; This testcase is part of GDB, the GNU debugger. ; Copyright 2017-2022 Free Software Foundation, Inc. ; This program is free software; you can redistribute it and/or modify ; it under the terms of the GNU General Public License as published by ; the Free Software Foundation; either version 3 of the License, or ; (at your option) any later version. ; ; This program is distributed in the hope that it will be useful, ; but WITHOUT ANY WARRANTY; without even the implied warranty of ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ; GNU General Public License for more details. ; ; You should have received a copy of the GNU General Public License ; along with this program. If not, see . .section .data some_variable: .long 0xdeadbeef .section .text .global main .type main, @function ; Standard prologue. .align 4 standard_prologue: push blink sub sp,sp,12 st r13, [sp, 0] st r14, [sp, 4] st r18, [sp, 8] add r0, r1, r2 ld r18, [sp, 8] ld r14, [sp, 4] ld r13, [sp, 0] add sp,sp,12 pop blink j [blink] ; Standard prologue using short instructions. .align 4 mini_prologue: push_s blink sub_s sp,sp,12 ; ST_S can store only some of the core registers. st_s r13, [sp, 0] st_s r15, [sp, 4] st_s r14, [sp, 8] add r0, r1, r2 add sp,sp,16 j [blink] ; Standard prologue without `sub sp,sp,INTEGER`. .align 4 no_subsp_prologue: push blink push r13 push r20 push r25 add r0, r1, r2 pop r25 pop r20 pop r13 pop blink j [blink] ; Standard prologue of leaf function. .align 4 leaf_prologue: sub sp,sp,8 st r13, [sp, 0] st r15, [sp, 4] add r0, r1, r2 ld r13, [sp, 0] ld r15, [sp, 4] j.d [blink] add sp,sp,8 ; Prologue with `push fp`. .align 4 pushfp_prologue: push r13 push r14 push fp ; mov fp,sp is part of prologue, but this test will not verify that. ; It will be checked later in the "arg_regs_fp" test. mov fp, sp add r0, r1, r2 pop fp pop r14 pop r13 j [blink] ; Prologue with frame pointer and store relative to FP. .align 4 fp_prologue_with_store: push r13 push r14 push fp mov fp, sp sub_s sp,sp,4 st r15,[fp,-4] add r0, r1, r2 pop r15 pop fp pop r14 pop r13 j [blink] ; Verify that store of the non-callee saved registers is not part of prologue. ; Repeat this test for multiple registers, to check boundaries. Also check ; with both ST and PUSH (aka ST.AW). We have to use multiple functions for ; this, because GDB would stop analisys at the first instruction that is not ; part of prologue. .align 4 noncallee_saved_regs_r12_st: sub sp,sp,8 st r13, [sp, 4] st r12, [sp, 0] add r0, r1, r2 j.d [blink] add sp,sp,8 .align 4 noncallee_saved_regs_r12_push: push r13 push r12 add r0, r1, r2 j.d [blink] add sp,sp,8 .align 4 noncallee_saved_regs_r2_push: push r13 push r2 add r0, r1, r2 j.d [blink] add sp,sp,8 .align 4 noncallee_saved_regs_gp_push: push r25 push gp add r0, r1, r2 j.d [blink] add sp,sp,8 ; LP_COUNT is treated like a normal register. .align 4 noncallee_saved_regs_lp_count: push r25 push lp_count add r0, r1, r2 j.d [blink] add sp,sp,8 ; BLINK is saved, but after an instruction that is not part of prologue. ; Currently arc_analyze_prologue stops analisys at the first intstruction ; that is not a part of prologue. This might be not the best way, but it is ; what it is right now, so this test confirms this. .align 4 noncallee_saved_regs_blink_out_of_prologue: push r25 push gp push blink add r0, r1, r2 j.d [blink] add sp,sp,12 ; Saving arguments register via FP. .align 4 arg_regs_fp: push fp mov fp, sp sub sp, sp, 16 st r0, [fp, -4] st r1, [fp, -8] st r7, [fp, -12] st r8, [fp, -16] add r0, r1, r2 add sp,sp,16 pop fp j [blink] ; Like the previous, but with mov_s. .align 4 arg_regs_fp_mov_s: push fp mov_s fp, sp sub sp, sp, 8 st r0, [fp, -4] ; Not part of the prologue. st r8, [fp, -8] add r0, r1, r2 add sp,sp,8 pop fp j [blink] ; Saving arguments register without FP. .align 4 arg_regs_sp: sub sp, sp, 24 st r0, [sp, 0] st r1, [sp, 4] st r7, [sp, 8] ; Normally that would be done before saving args, but it is used as a ; marker that saving arguments relatively to SP is considered part of ; prologue. st r13, [sp, 16] ; Not part of the prologue. st r8, [sp, 12] st r14, [sp, 20] add r0, r1, r2 j.d [blink] add sp,sp,24 ; ENTER_S that does nothing. .align 4 enter_s_nop: ; Effectively a nop. enter_s 0 add r0,r1,r2 j [blink] ; ENTER_S that stores BLINK. .align 4 enter_s_blink: enter_s 32 add r0,r1,r2 j.d [blink] add sp,sp,4 ; ENTER_S that stores FP. .align 4 enter_s_fp: enter_s 16 add r0,r1,r2 j.d [blink] add sp,sp,4 ; ENTER_S that stores R13, FP and BLINK. .align 4 enter_s_r13: enter_s (32 + 16 + 1) add r0,r1,r2 j.d [blink] add sp,sp,12 ; ENTER_S that stores R13-R15 .align 4 enter_s_r15: enter_s 3 add r0,r1,r2 j.d [blink] add sp,sp,12 ; ENTER_S that stores everything it could. .align 4 enter_s_all: enter_s (32 + 16 + 14) add r0,r1,r2 j.d [blink] add sp,sp,64 ; Deeper nesting. .align 4 nested_prologue_inner: sub sp,sp,8 st r18, [sp, 4] st r13, [sp, 0] add r0, r1, r2 ld r18, [sp, 4] ld r13, [sp, 0] j.d [blink] add sp,sp,8 .align 4 nested_prologue_outer: push blink sub sp,sp,8 st r14, [sp, 0] st r15, [sp, 4] bl @nested_prologue_inner add r0, r1, r2 ld r14, [sp, 0] ld r15, [sp, 4] add sp,sp,8 pop blink j [blink] ; Prologue with maximum length. ; Expressions like (0xFFFFFFFF + 25) force assembler to use long immediate ; even for values that don't need it, thus letting us test maksimum prologue ; length without having huge frames. .align 4 max_length_prologue: ; Variadic args sub sp,sp,(0xFFFFFFFF + 25) ; 24 bytes push blink ; Allocate space for 13 callee-saved and 8 arg regs. sub sp,sp,(0xFFFFFFFF + 1 + 21 * 4) st r13, [sp, 0] st r14, [sp, 4] st r15, [sp, 8] st r16, [sp, 12] st r17, [sp, 16] st r18, [sp, 20] st r19, [sp, 24] st r20, [sp, 28] st r21, [sp, 32] st r22, [sp, 36] st r23, [sp, 40] st r24, [sp, 44] st r25, [sp, 48] st r0, [sp, 52] st r1, [sp, 56] st r2, [sp, 60] st r3, [sp, 64] st r4, [sp, 68] st r5, [sp, 72] st r6, [sp, 76] st r7, [sp, 80] push fp mov fp,sp sub sp,sp,(0xFFFFFFFF + 1 + 16) ; Space for local variables. ; End of prologue. add sp,sp,24 + 21 * 4 + 16 j [blink] ; Few tests that test that prologue analysis stops at branch. There are four ; types of "branches": conditional and non-conditional, relative branches and ; absolute jumps. .align 4 branch_in_prologue: push r13 b @.L1 ; This store on stack is not a prologue. push r14 .L1: add r0,r1,r2 j.d [blink] add sp,sp,4 .align 4 cond_branch_in_prologue: sub_s sp,sp,8 st_s r13,[sp,4] ; Doesn't matter if branch is taken or not. breq r0,r1,@.L2 ; This store on stack is not a prologue. st_s r14,[sp,0] .L2: add r0,r1,r2 pop fp j.d [blink] add sp,sp,8 .align 4 jump_in_prologue: push r13 j @.L3 ; This store on stack is not a prologue. push r14 .L3: add r0,r1,r2 j.d [blink] add sp,sp,4 .align 4 cond_jump_in_prologue: sub_s sp,sp,8 st_s r13,[sp,4] ; It doesn't matter if jump is taken or not - prologue analysis has to ; stop before `jeq` in any case. jeq @.L4 ; This store on stack is not a prologue. st_s r14,[sp,0] .L4: add r0,r1,r2 j.d [blink] add sp,sp,8 .align 4 predicated_insn: sub_s sp,sp,12 st_s r13,[sp,8] st_s r15,[sp,0] ; Use SUB SP,SP,0 because it is otherwise a valid instruction for ; prologue, so it will halt analysis purely because of its predicate. sub.eq sp,sp,0 ; This is not a prologue anymore. st_s r14,[sp,4] add sp,sp,12 j [blink] ; Loops should halt prologue analysis. .align 4 loop_in_prologue: push r25 push lp_count mov lp_count, 4 lp @.Lloop_end1 push r26 ; Not part of prologue. add r0, r1, r2 .Lloop_end1: add r1, r1, r2 pop r26 add sp,sp,8 pop r25 j [blink] ; Store of a constant value (not a register). .align 4 store_constant: sub_s sp,sp,12 st_s r13,[sp,8] st 0xdeadbeef,[sp,0] st_s r14,[sp,4] add sp,sp,12 j [blink] ; Test that store to immediate address halts prologue analysis. .align 4 st_c_limm: push r15 st r14,[@some_variable] push r13 add sp,sp,8 j [blink] ; Store with AB writeback mode. .align 4 st_ab_writeback: sub sp,sp,8 st r13,[sp,4] st.ab r14,[sp,-4] st r15,[sp,0] add sp,sp,12 j [blink] ; Store of a word with AS writeback mode. .align 4 st_as_writeback: sub sp,sp,12 st r13,[sp,8] st.as r14,[sp,1] ; ST.AS, hence address is (offset << 2). st r15,[sp,0] add sp,sp,12 j [blink] ; Store of a halfword with AS writeback mode. .align 4 sth_as_writeback: sub sp,sp,12 st r13,[sp,8] sth.as r14,[sp,2] ; STH.AS, hence address is (offset << 1). st r15,[sp,0] add sp,sp,12 j [blink] ; Store of a double word with AS writeback mode. Shift is still 2, like ST! .align 4 std_as_writeback: sub sp,sp,16 st r13,[sp,12] #ifdef __ARC_LL64__ std.as r14,[sp,1] ; STD.AS, hence address is (offset << 2). #else st.as r14,[sp,1] ; STD.AS, hence address is (offset << 2). st.as r15,[sp,2] ; STD.AS, hence address is (offset << 2). #endif st r16,[sp,0] add sp,sp,12 j [blink] ; Store of the halfword. R14 will not be reported as "saved". .align 4 st_halfword: sub sp,sp,12 st r13,[sp,8] sth r14,[sp,4] st r15,[sp,0] add sp,sp,12 j [blink] ; Store of the halfword. R14 will not be reported as "saved". .align 4 sts_halfword: sub sp,sp,12 st r13,[sp,8] mov r13,sp sth_s r14,[r13,4] st r15,[sp,0] add sp,sp,12 j [blink] ; Store of the byte. R14 will not be reported as "saved". .align 4 st_byte: sub sp,sp,12 st r13,[sp,8] stb r14,[sp,4] st r15,[sp,0] add sp,sp,12 j [blink] ; Store of the byte. R14 will not be reported as "saved". .align 4 sts_byte: sub sp,sp,12 st r13,[sp,8] mov r13,sp stb_s r14,[r13,4] st r15,[sp,0] add sp,sp,12 j [blink] ; Store of the byte. R14 will not be reported as "saved". .align 4 sts_byte_sp: sub sp,sp,12 st r13,[sp,8] stb_s r14,[sp,4] st r15,[sp,0] add sp,sp,12 j [blink] ; Double word store, optionally available for ARC HS. .align 4 st_double: sub sp,sp,8 #ifdef __ARC_LL64__ std r14,[sp,0] std.aw r18,[sp,-8] std.aw 0xdeadbeef,[sp,-8] #else st r14,[sp,0] st r15,[sp,4] st.aw r19,[sp,-4] st.aw r18,[sp,-4] sub sp,sp,8 #endif add sp,sp,24 j [blink] ; Store relative to some register with a known value. .align 4 r_relative_store: sub_s sp,sp,12 st_s r13,[sp,8] mov r13,sp ; Check for both mov and mov_s in one testcase. mov_s r12,r13 st r15,[r12,0] st_s r14,[sp,4] add sp,sp,12 j [blink] ; Store relative to some register with a known value using sub. ; Like a previous test, but register is assigned via sub, instead of mov. .align 4 r_relative_sub_store: ; Following is a complicated way to construct frame like this: ; sub_s sp,sp,12 ; st_s r13,[sp,8] ; st_s r14,[sp,4] ; st_s r15,[sp,0] sub_s sp,sp,12 st_s r13,[sp,8] sub r13,sp,4 st r14,[r13,8] st_s r15,[sp,0] add sp,sp,12 j [blink] ; Like r_relative_store, but using st_s c,[b,u7] which has different opcode. .align 4 r_relative_store_st_s: sub_s sp,sp,12 st_s r13,[sp,8] mov r13,sp st_s r15,[r13,4] st_s r14,[sp,0] add sp,sp,12 j [blink] ; Store relative to some register with a unknown value. .align 4 r_relative_store_unknown: sub_s sp,sp,12 st_s r13,[sp,8] st r15,[gp,0] ; GP value is not relative to SP. st_s r14,[sp,4] add sp,sp,12 j [blink] ; Store relative to some register with a unknown value, using st_s r0,[gp,s11]. .align 4 st_s_r0gp: sub_s sp,sp,12 st_s r13,[sp,8] st_s r0,[gp,0] ; GP value is not relative to SP. st_s r14,[sp,4] add sp,sp,12 j [blink] ; Check prologue that uses `push_s RR` instructions. `push_s b` and `push_s ; blink` use slightly different subopcodes. .align 4 push_s_prologue: push_s r12 push_s r0 push_s r3 push_s r13 push_s r1 push_s r14 push_s r15 push_s r2 push_s blink ; Also tested in mini_prologue (). add sp,sp,(4 * 9) j [blink] ; Check for SUB_S c,b,u3 presence - it doesn't affect prologue. .align 4 sub_s_cbu3: push_s r13 sub_s r0,r1,3 push_s r14 add sp,sp,8 j [blink] ; Check for SUB_S b,b,c presence - it doesn't affect prologue. .align 4 sub_s_bbc: push_s r13 sub_s r0,r0,r1 push_s r0 push_s r1 push_s r14 add sp,sp,16 j [blink] ; Check for SUB_S b,b,u5. .align 4 sub_s_bbu5: push_s r13 sub_s r2,r2,14 push_s r2 push_s r14 add sp,sp,12 j [blink] ; Check for SUB 0,b,c, which is effectively a noop (but it can set status ; flags). It shouldn't stop prologue analysis. .align 4 sub_0bc: push_s r13 sub 0,r1,r2 sub.f 0,r3,r4 push_s r14 add sp,sp,8 j [blink] ; Check for SUB a,limm,c. .align 4 sub_alimmb: push_s r13 sub r13,0xdeadbeef,r14 push_s r14 add sp,sp,8 j [blink] ; Check for sub_s.ne b,b,b. Has a condition code, hence should halt prologue. .align 4 sub_s_ne_bbb: push_s r13 sub_s.ne r13,r13,r13 push_s r14 add sp,sp,8 j [blink] ; Check MOV that uses LIMM values. .align 4 mov_limm: push_s r13 mov r13,0xdeadbeef push_s r14 add sp,sp,4 pop_s r13 j [blink] ; Check MOV 0,c. .align 4 mov0c_limm: push_s r13 mov 0,r13 push_s r14 add sp,sp,4 pop_s r13 j [blink] ; Check that MOV_S h,s3 doesn't prevent prologue analysis. .align 4 mov_s_hs3: push_s r13 mov_s r5,1 push_s r14 add sp,sp,8 j [blink] ; Check that MOV_S b,u8 doesn't prevent prologue analysis. .align 4 mov_s_bu8: push_s r13 mov_s r12,250 push_s r14 add sp,sp,8 j [blink] ; Check that `mov_s.ne b,h` halts prologue analysis. .align 4 mov_s_ne_bh: push_s r13 mov_s.ne r13,r5 push_s r14 add sp,sp,8 j [blink] ; Check that register R12 which original value is not stored will not pop-up in ; the "Saved registers" list. .align 4 unstored_reg: sub_s sp,sp,12 st_s r13,[sp,0] st_s r14,[sp,4] mov r12,0x42 st_s r12,[sp,8] add sp,sp,12 j [blink] ; Two stores at the same adddress. GDB should report only the R14. .align 4 double_store: sub_s sp,sp,4 st_s r13,[sp,0] st_s r14,[sp,0] add sp,sp,4 j [blink] ; Test for a case where callee has an alloca or anything else that might ; modify stack dynamically in the function body - after the prologue. ; This assumes that FP is set properly, so that GDB can use it - this holds ; true for frames generated by GCC. .align 4 alloca_outer: sub sp,sp,8 st blink,[sp,4] st fp,[sp,0] mov fp,sp add r0,r1,r2 ; Not a prologue anymore. sub sp,sp,8 bl @alloca_inner add sp,sp,8 ld fp,[sp,0] ld blink,[sp,4] j.d [blink] add sp,sp,8 .align 4 alloca_inner: push r13 push r14 add sp,sp,8 j [blink] .align 4 main: push blink # Create small section for GP-relative accesses. push gp sub sp,sp,16 add gp,sp,8 bl @standard_prologue bl @mini_prologue bl @no_subsp_prologue bl @leaf_prologue bl @pushfp_prologue bl @fp_prologue_with_store bl @noncallee_saved_regs_r12_st bl @noncallee_saved_regs_r12_push bl @noncallee_saved_regs_r2_push bl @noncallee_saved_regs_gp_push bl @noncallee_saved_regs_lp_count bl @noncallee_saved_regs_blink_out_of_prologue bl @arg_regs_fp bl @arg_regs_fp_mov_s bl @arg_regs_sp bl @enter_s_nop bl @enter_s_blink bl @enter_s_fp bl @enter_s_r13 bl @enter_s_r15 bl @enter_s_all bl @nested_prologue_outer bl @max_length_prologue bl @branch_in_prologue bl @cond_branch_in_prologue bl @jump_in_prologue bl @cond_jump_in_prologue bl @predicated_insn bl @loop_in_prologue bl @store_constant bl @st_c_limm bl @st_ab_writeback bl @st_as_writeback bl @sth_as_writeback bl @std_as_writeback bl @st_halfword bl @sts_halfword bl @st_byte bl @sts_byte bl @sts_byte_sp bl @st_double bl @r_relative_store bl @r_relative_sub_store bl @r_relative_store_st_s bl @r_relative_store_unknown bl @st_s_r0gp bl @push_s_prologue bl @sub_s_cbu3 bl @sub_s_bbc bl @sub_s_bbu5 bl @sub_0bc bl @sub_alimmb bl @sub_s_ne_bbb bl @mov_limm bl @mov0c_limm bl @mov_s_hs3 bl @mov_s_bu8 bl @mov_s_ne_bh bl @unstored_reg bl @double_store bl @alloca_outer add sp,sp,16 pop gp pop blink j_s [blink] .align 4 .section .note.GNU-stack,"",@progbits