| /* |
| * Copyright (c) 2016 Jean-Paul Etienne <fractalclone@gmail.com> |
| * Copyright (c) 2018 Foundries.io Ltd |
| * |
| * SPDX-License-Identifier: Apache-2.0 |
| */ |
| |
| #include <toolchain.h> |
| #include <linker/sections.h> |
| #include <offsets_short.h> |
| #include <arch/cpu.h> |
| |
| /* 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_TRACING |
| GTEXT(sys_trace_thread_switched_in) |
| GTEXT(sys_trace_isr_enter) |
| #endif |
| |
| #ifdef CONFIG_IRQ_OFFLOAD |
| GTEXT(_offload_routine) |
| #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) |
| /* Allocate space on thread stack to save registers */ |
| addi sp, sp, -__z_arch_esf_t_SIZEOF |
| |
| /* |
| * 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 |
| */ |
| RV_OP_STOREREG ra, __z_arch_esf_t_ra_OFFSET(sp) |
| RV_OP_STOREREG gp, __z_arch_esf_t_gp_OFFSET(sp) |
| RV_OP_STOREREG tp, __z_arch_esf_t_tp_OFFSET(sp) |
| RV_OP_STOREREG t0, __z_arch_esf_t_t0_OFFSET(sp) |
| RV_OP_STOREREG t1, __z_arch_esf_t_t1_OFFSET(sp) |
| RV_OP_STOREREG t2, __z_arch_esf_t_t2_OFFSET(sp) |
| RV_OP_STOREREG t3, __z_arch_esf_t_t3_OFFSET(sp) |
| RV_OP_STOREREG t4, __z_arch_esf_t_t4_OFFSET(sp) |
| RV_OP_STOREREG t5, __z_arch_esf_t_t5_OFFSET(sp) |
| RV_OP_STOREREG t6, __z_arch_esf_t_t6_OFFSET(sp) |
| RV_OP_STOREREG a0, __z_arch_esf_t_a0_OFFSET(sp) |
| RV_OP_STOREREG a1, __z_arch_esf_t_a1_OFFSET(sp) |
| RV_OP_STOREREG a2, __z_arch_esf_t_a2_OFFSET(sp) |
| RV_OP_STOREREG a3, __z_arch_esf_t_a3_OFFSET(sp) |
| RV_OP_STOREREG a4, __z_arch_esf_t_a4_OFFSET(sp) |
| RV_OP_STOREREG a5, __z_arch_esf_t_a5_OFFSET(sp) |
| RV_OP_STOREREG a6, __z_arch_esf_t_a6_OFFSET(sp) |
| RV_OP_STOREREG a7, __z_arch_esf_t_a7_OFFSET(sp) |
| |
| /* 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_EXECUTION_BENCHMARKING |
| call read_timer_start_of_isr |
| #endif |
| |
| /* |
| * 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 |
| |
| /* |
| * 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, |
| * otherwise handle fault |
| */ |
| beq t0, t1, is_syscall |
| |
| /* |
| * 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 |
| la ra, no_reschedule |
| tail _Fault |
| |
| is_syscall: |
| /* |
| * 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 |
| |
| /* |
| * Go to reschedule to handle context-switch |
| */ |
| j reschedule |
| |
| is_interrupt: |
| /* |
| * 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) |
| |
| on_irq_stack: |
| /* Increment _kernel.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) |
| |
| #ifdef CONFIG_EXECUTION_BENCHMARKING |
| addi sp, sp, -16 |
| RV_OP_STOREREG a0, 0x00(sp) |
| RV_OP_STOREREG t1, RV_REGSIZE(sp) |
| call read_timer_end_of_isr |
| RV_OP_LOADREG t1, RV_REGSIZE(sp) |
| RV_OP_LOADREG a0, 0x00(sp) |
| addi sp, sp, 16 |
| #endif |
| /* Call ISR function */ |
| jalr ra, t1 |
| |
| on_thread_stack: |
| /* Get reference to _kernel */ |
| la t1, _kernel |
| |
| /* Decrement _kernel.nested variable */ |
| lw t2, _kernel_offset_to_nested(t1) |
| addi t2, t2, -1 |
| sw t2, _kernel_offset_to_nested(t1) |
| |
| /* Restore thread stack pointer */ |
| RV_OP_LOADREG t0, 0x00(sp) |
| addi sp, t0, 0 |
| |
| #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 */ |
| |
| reschedule: |
| #if CONFIG_TRACING |
| call sys_trace_thread_switched_in |
| #endif |
| /* Get reference to _kernel */ |
| la t0, _kernel |
| |
| /* Get pointer to _kernel.current */ |
| RV_OP_LOADREG t1, _kernel_offset_to_current(t0) |
| |
| /* |
| * Save callee-saved registers of current thread |
| * prior to handle context-switching |
| */ |
| RV_OP_STOREREG s0, _thread_offset_to_s0(t1) |
| RV_OP_STOREREG s1, _thread_offset_to_s1(t1) |
| RV_OP_STOREREG s2, _thread_offset_to_s2(t1) |
| RV_OP_STOREREG s3, _thread_offset_to_s3(t1) |
| RV_OP_STOREREG s4, _thread_offset_to_s4(t1) |
| RV_OP_STOREREG s5, _thread_offset_to_s5(t1) |
| RV_OP_STOREREG s6, _thread_offset_to_s6(t1) |
| RV_OP_STOREREG s7, _thread_offset_to_s7(t1) |
| RV_OP_STOREREG s8, _thread_offset_to_s8(t1) |
| RV_OP_STOREREG s9, _thread_offset_to_s9(t1) |
| RV_OP_STOREREG s10, _thread_offset_to_s10(t1) |
| RV_OP_STOREREG s11, _thread_offset_to_s11(t1) |
| |
| /* |
| * 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 */ |
| RV_OP_LOADREG s0, _thread_offset_to_s0(t1) |
| RV_OP_LOADREG s1, _thread_offset_to_s1(t1) |
| RV_OP_LOADREG s2, _thread_offset_to_s2(t1) |
| RV_OP_LOADREG s3, _thread_offset_to_s3(t1) |
| RV_OP_LOADREG s4, _thread_offset_to_s4(t1) |
| RV_OP_LOADREG s5, _thread_offset_to_s5(t1) |
| RV_OP_LOADREG s6, _thread_offset_to_s6(t1) |
| RV_OP_LOADREG s7, _thread_offset_to_s7(t1) |
| RV_OP_LOADREG s8, _thread_offset_to_s8(t1) |
| RV_OP_LOADREG s9, _thread_offset_to_s9(t1) |
| RV_OP_LOADREG s10, _thread_offset_to_s10(t1) |
| RV_OP_LOADREG s11, _thread_offset_to_s11(t1) |
| |
| #ifdef CONFIG_EXECUTION_BENCHMARKING |
| addi sp, sp, -__z_arch_esf_t_SIZEOF |
| |
| RV_OP_STOREREG ra, __z_arch_esf_t_ra_OFFSET(sp) |
| RV_OP_STOREREG gp, __z_arch_esf_t_gp_OFFSET(sp) |
| RV_OP_STOREREG tp, __z_arch_esf_t_tp_OFFSET(sp) |
| RV_OP_STOREREG t0, __z_arch_esf_t_t0_OFFSET(sp) |
| RV_OP_STOREREG t1, __z_arch_esf_t_t1_OFFSET(sp) |
| RV_OP_STOREREG t2, __z_arch_esf_t_t2_OFFSET(sp) |
| RV_OP_STOREREG t3, __z_arch_esf_t_t3_OFFSET(sp) |
| RV_OP_STOREREG t4, __z_arch_esf_t_t4_OFFSET(sp) |
| RV_OP_STOREREG t5, __z_arch_esf_t_t5_OFFSET(sp) |
| RV_OP_STOREREG t6, __z_arch_esf_t_t6_OFFSET(sp) |
| RV_OP_STOREREG a0, __z_arch_esf_t_a0_OFFSET(sp) |
| RV_OP_STOREREG a1, __z_arch_esf_t_a1_OFFSET(sp) |
| RV_OP_STOREREG a2, __z_arch_esf_t_a2_OFFSET(sp) |
| RV_OP_STOREREG a3, __z_arch_esf_t_a3_OFFSET(sp) |
| RV_OP_STOREREG a4, __z_arch_esf_t_a4_OFFSET(sp) |
| RV_OP_STOREREG a5, __z_arch_esf_t_a5_OFFSET(sp) |
| RV_OP_STOREREG a6, __z_arch_esf_t_a6_OFFSET(sp) |
| RV_OP_STOREREG a7, __z_arch_esf_t_a7_OFFSET(sp) |
| |
| call read_timer_end_of_swap |
| |
| RV_OP_LOADREG ra, __z_arch_esf_t_ra_OFFSET(sp) |
| RV_OP_LOADREG gp, __z_arch_esf_t_gp_OFFSET(sp) |
| RV_OP_LOADREG tp, __z_arch_esf_t_tp_OFFSET(sp) |
| RV_OP_LOADREG t0, __z_arch_esf_t_t0_OFFSET(sp) |
| RV_OP_LOADREG t1, __z_arch_esf_t_t1_OFFSET(sp) |
| RV_OP_LOADREG t2, __z_arch_esf_t_t2_OFFSET(sp) |
| RV_OP_LOADREG t3, __z_arch_esf_t_t3_OFFSET(sp) |
| RV_OP_LOADREG t4, __z_arch_esf_t_t4_OFFSET(sp) |
| RV_OP_LOADREG t5, __z_arch_esf_t_t5_OFFSET(sp) |
| RV_OP_LOADREG t6, __z_arch_esf_t_t6_OFFSET(sp) |
| 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) |
| RV_OP_LOADREG a6, __z_arch_esf_t_a6_OFFSET(sp) |
| RV_OP_LOADREG a7, __z_arch_esf_t_a7_OFFSET(sp) |
| |
| /* Release stack space */ |
| addi sp, sp, __z_arch_esf_t_SIZEOF |
| #endif |
| |
| no_reschedule: |
| #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 |
| |
| /* Restore caller-saved registers from thread stack */ |
| RV_OP_LOADREG ra, __z_arch_esf_t_ra_OFFSET(sp) |
| RV_OP_LOADREG gp, __z_arch_esf_t_gp_OFFSET(sp) |
| RV_OP_LOADREG tp, __z_arch_esf_t_tp_OFFSET(sp) |
| RV_OP_LOADREG t0, __z_arch_esf_t_t0_OFFSET(sp) |
| RV_OP_LOADREG t1, __z_arch_esf_t_t1_OFFSET(sp) |
| RV_OP_LOADREG t2, __z_arch_esf_t_t2_OFFSET(sp) |
| RV_OP_LOADREG t3, __z_arch_esf_t_t3_OFFSET(sp) |
| RV_OP_LOADREG t4, __z_arch_esf_t_t4_OFFSET(sp) |
| RV_OP_LOADREG t5, __z_arch_esf_t_t5_OFFSET(sp) |
| RV_OP_LOADREG t6, __z_arch_esf_t_t6_OFFSET(sp) |
| 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) |
| RV_OP_LOADREG a6, __z_arch_esf_t_a6_OFFSET(sp) |
| RV_OP_LOADREG a7, __z_arch_esf_t_a7_OFFSET(sp) |
| |
| /* Release stack space */ |
| addi sp, sp, __z_arch_esf_t_SIZEOF |
| |
| /* Call SOC_ERET to exit ISR */ |
| SOC_ERET |