/*--------------------------------------------------------------------*/ /*--- The core dispatch loop, for jumping to a code address. ---*/ /*--- dispatch-mips64-linux.S ---*/ /*--------------------------------------------------------------------*/ /* This file is part of Valgrind, a dynamic binary instrumentation framework. Copyright (C) 2000-2017 RT-RK 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 2 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 . The GNU General Public License is contained in the file COPYING. */ #include "pub_core_basics_asm.h" #if defined(VGP_mips64_linux) #include "pub_core_dispatch_asm.h" #include "pub_core_transtab_asm.h" #include "libvex_guest_offsets.h" /* for OFFSET_mips_PC */ /*------------------------------------------------------------*/ /*--- ---*/ /*--- The dispatch loop. VG_(disp_run_translations) is ---*/ /*--- used to run all translations, ---*/ /*--- including no-redir ones. ---*/ /*--- ---*/ /*------------------------------------------------------------*/ /*----------------------------------------------------*/ /*--- Entry and preamble (set everything up) ---*/ /*----------------------------------------------------*/ /* signature: void VG_(disp_run_translations)( UWord* two_words, void* guest_state, Addr host_addr ); */ .text .globl VG_(disp_run_translations) VG_(disp_run_translations): /* a0 ($4) holds two_words */ /* a1 ($5) holds guest_state */ /* a2 ($6) holds host_addr */ /* New stack frame. Stack must remain 16 aligned (at least) */ daddiu $29, -176 /* Save ra */ sd $31, 72($29) /* ... and s0 - s7 */ sd $16, 80($29) sd $17, 88($29) sd $18, 96($29) sd $19, 104($29) sd $20, 112($29) sd $21, 120($29) sd $22, 128($29) sd $23, 136($29) /* ... and gp, fp/s8 */ sd $28, 144($29) sd $30, 152($29) /* Save a0 ($4) on stack. In postamble it will be restored such that the return values can be written */ sd $4, 160($29) /* Load address of guest state into guest state register ($23) */ move $23, $5 /* and jump into the code cache. Chained translations in the code cache run, until for whatever reason, they can't continue. When that happens, the translation in question will jump (or call) to one of the continuation points VG_(cp_...) below. */ jr $6 /*NOTREACHED*/ /*----------------------------------------------------*/ /*--- Postamble and exit. ---*/ /*----------------------------------------------------*/ postamble: /* At this point, $2 and $3 contain two words to be returned to the caller. $2 holds a TRC value, and $3 optionally may hold another word (for CHAIN_ME exits, the address of the place to patch.) */ /* Restore $4 from stack; holds address of two_words */ ld $4, 160($29) #if defined(VGABI_64) sd $2, 0($4) /* Store $2 to two_words[0] */ sd $3, 8($4) /* Store $3 to two_words[1] */ #elif defined(VGABI_N32) sw $2, 0($4) /* Store $2 to two_words[0] */ sw $3, 4($4) /* Store $3 to two_words[1] */ #else #error unknown mips64 abi #endif /* Restore callee-saved registers... */ /* Restore ra */ ld $31, 72($29) /* ... and s0 - s7 */ ld $16, 80($29) ld $17, 88($29) ld $18, 96($29) ld $19, 104($29) ld $20, 112($29) ld $21, 120($29) ld $22, 128($29) ld $23, 136($29) /* ... and gp, fp/s8 */ ld $28, 144($29) ld $30, 152($29) daddiu $29, 176 /* stack_size */ jr $31 nop /*----------------------------------------------------*/ /*--- Continuation points ---*/ /*----------------------------------------------------*/ /* ------ Chain me to slow entry point ------ */ .global VG_(disp_cp_chain_me_to_slowEP) VG_(disp_cp_chain_me_to_slowEP): /* We got called. The return address indicates where the patching needs to happen. Collect the return address and, exit back to C land, handing the caller the pair (Chain_me_S, RA) */ li $2, VG_TRC_CHAIN_ME_TO_SLOW_EP move $3, $31 /* 8 = mkLoadImm_EXACTLY2or6 4 = jalr $9 4 = nop */ daddiu $3, $3, -32 b postamble /* ------ Chain me to slow entry point ------ */ .global VG_(disp_cp_chain_me_to_fastEP) VG_(disp_cp_chain_me_to_fastEP): /* We got called. The return address indicates where the patching needs to happen. Collect the return address and, exit back to C land, handing the caller the pair (Chain_me_S, RA) */ li $2, VG_TRC_CHAIN_ME_TO_FAST_EP move $3, $31 /* 8 = mkLoadImm_EXACTLY2or6 4 = jalr $9 4 = nop */ daddiu $3, $3, -32 b postamble /* ------ Indirect but boring jump ------ */ .global VG_(disp_cp_xindir) VG_(disp_cp_xindir): /* Where are we going? */ ld $10, OFFSET_mips64_PC($23) /* stats only */ lw $15, VG_(stats__n_xIndirs_32) addiu $15, $15, 1 sw $15, VG_(stats__n_xIndirs_32) // LIVE: r23 (guest state ptr), r10 (guest address to go to). // We use 6 temporaries: // r16 (to point at the relevant FastCacheSet), // r11, r12, r13 (scratch, for swapping entries within a set) // r14, r15 (other scratch) /* Try a fast lookup in the translation cache. This is pretty much a handcoded version of VG_(lookupInFastCache). */ // Compute r16 = VG_TT_FAST_HASH(guest) dsrl $16, $10, 2 // g2 = guest >> 2 dsrl $15, $10, (VG_TT_FAST_BITS + 2) // (g2 >> VG_TT_FAST_BITS) xor $16, $16, $15 // (g2 >> VG_TT_FAST_BITS) ^ g2 li $15, VG_TT_FAST_MASK and $16, $16, $15 // setNo // Compute r16 = &VG_(tt_fast)[r16] dla $15, VG_(tt_fast) dsll $16, $16, VG_FAST_CACHE_SET_BITS daddu $16, $16, $15 // LIVE: r23 (guest state ptr), r10 (guest addr), r16 (cache set) // try way 0 ld $14, FCS_g0($16) // .guest0 ld $15, FCS_h0($16) // .host0 bne $14, $10, 1f // cmp against .guest0 // hit at way 0 // goto .host0 jr $15 /*NOTREACHED*/ .long 0x0 1: // try way 1 #if defined(VGABI_64) ld $14, FCS_g1($16) bne $14, $10, 2f // cmp against .guest1 // hit at way 1; swap upwards ld $11, FCS_g0($16) // $11 = old .guest0 ld $12, FCS_h0($16) // $12 = old .host0 ld $13, FCS_h1($16) // $13 = old .host1 sd $10, FCS_g0($16) // new .guest0 = guest sd $13, FCS_h0($16) // new .host0 = old .host1 sd $11, FCS_g1($16) // new .guest1 = old .guest0 sd $12, FCS_h1($16) // new .host1 = old .host0 #elif defined(VGABI_N32) lw $14, FCS_g1($16) bne $14, $10, 2f lw $11, FCS_g0($16) lw $12, FCS_h0($16) lw $13, FCS_h1($16) sw $10, FCS_g0($16) sw $13, FCS_h0($16) sw $11, FCS_g1($16) sw $12, FCS_h1($16) #endif // stats only lw $15, VG_(stats__n_xIndir_hits1_32) addiu $15, $15, 1 sw $15, VG_(stats__n_xIndir_hits1_32) // goto old .host1 a.k.a. new .host0 jr $13 /*NOTREACHED*/ .long 0x0 2: // try way 2 #if defined(VGABI_64) ld $14, FCS_g2($16) bne $14, $10, 3f // cmp against .guest2 // hit at way 2; swap upwards ld $11, FCS_g1($16) ld $12, FCS_h1($16) ld $13, FCS_h2($16) sd $10, FCS_g1($16) sd $13, FCS_h1($16) sd $11, FCS_g2($16) sd $12, FCS_h2($16) #elif defined(VGABI_N32) lw $14, FCS_g2($16) bne $14, $10, 3f lw $11, FCS_g1($16) lw $12, FCS_h1($16) lw $13, FCS_h2($16) sw $10, FCS_g1($16) sw $13, FCS_h1($16) sw $11, FCS_g2($16) sw $12, FCS_h2($16) #endif // stats only lw $15, VG_(stats__n_xIndir_hits2_32) addiu $15, $15, 1 sw $15, VG_(stats__n_xIndir_hits2_32) // goto old .host2 a.k.a. new .host1 jr $13 /*NOTREACHED*/ .long 0x0 3: // try way 3 #if defined(VGABI_64) ld $14, FCS_g3($16) bne $14, $10, 4f // cmp against .guest3 // hit at way 3; swap upwards ld $11, FCS_g2($16) ld $12, FCS_h2($16) ld $13, FCS_h3($16) sd $10, FCS_g2($16) sd $13, FCS_h2($16) sd $11, FCS_g3($16) sd $12, FCS_h3($16) #elif defined(VGABI_N32) lw $14, FCS_g3($16) bne $14, $10, 4f lw $11, FCS_g2($16) lw $12, FCS_h2($16) lw $13, FCS_h3($16) sw $10, FCS_g2($16) sw $13, FCS_h2($16) sw $11, FCS_g3($16) sw $12, FCS_h3($16) #endif // stats only lw $15, VG_(stats__n_xIndir_hits3_32) addiu $15, $15, 1 sw $15, VG_(stats__n_xIndir_hits3_32) // goto old .host3 a.k.a. new .host2 jr $13 /*NOTREACHED*/ .long 0x0 4: // fast lookup failed: /* stats only */ lw $15, VG_(stats__n_xIndir_misses_32) addiu $15, $15, 1 sw $15, VG_(stats__n_xIndir_misses_32) li $2, VG_TRC_INNER_FASTMISS li $3, 0 b postamble /*NOTREACHED*/ .long 0x0 /* ------ Assisted jump ------ */ .global VG_(disp_cp_xassisted) VG_(disp_cp_xassisted): /* guest-state-pointer contains the TRC. Put the value into the return register */ move $2, $23 move $3, $0 b postamble /* ------ Event check failed ------ */ .global VG_(disp_cp_evcheck_fail) VG_(disp_cp_evcheck_fail): li $2, VG_TRC_INNER_COUNTERZERO move $3, $0 b postamble .size VG_(disp_run_translations), .-VG_(disp_run_translations) #endif // defined(VGP_mips64_linux) /* Let the linker know we don't need an executable stack */ MARK_STACK_NO_EXEC /*--------------------------------------------------------------------*/ /*--- end ---*/ /*--------------------------------------------------------------------*/