// SPDX-License-Identifier: (Apache-2.0 OR MIT) // Converted from the tests for uBPF // Copyright 2015 Big Switch Networks, Inc // Copyright 2016 6WIND S.A. // The tests contained in this file are extracted from the unit tests of uBPF software. Each test // in this file has a name in the form `test_vm_`, and corresponds to the (human-readable) // code in `ubpf/tree/master/tests/`, available at // (hyphen had to be replaced with underscores // as Rust will not accept them in function names). It is strongly advised to refer to the uBPF // version to understand what these program do. // // Each program was assembled from the uBPF version with the assembler provided by uBPF itself, and // available at . // The very few modifications that have been realized should be indicated. // These are unit tests for the eBPF interpreter. #![allow(clippy::unreadable_literal)] extern crate rbpf; mod common; use common::{TCP_SACK_ASM, TCP_SACK_MATCH, TCP_SACK_NOMATCH}; use rbpf::{assembler::assemble, helpers}; #[test] fn test_vm_add() { let prog = assemble( " mov32 r0, 0 mov32 r1, 2 add32 r0, 1 add32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x3); } #[test] fn test_vm_alu64_arith() { let prog = assemble( " mov r0, 0 mov r1, 1 mov r2, 2 mov r3, 3 mov r4, 4 mov r5, 5 mov r6, 6 mov r7, 7 mov r8, 8 mov r9, 9 add r0, 23 add r0, r7 sub r0, 13 sub r0, r1 mul r0, 7 mul r0, r3 div r0, 2 div r0, r4 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x2a); } #[test] fn test_vm_alu64_bit() { let prog = assemble( " mov r0, 0 mov r1, 1 mov r2, 2 mov r3, 3 mov r4, 4 mov r5, 5 mov r6, 6 mov r7, 7 mov r8, 8 or r0, r5 or r0, 0xa0 and r0, 0xa3 mov r9, 0x91 and r0, r9 lsh r0, 32 lsh r0, 22 lsh r0, r8 rsh r0, 32 rsh r0, 19 rsh r0, r7 xor r0, 0x03 xor r0, r2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x11); } #[test] fn test_vm_alu_arith() { let prog = assemble( " mov32 r0, 0 mov32 r1, 1 mov32 r2, 2 mov32 r3, 3 mov32 r4, 4 mov32 r5, 5 mov32 r6, 6 mov32 r7, 7 mov32 r8, 8 mov32 r9, 9 add32 r0, 23 add32 r0, r7 sub32 r0, 13 sub32 r0, r1 mul32 r0, 7 mul32 r0, r3 div32 r0, 2 div32 r0, r4 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x2a); } #[test] fn test_vm_alu_bit() { let prog = assemble( " mov32 r0, 0 mov32 r1, 1 mov32 r2, 2 mov32 r3, 3 mov32 r4, 4 mov32 r5, 5 mov32 r6, 6 mov32 r7, 7 mov32 r8, 8 or32 r0, r5 or32 r0, 0xa0 and32 r0, 0xa3 mov32 r9, 0x91 and32 r0, r9 lsh32 r0, 22 lsh32 r0, r8 rsh32 r0, 19 rsh32 r0, r7 xor32 r0, 0x03 xor32 r0, r2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x11); } #[test] fn test_vm_arsh32_high_shift() { let prog = assemble( " mov r0, 8 lddw r1, 0x100000001 arsh32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x4); } #[test] fn test_vm_arsh() { let prog = assemble( " mov32 r0, 0xf8 lsh32 r0, 28 arsh32 r0, 16 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0xffff8000); } #[test] fn test_vm_arsh64() { let prog = assemble( " mov32 r0, 1 lsh r0, 63 arsh r0, 55 mov32 r1, 5 arsh r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0xfffffffffffffff8); } #[test] fn test_vm_arsh_reg() { let prog = assemble( " mov32 r0, 0xf8 mov32 r1, 16 lsh32 r0, 28 arsh32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0xffff8000); } #[test] fn test_vm_arsh_imm_overflow() { let prog = assemble( " mov r0, 1 lsh r0, 63 arsh r0, 0xff20 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0xffffffff80000000); } #[test] fn test_vm_arsh_reg_overflow() { let prog = assemble( " mov r0, 1 lsh r0, 63 mov r1, 0xff04 arsh r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0xf800000000000000); } #[test] fn test_vm_arsh32_imm_overflow() { let prog = assemble( " mov32 r0, 1 lsh32 r0, 31 arsh32 r0, 0xff10 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0xffff8000); } #[test] fn test_vm_arsh32_reg_overflow() { let prog = assemble( " mov32 r0, 1 lsh32 r0, 31 mov32 r1, 32 arsh32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x80000000); } #[test] fn test_vm_be16() { let prog = assemble( " ldxh r0, [r1] be16 r0 exit", ) .unwrap(); let mem = &mut [0x11, 0x22]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x1122); } #[test] fn test_vm_be16_high() { let prog = assemble( " ldxdw r0, [r1] be16 r0 exit", ) .unwrap(); let mem = &mut [0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x1122); } #[test] fn test_vm_be32() { let prog = assemble( " ldxw r0, [r1] be32 r0 exit", ) .unwrap(); let mem = &mut [0x11, 0x22, 0x33, 0x44]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x11223344); } #[test] fn test_vm_be32_high() { let prog = assemble( " ldxdw r0, [r1] be32 r0 exit", ) .unwrap(); let mem = &mut [0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x11223344); } #[test] fn test_vm_be64() { let prog = assemble( " ldxdw r0, [r1] be64 r0 exit", ) .unwrap(); let mem = &mut [0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x1122334455667788); } #[test] fn test_vm_call() { let prog = assemble( " mov r1, 1 mov r2, 2 mov r3, 3 mov r4, 4 mov r5, 5 call 0 exit", ) .unwrap(); let mut vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); vm.register_helper(0, helpers::gather_bytes).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x0102030405); } #[test] fn test_vm_call_memfrob() { let prog = assemble( " mov r6, r1 add r1, 2 mov r2, 4 call 1 ldxdw r0, [r6] be64 r0 exit", ) .unwrap(); let mem = &mut [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08]; let mut vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); vm.register_helper(1, helpers::memfrob).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x102292e2f2c0708); } // TODO: helpers::trash_registers needs asm!(). // Try this again once asm!() is available in stable. //#[test] //fn test_vm_call_save() { //let prog = &[ //0xb7, 0x06, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, //0xb7, 0x07, 0x00, 0x00, 0x20, 0x00, 0x00, 0x00, //0xb7, 0x08, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, //0xb7, 0x09, 0x00, 0x00, 0x00, 0x40, 0x00, 0x00, //0x85, 0x00, 0x00, 0x00, 0x02, 0x00, 0x00, 0x00, //0xb7, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, //0x4f, 0x60, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, //0x4f, 0x70, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, //0x4f, 0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, //0x4f, 0x90, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, //0x95, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 //]; //let mut vm = rbpf::EbpfVmNoData::new(Some(prog)).unwrap(); //vm.register_helper(2, helpers::trash_registers); //assert_eq!(vm.execute_program().unwrap(), 0x4321); //} #[test] fn test_vm_div32_high_divisor() { let prog = assemble( " mov r0, 12 lddw r1, 0x100000004 div32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x3); } #[test] fn test_vm_div32_imm() { let prog = assemble( " lddw r0, 0x10000000c div32 r0, 4 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x3); } #[test] fn test_vm_div32_reg() { let prog = assemble( " lddw r0, 0x10000000c mov r1, 4 div32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x3); } #[test] fn test_vm_div64_imm() { let prog = assemble( " mov r0, 0xc lsh r0, 32 div r0, 4 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x300000000); } #[test] fn test_vm_div64_reg() { let prog = assemble( " mov r0, 0xc lsh r0, 32 mov r1, 4 div r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x300000000); } #[test] fn test_vm_early_exit() { let prog = assemble( " mov r0, 3 exit mov r0, 4 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x3); } // uBPF limits the number of user functions at 64. We don't. //#[test] //fn test_vm_err_call_bad_imm() { //} #[test] #[should_panic(expected = "Error: unknown helper function (id: 0x3f)")] fn test_vm_err_call_unreg() { let prog = assemble( " mov r1, 1 mov r2, 2 mov r3, 3 mov r4, 4 mov r5, 5 call 63 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); vm.execute_program().unwrap(); } #[test] fn test_vm_div64_by_zero_imm() { let prog = assemble( " mov32 r0, 1 div r0, 0 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x0); } #[test] fn test_vm_div_by_zero_imm() { let prog = assemble( " mov32 r0, 1 div32 r0, 0 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x0); } #[test] fn test_vm_mod64_by_zero_imm() { let prog = assemble( " mov32 r0, 1 mod r0, 0 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_mod_by_zero_imm() { let prog = assemble( " mov32 r0, 1 mod32 r0, 0 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } // Make sure we only consider the last 32 bits of the divisor. #[test] fn test_vm_mod_by_zero_reg_long() { let prog = assemble( " lddw r1, 0x100000000 mod32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x0); } #[test] fn test_vm_div64_by_zero_reg() { let prog = assemble( " mov32 r0, 1 mov32 r1, 0 div r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x0); } #[test] fn test_vm_div_by_zero_reg() { let prog = assemble( " mov32 r0, 1 mov32 r1, 0 div32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x0); } // Make sure we only consider the last 32 bits of the divisor. #[test] fn test_vm_div_by_zero_reg_long() { let prog = assemble( " lddw r1, 0x100000000 div32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x0); } #[test] fn test_vm_mod64_by_zero_reg() { let prog = assemble( " mov32 r0, 1 mov32 r1, 0 mod r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_mod_by_zero_reg() { let prog = assemble( " mov32 r0, 1 mov32 r1, 0 mod32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] #[should_panic(expected = "Error: out of bounds memory store (insn #1)")] fn test_vm_err_stack_out_of_bound() { let prog = assemble( " stb [r10], 0 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); vm.execute_program().unwrap(); } #[test] fn test_vm_exit() { let prog = assemble( " mov r0, 0 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x0); } #[test] fn test_vm_ja() { let prog = assemble( " mov r0, 1 ja +1 mov r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jeq_imm() { let prog = assemble( " mov32 r0, 0 mov32 r1, 0xa jeq r1, 0xb, +4 mov32 r0, 1 mov32 r1, 0xb jeq r1, 0xb, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jeq_reg() { let prog = assemble( " mov32 r0, 0 mov32 r1, 0xa mov32 r2, 0xb jeq r1, r2, +4 mov32 r0, 1 mov32 r1, 0xb jeq r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jge_imm() { let prog = assemble( " mov32 r0, 0 mov32 r1, 0xa jge r1, 0xb, +4 mov32 r0, 1 mov32 r1, 0xc jge r1, 0xb, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jle_imm() { let prog = assemble( " mov32 r0, 0 mov32 r1, 5 jle r1, 4, +1 jle r1, 6, +1 exit jle r1, 5, +1 exit mov32 r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jle_reg() { let prog = assemble( " mov r0, 0 mov r1, 5 mov r2, 4 mov r3, 6 jle r1, r2, +2 jle r1, r1, +1 exit jle r1, r3, +1 exit mov r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jgt_imm() { let prog = assemble( " mov32 r0, 0 mov32 r1, 5 jgt r1, 6, +2 jgt r1, 5, +1 jgt r1, 4, +1 exit mov32 r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jgt_reg() { let prog = assemble( " mov r0, 0 mov r1, 5 mov r2, 6 mov r3, 4 jgt r1, r2, +2 jgt r1, r1, +1 jgt r1, r3, +1 exit mov r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jlt_imm() { let prog = assemble( " mov32 r0, 0 mov32 r1, 5 jlt r1, 4, +2 jlt r1, 5, +1 jlt r1, 6, +1 exit mov32 r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jlt_reg() { let prog = assemble( " mov r0, 0 mov r1, 5 mov r2, 4 mov r3, 6 jlt r1, r2, +2 jlt r1, r1, +1 jlt r1, r3, +1 exit mov r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jit_bounce() { let prog = assemble( " mov r0, 1 mov r6, r0 mov r7, r6 mov r8, r7 mov r9, r8 mov r0, r9 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jne_reg() { let prog = assemble( " mov32 r0, 0 mov32 r1, 0xb mov32 r2, 0xb jne r1, r2, +4 mov32 r0, 1 mov32 r1, 0xa jne r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jset_imm() { let prog = assemble( " mov32 r0, 0 mov32 r1, 0x7 jset r1, 0x8, +4 mov32 r0, 1 mov32 r1, 0x9 jset r1, 0x8, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jset_reg() { let prog = assemble( " mov32 r0, 0 mov32 r1, 0x7 mov32 r2, 0x8 jset r1, r2, +4 mov32 r0, 1 mov32 r1, 0x9 jset r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsge_imm() { let prog = assemble( " mov32 r0, 0 mov r1, -2 jsge r1, -1, +5 jsge r1, 0, +4 mov32 r0, 1 mov r1, -1 jsge r1, -1, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsge_reg() { let prog = assemble( " mov32 r0, 0 mov r1, -2 mov r2, -1 mov32 r3, 0 jsge r1, r2, +5 jsge r1, r3, +4 mov32 r0, 1 mov r1, r2 jsge r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsle_imm() { let prog = assemble( " mov32 r0, 0 mov r1, -2 jsle r1, -3, +1 jsle r1, -1, +1 exit mov32 r0, 1 jsle r1, -2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsle_reg() { let prog = assemble( " mov32 r0, 0 mov r1, -1 mov r2, -2 mov32 r3, 0 jsle r1, r2, +1 jsle r1, r3, +1 exit mov32 r0, 1 mov r1, r2 jsle r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsgt_imm() { let prog = assemble( " mov32 r0, 0 mov r1, -2 jsgt r1, -1, +4 mov32 r0, 1 mov32 r1, 0 jsgt r1, -1, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsgt_reg() { let prog = assemble( " mov32 r0, 0 mov r1, -2 mov r2, -1 jsgt r1, r2, +4 mov32 r0, 1 mov32 r1, 0 jsgt r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jslt_imm() { let prog = assemble( " mov32 r0, 0 mov r1, -2 jslt r1, -3, +2 jslt r1, -2, +1 jslt r1, -1, +1 exit mov32 r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jslt_reg() { let prog = assemble( " mov32 r0, 0 mov r1, -2 mov r2, -3 mov r3, -1 jslt r1, r1, +2 jslt r1, r2, +1 jslt r1, r3, +1 exit mov32 r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jeq32_imm() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0x0 mov32 r1, 0xa jeq32 r1, 0xb, +5 mov32 r0, 1 mov r1, 0xb or r1, r9 jeq32 r1, 0xb, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jeq32_reg() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, 0xa mov32 r2, 0xb jeq32 r1, r2, +5 mov32 r0, 1 mov32 r1, 0xb or r1, r9 jeq32 r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jge32_imm() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, 0xa jge32 r1, 0xb, +5 mov32 r0, 1 or r1, r9 mov32 r1, 0xc jge32 r1, 0xb, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jge32_reg() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, 0xa mov32 r2, 0xb jge32 r1, r2, +5 mov32 r0, 1 or r1, r9 mov32 r1, 0xc jge32 r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jgt32_imm() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, 5 or r1, r9 jgt32 r1, 6, +4 jgt32 r1, 5, +3 jgt32 r1, 4, +1 exit mov32 r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jgt32_reg() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov r0, 0 mov r1, 5 mov32 r1, 5 or r1, r9 mov r2, 6 mov r3, 4 jgt32 r1, r2, +4 jgt32 r1, r1, +3 jgt32 r1, r3, +1 exit mov r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jle32_imm() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, 5 or r1, r9 jle32 r1, 4, +5 jle32 r1, 6, +1 exit jle32 r1, 5, +1 exit mov32 r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jle32_reg() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov r0, 0 mov r1, 5 mov r2, 4 mov r3, 6 or r1, r9 jle32 r1, r2, +5 jle32 r1, r1, +1 exit jle32 r1, r3, +1 exit mov r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jlt32_imm() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, 5 or r1, r9 jlt32 r1, 4, +4 jlt32 r1, 5, +3 jlt32 r1, 6, +1 exit mov32 r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jlt32_reg() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov r0, 0 mov r1, 5 mov r2, 4 mov r3, 6 or r1, r9 jlt32 r1, r2, +4 jlt32 r1, r1, +3 jlt32 r1, r3, +1 exit mov r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jne32_imm() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, 0xb or r1, r9 jne32 r1, 0xb, +4 mov32 r0, 1 mov32 r1, 0xa or r1, r9 jne32 r1, 0xb, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jne32_reg() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, 0xb or r1, r9 mov32 r2, 0xb jne32 r1, r2, +4 mov32 r0, 1 mov32 r1, 0xa or r1, r9 jne32 r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jset32_imm() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, 0x7 or r1, r9 jset32 r1, 0x8, +4 mov32 r0, 1 mov32 r1, 0x9 jset32 r1, 0x8, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jset32_reg() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, 0x7 or r1, r9 mov32 r2, 0x8 jset32 r1, r2, +4 mov32 r0, 1 mov32 r1, 0x9 jset32 r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsge32_imm() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, -2 or r1, r9 jsge32 r1, -1, +5 jsge32 r1, 0, +4 mov32 r0, 1 mov r1, -1 jsge32 r1, -1, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsge32_reg() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, -2 or r1, r9 mov r2, -1 mov32 r3, 0 jsge32 r1, r2, +5 jsge32 r1, r3, +4 mov32 r0, 1 mov r1, r2 jsge32 r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsgt32_imm() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, -2 or r1, r9 jsgt32 r1, -1, +4 mov32 r0, 1 mov32 r1, 0 jsgt32 r1, -1, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsgt32_reg() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, -2 or r1, r9 mov r2, -1 jsgt32 r1, r2, +4 mov32 r0, 1 mov32 r1, 0 jsgt32 r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsle32_imm() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, -2 or r1, r9 jsle32 r1, -3, +5 jsle32 r1, -1, +1 exit mov32 r0, 1 jsle32 r1, -2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jsle32_reg() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, -2 or r1, r9 mov r2, -3 mov32 r3, 0 jsle32 r1, r2, +6 jsle32 r1, r3, +1 exit mov32 r0, 1 mov r1, r2 jsle32 r1, r2, +1 mov32 r0, 2 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jslt32_imm() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, -2 or r1, r9 jslt32 r1, -3, +4 jslt32 r1, -2, +3 jslt32 r1, -1, +1 exit mov32 r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_jslt32_reg() { let prog = assemble( " mov r9, 1 lsh r9, 32 mov32 r0, 0 mov32 r1, -2 or r1, r9 mov r2, -3 mov r3, -1 jslt32 r1, r1, +4 jslt32 r1, r2, +3 jslt32 r1, r3, +1 exit mov32 r0, 1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_lddw() { let prog = assemble( "lddw r0, 0x1122334455667788 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1122334455667788); } #[test] fn test_vm_lddw2() { let prog = assemble( " lddw r0, 0x0000000080000000 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x80000000); } #[test] fn test_vm_ldxb_all() { let prog = assemble( " mov r0, r1 ldxb r9, [r0+0] lsh r9, 0 ldxb r8, [r0+1] lsh r8, 4 ldxb r7, [r0+2] lsh r7, 8 ldxb r6, [r0+3] lsh r6, 12 ldxb r5, [r0+4] lsh r5, 16 ldxb r4, [r0+5] lsh r4, 20 ldxb r3, [r0+6] lsh r3, 24 ldxb r2, [r0+7] lsh r2, 28 ldxb r1, [r0+8] lsh r1, 32 ldxb r0, [r0+9] lsh r0, 36 or r0, r1 or r0, r2 or r0, r3 or r0, r4 or r0, r5 or r0, r6 or r0, r7 or r0, r8 or r0, r9 exit", ) .unwrap(); let mem = &mut [0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x9876543210); } #[test] fn test_vm_ldxb() { let prog = assemble( " ldxb r0, [r1+2] exit", ) .unwrap(); let mem = &mut [0xaa, 0xbb, 0x11, 0xcc, 0xdd]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x11); } #[test] fn test_vm_ldxdw() { let prog = assemble( " ldxdw r0, [r1+2] exit", ) .unwrap(); let mem = &mut [ 0xaa, 0xbb, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88, 0xcc, 0xdd, ]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x8877665544332211); } #[test] fn test_vm_ldxh_all() { let prog = assemble( " mov r0, r1 ldxh r9, [r0+0] be16 r9 lsh r9, 0 ldxh r8, [r0+2] be16 r8 lsh r8, 4 ldxh r7, [r0+4] be16 r7 lsh r7, 8 ldxh r6, [r0+6] be16 r6 lsh r6, 12 ldxh r5, [r0+8] be16 r5 lsh r5, 16 ldxh r4, [r0+10] be16 r4 lsh r4, 20 ldxh r3, [r0+12] be16 r3 lsh r3, 24 ldxh r2, [r0+14] be16 r2 lsh r2, 28 ldxh r1, [r0+16] be16 r1 lsh r1, 32 ldxh r0, [r0+18] be16 r0 lsh r0, 36 or r0, r1 or r0, r2 or r0, r3 or r0, r4 or r0, r5 or r0, r6 or r0, r7 or r0, r8 or r0, r9 exit", ) .unwrap(); let mem = &mut [ 0x00, 0x00, 0x00, 0x01, 0x00, 0x02, 0x00, 0x03, 0x00, 0x04, 0x00, 0x05, 0x00, 0x06, 0x00, 0x07, 0x00, 0x08, 0x00, 0x09, ]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x9876543210); } #[test] fn test_vm_ldxh_all2() { let prog = assemble( " mov r0, r1 ldxh r9, [r0+0] be16 r9 ldxh r8, [r0+2] be16 r8 ldxh r7, [r0+4] be16 r7 ldxh r6, [r0+6] be16 r6 ldxh r5, [r0+8] be16 r5 ldxh r4, [r0+10] be16 r4 ldxh r3, [r0+12] be16 r3 ldxh r2, [r0+14] be16 r2 ldxh r1, [r0+16] be16 r1 ldxh r0, [r0+18] be16 r0 or r0, r1 or r0, r2 or r0, r3 or r0, r4 or r0, r5 or r0, r6 or r0, r7 or r0, r8 or r0, r9 exit", ) .unwrap(); let mem = &mut [ 0x00, 0x01, 0x00, 0x02, 0x00, 0x04, 0x00, 0x08, 0x00, 0x10, 0x00, 0x20, 0x00, 0x40, 0x00, 0x80, 0x01, 0x00, 0x02, 0x00, ]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x3ff); } #[test] fn test_vm_ldxh() { let prog = assemble( " ldxh r0, [r1+2] exit", ) .unwrap(); let mem = &mut [0xaa, 0xbb, 0x11, 0x22, 0xcc, 0xdd]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x2211); } #[test] fn test_vm_ldxh_same_reg() { let prog = assemble( " mov r0, r1 sth [r0], 0x1234 ldxh r0, [r0] exit", ) .unwrap(); let mem = &mut [0xff, 0xff]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x1234); } #[test] fn test_vm_ldxw_all() { let prog = assemble( " mov r0, r1 ldxw r9, [r0+0] be32 r9 ldxw r8, [r0+4] be32 r8 ldxw r7, [r0+8] be32 r7 ldxw r6, [r0+12] be32 r6 ldxw r5, [r0+16] be32 r5 ldxw r4, [r0+20] be32 r4 ldxw r3, [r0+24] be32 r3 ldxw r2, [r0+28] be32 r2 ldxw r1, [r0+32] be32 r1 ldxw r0, [r0+36] be32 r0 or r0, r1 or r0, r2 or r0, r3 or r0, r4 or r0, r5 or r0, r6 or r0, r7 or r0, r8 or r0, r9 exit", ) .unwrap(); let mem = &mut [ 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x02, 0x00, 0x00, 0x00, 0x04, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x02, 0x00, 0x00, 0x00, 0x04, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x02, 0x00, 0x00, ]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x030f0f); } #[test] fn test_vm_ldxw() { let prog = assemble( " ldxw r0, [r1+2] exit", ) .unwrap(); let mem = &mut [0xaa, 0xbb, 0x11, 0x22, 0x33, 0x44, 0xcc, 0xdd]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x44332211); } #[test] fn test_vm_le16() { let prog = assemble( " ldxh r0, [r1] le16 r0 exit", ) .unwrap(); let mem = &mut [0x22, 0x11]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x1122); } #[test] fn test_vm_le32() { let prog = assemble( " ldxw r0, [r1] le32 r0 exit", ) .unwrap(); let mem = &mut [0x44, 0x33, 0x22, 0x11]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x11223344); } #[test] fn test_vm_le64() { let prog = assemble( " ldxdw r0, [r1] le64 r0 exit", ) .unwrap(); let mem = &mut [0x88, 0x77, 0x66, 0x55, 0x44, 0x33, 0x22, 0x11]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x1122334455667788); } #[test] fn test_vm_lsh_imm() { let prog = assemble( " mov r0, 1 lsh r0, 4 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x10); } #[test] fn test_vm_lsh_reg() { let prog = assemble( " mov r0, 1 mov r7, 4 lsh r0, r7 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x10); } #[test] fn test_vm_lsh32_imm() { let prog = assemble( " mov32 r0, 1 lsh32 r0, 4 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x10); } #[test] fn test_vm_lsh32_reg() { let prog = assemble( " mov32 r0, 1 mov32 r7, 4 lsh32 r0, r7 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x10); } #[test] fn test_vm_lsh_imm_overflow() { let prog = assemble( " mov r0, 1 lsh r0, 64 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_lsh_reg_overflow() { let prog = assemble( " mov r0, 1 mov r7, 64 lsh r0, r7 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_lsh32_imm_overflow() { let prog = assemble( " mov32 r0, 1 lsh32 r0, 32 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_lsh32_reg_overflow() { let prog = assemble( " mov32 r0, 1 mov32 r7, 32 lsh32 r0, r7 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_mod() { let prog = assemble( " mov32 r0, 5748 mod32 r0, 92 mov32 r1, 13 mod32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x5); } #[test] fn test_vm_mod32() { let prog = assemble( " lddw r0, 0x100000003 mod32 r0, 3 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x0); } #[test] fn test_vm_mod64() { let prog = assemble( " mov32 r0, -1316649930 lsh r0, 32 or r0, 0x100dc5c8 mov32 r1, 0xdde263e lsh r1, 32 or r1, 0x3cbef7f3 mod r0, r1 mod r0, 0x658f1778 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x30ba5a04); } #[test] fn test_vm_mov() { let prog = assemble( " mov32 r1, 1 mov32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_mul32_imm() { let prog = assemble( " mov r0, 3 mul32 r0, 4 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0xc); } #[test] fn test_vm_mul32_reg() { let prog = assemble( " mov r0, 3 mov r1, 4 mul32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0xc); } #[test] fn test_vm_mul32_reg_overflow() { let prog = assemble( " mov r0, 0x40000001 mov r1, 4 mul32 r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x4); } #[test] fn test_vm_mul64_imm() { let prog = assemble( " mov r0, 0x40000001 mul r0, 4 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x100000004); } #[test] fn test_vm_mul64_reg() { let prog = assemble( " mov r0, 0x40000001 mov r1, 4 mul r0, r1 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x100000004); } #[test] fn test_vm_mul_loop() { let prog = assemble( " mov r0, 0x7 add r1, 0xa lsh r1, 0x20 rsh r1, 0x20 jeq r1, 0x0, +4 mov r0, 0x7 mul r0, 0x7 add r1, -1 jne r1, 0x0, -3 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x75db9c97); } #[test] fn test_vm_neg64() { let prog = assemble( " mov32 r0, 2 neg r0 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0xfffffffffffffffe); } #[test] fn test_vm_neg() { let prog = assemble( " mov32 r0, 2 neg32 r0 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0xfffffffe); } #[test] fn test_vm_prime() { let prog = assemble( " mov r1, 67 mov r0, 0x1 mov r2, 0x2 jgt r1, 0x2, +4 ja +10 add r2, 0x1 mov r0, 0x1 jge r2, r1, +7 mov r3, r1 div r3, r2 mul r3, r2 mov r4, r1 sub r4, r3 mov r0, 0x0 jne r4, 0x0, -10 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_rhs32() { let prog = assemble( " xor r0, r0 sub r0, 1 rsh32 r0, 8 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x00ffffff); } #[test] fn test_vm_rsh_reg() { let prog = assemble( " mov r0, 0x10 mov r7, 4 rsh r0, r7 exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x1); } #[test] fn test_vm_stack() { let prog = assemble( " mov r1, 51 stdw [r10-16], 0xab stdw [r10-8], 0xcd and r1, 1 lsh r1, 3 mov r2, r10 add r2, r1 ldxdw r0, [r2-16] exit", ) .unwrap(); let vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0xcd); } #[test] fn test_vm_stack2() { let prog = assemble( " stb [r10-4], 0x01 stb [r10-3], 0x02 stb [r10-2], 0x03 stb [r10-1], 0x04 mov r1, r10 mov r2, 0x4 sub r1, r2 call 1 mov r1, 0 ldxb r2, [r10-4] ldxb r3, [r10-3] ldxb r4, [r10-2] ldxb r5, [r10-1] call 0 xor r0, 0x2a2a2a2a exit", ) .unwrap(); let mut vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); vm.register_helper(0, helpers::gather_bytes).unwrap(); vm.register_helper(1, helpers::memfrob).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x01020304); } #[test] fn test_vm_stb() { let prog = assemble( " stb [r1+2], 0x11 ldxb r0, [r1+2] exit", ) .unwrap(); let mem = &mut [0xaa, 0xbb, 0xff, 0xcc, 0xdd]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x11); } #[test] fn test_vm_stdw() { let prog = assemble( " stdw [r1+2], 0x44332211 ldxdw r0, [r1+2] exit", ) .unwrap(); let mem = &mut [ 0xaa, 0xbb, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xcc, 0xdd, ]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x44332211); } // If this case is not handled properly in check_mem(), then we may overflow when adding the // context address and the offset, and make the thread panic with "attempt to add with overflow". // Check that we panic with the expected out-of-bounds error. #[test] #[should_panic(expected = "Error: out of bounds memory store (insn #1)")] fn test_vm_stdw_add_overflow() { let prog = assemble( " stdw [r2-0x1], 0x44332211 ldxw r0, [r1+2] exit", ) .unwrap(); let mem = &mut [ 0xaa, 0xbb, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xcc, 0xdd, ]; let mut vm = rbpf::EbpfVmFixedMbuff::new(Some(&prog), 0x00, 0x10).unwrap(); _ = vm.execute_program(mem).unwrap(); } #[test] fn test_vm_sth() { let prog = assemble( " sth [r1+2], 0x2211 ldxh r0, [r1+2] exit", ) .unwrap(); let mem = &mut [0xaa, 0xbb, 0xff, 0xff, 0xcc, 0xdd]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x2211); } #[test] fn test_vm_string_stack() { let prog = assemble( " mov r1, 0x78636261 stxw [r10-8], r1 mov r6, 0x0 stxb [r10-4], r6 stxb [r10-12], r6 mov r1, 0x79636261 stxw [r10-16], r1 mov r1, r10 add r1, -8 mov r2, r1 call 0x4 mov r1, r0 mov r0, 0x1 lsh r1, 0x20 rsh r1, 0x20 jne r1, 0x0, +11 mov r1, r10 add r1, -8 mov r2, r10 add r2, -16 call 0x4 mov r1, r0 lsh r1, 0x20 rsh r1, 0x20 mov r0, 0x1 jeq r1, r6, +1 mov r0, 0x0 exit", ) .unwrap(); let mut vm = rbpf::EbpfVmNoData::new(Some(&prog)).unwrap(); vm.register_helper(4, helpers::strcmp).unwrap(); assert_eq!(vm.execute_program().unwrap(), 0x0); } #[test] fn test_vm_stw() { let prog = assemble( " stw [r1+2], 0x44332211 ldxw r0, [r1+2] exit", ) .unwrap(); let mem = &mut [0xaa, 0xbb, 0xff, 0xff, 0xff, 0xff, 0xcc, 0xdd]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x44332211); } #[test] fn test_vm_stxb() { let prog = assemble( " mov32 r2, 0x11 stxb [r1+2], r2 ldxb r0, [r1+2] exit", ) .unwrap(); let mem = &mut [0xaa, 0xbb, 0xff, 0xcc, 0xdd]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x11); } #[test] fn test_vm_stxb_all() { let prog = assemble( " mov r0, 0xf0 mov r2, 0xf2 mov r3, 0xf3 mov r4, 0xf4 mov r5, 0xf5 mov r6, 0xf6 mov r7, 0xf7 mov r8, 0xf8 stxb [r1], r0 stxb [r1+1], r2 stxb [r1+2], r3 stxb [r1+3], r4 stxb [r1+4], r5 stxb [r1+5], r6 stxb [r1+6], r7 stxb [r1+7], r8 ldxdw r0, [r1] be64 r0 exit", ) .unwrap(); let mem = &mut [0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0xf0f2f3f4f5f6f7f8); } #[test] fn test_vm_stxb_all2() { let prog = assemble( " mov r0, r1 mov r1, 0xf1 mov r9, 0xf9 stxb [r0], r1 stxb [r0+1], r9 ldxh r0, [r0] be16 r0 exit", ) .unwrap(); let mem = &mut [0xff, 0xff]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0xf1f9); } #[test] fn test_vm_stxb_chain() { let prog = assemble( " mov r0, r1 ldxb r9, [r0+0] stxb [r0+1], r9 ldxb r8, [r0+1] stxb [r0+2], r8 ldxb r7, [r0+2] stxb [r0+3], r7 ldxb r6, [r0+3] stxb [r0+4], r6 ldxb r5, [r0+4] stxb [r0+5], r5 ldxb r4, [r0+5] stxb [r0+6], r4 ldxb r3, [r0+6] stxb [r0+7], r3 ldxb r2, [r0+7] stxb [r0+8], r2 ldxb r1, [r0+8] stxb [r0+9], r1 ldxb r0, [r0+9] exit", ) .unwrap(); let mem = &mut [0x2a, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x2a); } #[test] fn test_vm_stxdw() { let prog = assemble( " mov r2, -2005440939 lsh r2, 32 or r2, 0x44332211 stxdw [r1+2], r2 ldxdw r0, [r1+2] exit", ) .unwrap(); let mem = &mut [ 0xaa, 0xbb, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xcc, 0xdd, ]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x8877665544332211); } #[test] fn test_vm_stxh() { let prog = assemble( " mov32 r2, 0x2211 stxh [r1+2], r2 ldxh r0, [r1+2] exit", ) .unwrap(); let mem = &mut [0xaa, 0xbb, 0xff, 0xff, 0xcc, 0xdd]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x2211); } #[test] fn test_vm_stxw() { let prog = assemble( " mov32 r2, 0x44332211 stxw [r1+2], r2 ldxw r0, [r1+2] exit", ) .unwrap(); let mem = &mut [0xaa, 0xbb, 0xff, 0xff, 0xff, 0xff, 0xcc, 0xdd]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x44332211); } #[test] fn test_vm_subnet() { let prog = assemble( " mov r2, 0xe ldxh r3, [r1+12] jne r3, 0x81, +2 mov r2, 0x12 ldxh r3, [r1+16] and r3, 0xffff jne r3, 0x8, +5 add r1, r2 mov r0, 0x1 ldxw r1, [r1+16] and r1, 0xffffff jeq r1, 0x1a8c0, +1 mov r0, 0x0 exit", ) .unwrap(); let mem = &mut [ 0x00, 0x00, 0xc0, 0x9f, 0xa0, 0x97, 0x00, 0xa0, 0xcc, 0x3b, 0xbf, 0xfa, 0x08, 0x00, 0x45, 0x10, 0x00, 0x3c, 0x46, 0x3c, 0x40, 0x00, 0x40, 0x06, 0x73, 0x1c, 0xc0, 0xa8, 0x01, 0x02, 0xc0, 0xa8, 0x01, 0x01, 0x06, 0x0e, 0x00, 0x17, 0x99, 0xc5, 0xa0, 0xec, 0x00, 0x00, 0x00, 0x00, 0xa0, 0x02, 0x7d, 0x78, 0xe0, 0xa3, 0x00, 0x00, 0x02, 0x04, 0x05, 0xb4, 0x04, 0x02, 0x08, 0x0a, 0x00, 0x9c, 0x27, 0x24, 0x00, 0x00, 0x00, 0x00, 0x01, 0x03, 0x03, 0x00, ]; let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x1); } const PROG_TCP_PORT_80: [u8; 152] = [ 0x71, 0x12, 0x0c, 0x00, 0x00, 0x00, 0x00, 0x00, 0x71, 0x13, 0x0d, 0x00, 0x00, 0x00, 0x00, 0x00, 0x67, 0x03, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x4f, 0x23, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xb7, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x55, 0x03, 0x0c, 0x00, 0x08, 0x00, 0x00, 0x00, 0x71, 0x12, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x55, 0x02, 0x0a, 0x00, 0x06, 0x00, 0x00, 0x00, 0x71, 0x12, 0x0e, 0x00, 0x00, 0x00, 0x00, 0x00, 0x07, 0x01, 0x00, 0x00, 0x0e, 0x00, 0x00, 0x00, 0x57, 0x02, 0x00, 0x00, 0x0f, 0x00, 0x00, 0x00, 0x67, 0x02, 0x00, 0x00, 0x02, 0x00, 0x00, 0x00, 0x0f, 0x21, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x69, 0x12, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x15, 0x02, 0x02, 0x00, 0x00, 0x50, 0x00, 0x00, 0x69, 0x11, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x55, 0x01, 0x01, 0x00, 0x00, 0x50, 0x00, 0x00, 0xb7, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x95, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, ]; #[test] fn test_vm_tcp_port80_match() { let mem = &mut [ 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x00, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x08, 0x00, 0x45, 0x00, 0x00, 0x56, 0x00, 0x01, 0x00, 0x00, 0x40, 0x06, 0xf9, 0x4d, 0xc0, 0xa8, 0x00, 0x01, 0xc0, 0xa8, 0x00, 0x02, 0x27, 0x10, 0x00, 0x50, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x50, 0x02, 0x20, 0x00, 0xc5, 0x18, 0x00, 0x00, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, ]; let prog = &PROG_TCP_PORT_80; let vm = rbpf::EbpfVmRaw::new(Some(prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x1); } #[test] fn test_vm_tcp_port80_nomatch() { let mem = &mut [ 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x00, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x08, 0x00, 0x45, 0x00, 0x00, 0x56, 0x00, 0x01, 0x00, 0x00, 0x40, 0x06, 0xf9, 0x4d, 0xc0, 0xa8, 0x00, 0x01, 0xc0, 0xa8, 0x00, 0x02, 0x00, 0x16, 0x27, 0x10, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x51, 0x02, 0x20, 0x00, 0xc5, 0x18, 0x00, 0x00, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, ]; let prog = &PROG_TCP_PORT_80; let vm = rbpf::EbpfVmRaw::new(Some(prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x0); } #[test] fn test_vm_tcp_port80_nomatch_ethertype() { let mem = &mut [ 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x00, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x08, 0x01, 0x45, 0x00, 0x00, 0x56, 0x00, 0x01, 0x00, 0x00, 0x40, 0x06, 0xf9, 0x4d, 0xc0, 0xa8, 0x00, 0x01, 0xc0, 0xa8, 0x00, 0x02, 0x27, 0x10, 0x00, 0x50, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x50, 0x02, 0x20, 0x00, 0xc5, 0x18, 0x00, 0x00, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, ]; let prog = &PROG_TCP_PORT_80; let vm = rbpf::EbpfVmRaw::new(Some(prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x0); } #[test] fn test_vm_tcp_port80_nomatch_proto() { let mem = &mut [ 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x00, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x08, 0x00, 0x45, 0x00, 0x00, 0x56, 0x00, 0x01, 0x00, 0x00, 0x40, 0x11, 0xf9, 0x4d, 0xc0, 0xa8, 0x00, 0x01, 0xc0, 0xa8, 0x00, 0x02, 0x27, 0x10, 0x00, 0x50, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x50, 0x02, 0x20, 0x00, 0xc5, 0x18, 0x00, 0x00, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, 0x44, ]; let prog = &PROG_TCP_PORT_80; let vm = rbpf::EbpfVmRaw::new(Some(prog)).unwrap(); assert_eq!(vm.execute_program(mem).unwrap(), 0x0); } #[test] fn test_vm_tcp_sack_match() { let mut mem = TCP_SACK_MATCH.to_vec(); let prog = assemble(TCP_SACK_ASM).unwrap(); let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem.as_mut_slice()).unwrap(), 0x1); } #[test] fn test_vm_tcp_sack_nomatch() { let mut mem = TCP_SACK_NOMATCH.to_vec(); let prog = assemble(TCP_SACK_ASM).unwrap(); let vm = rbpf::EbpfVmRaw::new(Some(&prog)).unwrap(); assert_eq!(vm.execute_program(mem.as_mut_slice()).unwrap(), 0x0); }