# See LICENSE for license details. #***************************************************************************** # scall.S #----------------------------------------------------------------------------- # # Test syscall trap. # #include "riscv_test.h" #include "test_macros.h" RVTEST_RV64S RVTEST_CODE_BEGIN #ifdef __MACHINE_MODE #define sscratch mscratch #define sstatus mstatus #define scause mcause #define sepc mepc #define sret mret #define stvec_handler mtvec_handler #undef SSTATUS_SPP #define SSTATUS_SPP MSTATUS_MPP #endif li TESTNUM, 2 # This is the expected trap code. li t1, CAUSE_USER_ECALL #ifdef __MACHINE_MODE # If running in M mode, use mstatus.MPP to check existence of U mode. # Otherwise, if in S mode, then U mode must exist and we don't need to check. li t0, MSTATUS_MPP csrc mstatus, t0 csrr t2, mstatus and t0, t0, t2 beqz t0, 1f # If U mode doesn't exist, mcause should indicate ECALL from M mode. li t1, CAUSE_MACHINE_ECALL #endif 1: li t0, SSTATUS_SPP csrc sstatus, t0 la t0, 1f csrw sepc, t0 sret 1: li TESTNUM, 1 do_scall: scall j fail TEST_PASSFAIL # Depending on the test environment, the M-mode version of this test might # not actually invoke the following handler. Instead, the usual ECALL # handler in the test environment might detect the CAUSE_USER_ECALL or # CAUSE_MACHINE_ECALL exception and mark the test as having passed. # Either way, we'll get the coverage we desire: such a handler must check # both mcause and TESTNUM, just like the following handler. .align 2 .global stvec_handler stvec_handler: csrr t0, scause # Check if CLIC mode csrr t2, stvec andi t2, t2, 2 # Skip masking if non-CLIC mode beqz t2, skip_mask andi t0, t0, 255 skip_mask: bne t0, t1, fail la t2, do_scall csrr t0, sepc bne t0, t2, fail j pass RVTEST_CODE_END .data RVTEST_DATA_BEGIN TEST_DATA RVTEST_DATA_END