/////////////////////////////////////////// // tlbGLB.S // // Written: mmendozamanriquez@hmc.edu 4 April 2023 // nlimpert@hmc.edu // // Purpose: coverage for the global check. // // A component of the CORE-V-WALLY configurable RISC-V project. // // Copyright (C) 2021-23 Harvey Mudd College & Oklahoma State University // // SPDX-License-Identifier: Apache-2.0 WITH SHL-2.1 // // Licensed under the Solderpad Hardware License v 2.1 (the “License”); you may not use this file // except in compliance with the License, or, at your option, the Apache License version 2.0. You // may obtain a copy of the License at // // https://solderpad.org/licenses/SHL-2.1/ // // Unless required by applicable law or agreed to in writing, any work distributed under the // License is distributed on an “AS IS” BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, // either express or implied. See the License for the specific language governing permissions // and limitations under the License. //////////////////////////////////////////////////////////////////////////////////////////////// // load code to initalize stack, handle interrupts, terminate #include "WALLY-init-lib.h" # run-elf.bash find this in project description main: # Page table root address at 0x80010000 li t5, 0x9000000000080080 // try making asid = 0. csrw satp, t5 # sfence.vma x0, x0 # switch to supervisor mode li a0, 1 ecall li t0, 0xC0000000 li t2, 0 # i = 0 li t5, 0 # j = 0 // now use as a counter for new asid loop li t3, 32 # Max amount of Loops = 32 loop: bge t2, t3, nASID # exit loop if i >= loops li t1, 0x00008067 #load in jalr sw t1, 0(t0) fence.I jalr t0 li t4, 0x1000 add t0, t0, t4 addi t2, t2, 1 j loop nASID: bne t5, zero, finished li a0, 3 // go ecall li t5, 0x9000100000080080 // try making asid = 1 csrw satp, t5 li a0, 1 ecall li t2, 0 li t0, 0xC0000000 li t5, 1 // make this not zero. j loop finished: j done .data .align 19 # level 3 Page table situated at 0x8008 0000, should point to 8008,1000 pagetable: .8byte 0x200204C1 .align 12 // level 2 page table, contains direction to a gigapageg .8byte 0x0 .8byte 0x0 .8byte 0x200000EF // gigapage that starts at 8000 0000 goes to C000 0000 .8byte 0x200208E1 // pointer to next page table entry at 8008 2000 .align 12 // level 1 page table, points to level 0 page table .8byte 0x20020CE1 .align 12 // level 0 page table, points to address C000 0000 // FOR NOW ALL OF THESE GO TO 8 instead of C cause they start with 2 .8byte 0x200000EF // access xC000 0000 .8byte 0x200004EF // access xC000 1000 .8byte 0x200008EF // access xC000 2000 .8byte 0x20000CEF // access xC000 3000 .8byte 0x200010EF // access xC000 4000 .8byte 0x200014EF .8byte 0x200018EF .8byte 0x20001CEF .8byte 0x200020EF // access xC000 8000 .8byte 0x200024EF .8byte 0x200028EF .8byte 0x20002CEF .8byte 0x200030EF // access xC000 C000 .8byte 0x200034EF .8byte 0x200038EF .8byte 0x20003CEF .8byte 0x200040EF // access xC001 0000 .8byte 0x200044EF .8byte 0x200048EF .8byte 0x20004CEF .8byte 0x200050EF // access xC001 4000 .8byte 0x200054EF .8byte 0x200058EF .8byte 0x20005CEF .8byte 0x200060EF // access xC001 8000 .8byte 0x200064EF .8byte 0x200068EF .8byte 0x20006CEF .8byte 0x200070EF // access xC001 C000 .8byte 0x200074eF .8byte 0x200078EF .8byte 0x20007CEF .8byte 0x200080EF // access xC002 0000 .8byte 0x200084EF .8byte 0x200088EF .8byte 0x20008CEF .8byte 0x200010EF // access xC000 4000 .8byte 0x200014EF .8byte 0x200018EF .8byte 0x20001CEF .8byte 0x200020EF // access xC000 8000 .8byte 0x200024EF .8byte 0x200028EF .8byte 0x20002CEF .8byte 0x200030EF // access xC000 C000 .8byte 0x200034EF .8byte 0x200038EF .8byte 0x20003CEF .8byte 0x200040EF // access xC001 0000 .8byte 0x200044EF .8byte 0x200048EF .8byte 0x20004CEF .8byte 0x200050EF // access xC001 4000 .8byte 0x200054EF .8byte 0x200058EF .8byte 0x20005CEF .8byte 0x200060EF // access xC001 8000 .8byte 0x200064EF .8byte 0x200068EF .8byte 0x20006CEF .8byte 0x200070EF // access xC001 C000 .8byte 0x200074eF .8byte 0x200078EF .8byte 0x20007CEF .8byte 0x200080EF // access xC002 0000 .8byte 0x200084EF .8byte 0x200088EF .8byte 0x20008CEF