%def bincmp(condition=""): /* * Generic two-operand compare-and-branch operation. Provide a "condition" * fragment that specifies the comparison to perform. * * For: if-eq, if-ne, if-lt, if-ge, if-gt, if-le */ /* if-cmp vA, vB, +CCCC */ lsr w1, wINST, #12 // w1<- B ubfx w0, wINST, #8, #4 // w0<- A GET_VREG w3, w1 // w3<- vB GET_VREG w2, w0 // w2<- vA cmp w2, w3 // compare (vA, vB) b.${condition} 1f FETCH_ADVANCE_INST 2 GET_INST_OPCODE ip // extract opcode from wINST GOTO_OPCODE ip // jump to next instruction 1: FETCH_S wINST, 1 // wINST<- branch offset, in code units BRANCH %def zcmp(compare="1", branch=""): /* * Generic one-operand compare-and-branch operation. Provide a "condition" * fragment that specifies the comparison to perform. * * for: if-eqz, if-nez, if-ltz, if-gez, if-gtz, if-lez */ /* if-cmp vAA, +BBBB */ lsr w0, wINST, #8 // w0<- AA GET_VREG w2, w0 // w2<- vAA .if ${compare} cmp w2, #0 // compare (vA, 0) .endif ${branch} 1f FETCH_ADVANCE_INST 2 GET_INST_OPCODE ip // extract opcode from wINST GOTO_OPCODE ip // jump to next instruction 1: FETCH_S wINST, 1 // w1<- branch offset, in code units BRANCH %def op_goto(): /* * Unconditional branch, 8-bit offset. * * The branch distance is a signed code-unit offset, which we need to * double to get a byte offset. */ /* goto +AA */ sbfx wINST, wINST, #8, #8 // wINST<- ssssssAA (sign-extended) BRANCH %def op_goto_16(): /* * Unconditional branch, 16-bit offset. * * The branch distance is a signed code-unit offset, which we need to * double to get a byte offset. */ /* goto/16 +AAAA */ FETCH_S wINST, 1 // wINST<- ssssAAAA (sign-extended) BRANCH %def op_goto_32(): /* * Unconditional branch, 32-bit offset. * * The branch distance is a signed code-unit offset, which we need to * double to get a byte offset. * * Because we need the SF bit set, we'll use an adds * to convert from Dalvik offset to byte offset. */ /* goto/32 +AAAAAAAA */ FETCH w0, 1 // w0<- aaaa (lo) FETCH w1, 2 // w1<- AAAA (hi) orr wINST, w0, w1, lsl #16 // wINST<- AAAAaaaa BRANCH %def op_if_eq(): % bincmp(condition="eq") %def op_if_eqz(): % zcmp(compare="0", branch="cbz w2,") %def op_if_ge(): % bincmp(condition="ge") %def op_if_gez(): % zcmp(compare="0", branch="tbz w2, #31,") %def op_if_gt(): % bincmp(condition="gt") %def op_if_gtz(): % zcmp(branch="b.gt") %def op_if_le(): % bincmp(condition="le") %def op_if_lez(): % zcmp(branch="b.le") %def op_if_lt(): % bincmp(condition="lt") %def op_if_ltz(): % zcmp(compare="0", branch="tbnz w2, #31,") %def op_if_ne(): % bincmp(condition="ne") %def op_if_nez(): % zcmp(compare="0", branch="cbnz w2,") %def op_packed_switch(func="NterpDoPackedSwitch"): /* * Handle a packed-switch or sparse-switch instruction. In both cases * we decode it and hand it off to a helper function. * * We don't really expect backward branches in a switch statement, but * they're perfectly legal, so we check for them here. * * for: packed-switch, sparse-switch */ /* op vAA, +BBBB */ FETCH w0, 1 // x0<- 000000000000bbbb (lo) FETCH_S x1, 2 // x1<- ssssssssssssBBBB (hi) lsr w3, wINST, #8 // w3<- AA orr x0, x0, x1, lsl #16 // x0<- ssssssssBBBBbbbb GET_VREG w1, w3 // w1<- vAA add x0, xPC, x0, lsl #1 // x0<- PC + ssssssssBBBBbbbb*2 bl $func // w0<- code-unit branch offset sxtw xINST, w0 BRANCH %def op_sparse_switch(): % op_packed_switch(func="NterpDoSparseSwitch") /* * Return a 32-bit value. */ %def op_return(is_object="0", is_void="0", is_wide="0"): .if $is_void // Thread fence for constructor dmb ishst .else lsr w2, wINST, #8 // w2<- AA .if $is_wide GET_VREG_WIDE x0, w2 // x0<- vAA // In case we're going back to compiled code, put the // result also in d0 fmov d0, x0 .else GET_VREG w0, w2 // r0<- vAA .if !$is_object // In case we're going back to compiled code, put the // result also in s0. fmov s0, w0 .endif .endif .endif .cfi_remember_state ldr ip, [xREFS, #-8] mov sp, ip .cfi_def_cfa sp, CALLEE_SAVES_SIZE RESTORE_ALL_CALLEE_SAVES ret .cfi_restore_state %def op_return_object(): % op_return(is_object="1", is_void="0", is_wide="0") %def op_return_void(): % op_return(is_object="0", is_void="1", is_wide="0") %def op_return_wide(): % op_return(is_object="0", is_void="0", is_wide="1") %def op_throw(): EXPORT_PC lsr w2, wINST, #8 // r2<- AA GET_VREG w0, w2 // r0<- vAA (exception object) mov x1, xSELF bl art_quick_deliver_exception brk 0