPRV csrc mstatus, t0 mv a0, t1 jal ra, z_riscv_configure_user_allowed_stack /* Set user mode variable */ li t2, 0x1 la t3, is_user_mode sb t2, 0x00(t3) kernel_swap: #endif /* CONFIG_USERSPACE */ #if CONFIG_INSTRUMENT_THREAD_SWITCHING call z_thread_mark_switched_in #endif #ifdef CONFIG_RISCV_SOC_CONTEXT_SAVE /* Restore context at SOC level */ addi a0, sp, __z_arch_esf_t_soc_context_OFFSET jal ra, __soc_restore_context #endif /* CONFIG_RISCV_SOC_CONTEXT_SAVE */ /* Restore MEPC register */ RV_OP_LOADREG t0, __z_arch_esf_t_mepc_OFFSET(sp) csrw mepc, t0 /* Restore SOC-specific MSTATUS register */ RV_OP_LOADREG t0, __z_arch_esf_t_mstatus_OFFSET(sp) csrw mstatus, t0 #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) /* * Determine if we need to restore floating-point registers. This needs * to happen before restoring integer registers to avoid stomping on * t0. */ RV_OP_LOADREG t0, __z_arch_esf_t_fp_state_OFFSET(sp) beqz t0, skip_load_fp_caller_saved_resched LOAD_FP_CALLER_SAVED(sp) skip_load_fp_caller_saved_resched: #endif /* CONFIG_FPU && CONFIG_FPU_SHARING */ /* Restore caller-saved registers from thread stack */ LOAD_CALLEE_SAVED() /* Call SOC_ERET to exit ISR */ SOC_ERET no_reschedule: #ifdef CONFIG_USERSPACE /* Check if we are in user thread */ WAS_NOT_USER(t2, t4) bnez t2, no_enter_user li t0, MSTATUS_MPRV csrc mstatus, t0 la t0, _kernel RV_OP_LOADREG a0, _kernel_offset_to_current(t0) jal ra, z_riscv_configure_user_allowed_stack /* Set user mode variable */ li t1, 0x1 la t0, is_user_mode sb t1, 0x00(t0) la t0, irq_flag lb t0, 0x00(t0) bnez t0, no_enter_user /* Clear ESF saved in User Stack */ csrr t0, mscratch addi t0, t0, __z_arch_esf_t_SIZEOF csrw mscratch, t0 no_enter_user: #endif /* CONFIG_USERSPACE */ #ifdef CONFIG_RISCV_SOC_CONTEXT_SAVE /* Restore context at SOC level */ addi a0, sp, __z_arch_esf_t_soc_context_OFFSET jal ra, __soc_restore_context #endif /* CONFIG_RISCV_SOC_CONTEXT_SAVE */ /* Restore MEPC register */ RV_OP_LOADREG t0, __z_arch_esf_t_mepc_OFFSET(sp) csrw mepc, t0 /* Restore SOC-specific MSTATUS register */ RV_OP_LOADREG t0, __z_arch_esf_t_mstatus_OFFSET(sp) csrw mstatus, t0 #if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING) /* * Determine if we need to restore floating-point registers. This needs * to happen before restoring integer registers to avoid stomping on * t0. */ RV_OP_LOADREG t0, __z_arch_esf_t_fp_state_OFFSET(sp) beqz t0, skip_load_fp_caller_saved LOAD_FP_CALLER_SAVED(sp) skip_load_fp_caller_saved: #endif /* CONFIG_FPU && CONFIG_FPU_SHARING */ /* Restore caller-saved registers from thread stack */ LOAD_CALLEE_SAVED() #ifdef CONFIG_PMP_STACK_GUARD csrrw sp, mscratch, sp #endif /* CONFIG_PMP_STACK_GUARD */ /* Call SOC_ERET to exit ISR */ SOC_ERET |