From: Mike Frysinger Date: Sat, 26 Dec 2015 16:35:03 +0000 (-0500) Subject: sim: mips: delete mmu stubs to move to common sim_{read,write} X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=26f8bf63bf36f9062a5cc1afacf71462a4abe0c8;p=binutils-gdb.git sim: mips: delete mmu stubs to move to common sim_{read,write} The only unique thing about mip's sim_{read,write} helpers is the call to address_translation on the incoming address. When we look closer at that function though, we see it's just a stub that maps physical to virtual, and the cache/return values are hardcoded. If we delete this function, we can then collapse all the callers and drop the custom sim_{read,write} logic entirely. Some day we might want to add MMU support, but when we do, we'll want to have the common layers handle things so all targets benefit. --- diff --git a/sim/mips/ChangeLog b/sim/mips/ChangeLog index 46fd20c6ca5..eb076e460c2 100644 --- a/sim/mips/ChangeLog +++ b/sim/mips/ChangeLog @@ -1,3 +1,22 @@ +2015-12-26 Mike Frysinger + + * interp.c (sim_write, sim_read): Delete. + (store_word): Delete call to AddressTranslation and set paddr=vaddr. + (load_word): Likewise. + * micromips.igen (cache): Likewise. + * mips.igen (do_ll, do_lld, do_sc, do_scd, do_suxc1_32, do_swc1, + do_swxc1, cache, do_load, do_load_left, do_load_right, do_store, + do_store_left, do_store_right, do_load_double, do_store_double): + Likewise. + (do_pref): Delete call to AddressTranslation and stub out Prefetch. + (do_prefx): Likewise. + * sim-main.c (address_translation, prefetch): Delete. + (ifetch32, ifetch16): Delete call to AddressTranslation and set + paddr=vaddr. + * sim-main.h (Uncached, CachedNoncoherent, CachedCoherent, Cached, + address_translation, AddressTranslation, prefetch, Prefetch): Delete. + (LoadMemory, StoreMemory): Delete CCA arg. + 2015-12-24 Mike Frysinger * configure.ac (SIM_SUBTARGET): Drop -DTARGET_TX3904=1. diff --git a/sim/mips/interp.c b/sim/mips/interp.c index 524f5bec8e4..0ca6f1aef20 100644 --- a/sim/mips/interp.c +++ b/sim/mips/interp.c @@ -840,59 +840,6 @@ mips_sim_close (SIM_DESC sd, int quitting) #endif } -int -sim_write (SIM_DESC sd, SIM_ADDR addr, const unsigned char *buffer, int size) -{ - int index; - sim_cpu *cpu = STATE_CPU (sd, 0); /* FIXME */ - - /* Return the number of bytes written, or zero if error. */ -#ifdef DEBUG - sim_io_printf(sd,"sim_write(0x%s,buffer,%d);\n",pr_addr(addr),size); -#endif - - /* We use raw read and write routines, since we do not want to count - the GDB memory accesses in our statistics gathering. */ - - for (index = 0; index < size; index++) - { - address_word vaddr = (address_word)addr + index; - address_word paddr; - int cca; - if (!address_translation (SD, CPU, NULL_CIA, vaddr, isDATA, isSTORE, &paddr, &cca, isRAW)) - break; - if (sim_core_write_buffer (SD, CPU, read_map, buffer + index, paddr, 1) != 1) - break; - } - - return(index); -} - -int -sim_read (SIM_DESC sd, SIM_ADDR addr, unsigned char *buffer, int size) -{ - int index; - sim_cpu *cpu = STATE_CPU (sd, 0); /* FIXME */ - - /* Return the number of bytes read, or zero if error. */ -#ifdef DEBUG - sim_io_printf(sd,"sim_read(0x%s,buffer,%d);\n",pr_addr(addr),size); -#endif /* DEBUG */ - - for (index = 0; (index < size); index++) - { - address_word vaddr = (address_word)addr + index; - address_word paddr; - int cca; - if (!address_translation (SD, CPU, NULL_CIA, vaddr, isDATA, isLOAD, &paddr, &cca, isRAW)) - break; - if (sim_core_read_buffer (SD, CPU, read_map, buffer + index, paddr, 1) != 1) - break; - } - - return(index); -} - int sim_store_register (SIM_DESC sd, int rn, unsigned char *memory, int length) { @@ -1491,26 +1438,21 @@ store_word (SIM_DESC sd, uword64 vaddr, signed_word val) { - address_word paddr; - int uncached; + address_word paddr = vaddr; if ((vaddr & 3) != 0) SignalExceptionAddressStore (); else { - if (AddressTranslation (vaddr, isDATA, isSTORE, &paddr, &uncached, - isTARGET, isREAL)) - { - const uword64 mask = 7; - uword64 memval; - unsigned int byte; - - paddr = (paddr & ~mask) | ((paddr & mask) ^ (ReverseEndian << 2)); - byte = (vaddr & mask) ^ (BigEndianCPU << 2); - memval = ((uword64) val) << (8 * byte); - StoreMemory (uncached, AccessLength_WORD, memval, 0, paddr, vaddr, - isREAL); - } + const uword64 mask = 7; + uword64 memval; + unsigned int byte; + + paddr = (paddr & ~mask) | ((paddr & mask) ^ (ReverseEndian << 2)); + byte = (vaddr & mask) ^ (BigEndianCPU << 2); + memval = ((uword64) val) << (8 * byte); + StoreMemory (AccessLength_WORD, memval, 0, paddr, vaddr, + isREAL); } } @@ -1528,24 +1470,18 @@ load_word (SIM_DESC sd, } else { - address_word paddr; - int uncached; - - if (AddressTranslation (vaddr, isDATA, isLOAD, &paddr, &uncached, - isTARGET, isREAL)) - { - const uword64 mask = 0x7; - const unsigned int reverse = ReverseEndian ? 1 : 0; - const unsigned int bigend = BigEndianCPU ? 1 : 0; - uword64 memval; - unsigned int byte; - - paddr = (paddr & ~mask) | ((paddr & mask) ^ (reverse << 2)); - LoadMemory (&memval,NULL,uncached, AccessLength_WORD, paddr, vaddr, - isDATA, isREAL); - byte = (vaddr & mask) ^ (bigend << 2); - return EXTEND32 (memval >> (8 * byte)); - } + address_word paddr = vaddr; + const uword64 mask = 0x7; + const unsigned int reverse = ReverseEndian ? 1 : 0; + const unsigned int bigend = BigEndianCPU ? 1 : 0; + uword64 memval; + unsigned int byte; + + paddr = (paddr & ~mask) | ((paddr & mask) ^ (reverse << 2)); + LoadMemory (&memval, NULL, AccessLength_WORD, paddr, vaddr, isDATA, + isREAL); + byte = (vaddr & mask) ^ (bigend << 2); + return EXTEND32 (memval >> (8 * byte)); } return 0; diff --git a/sim/mips/micromips.igen b/sim/mips/micromips.igen index f24220e6ce9..d444f6dcd96 100644 --- a/sim/mips/micromips.igen +++ b/sim/mips/micromips.igen @@ -845,11 +845,8 @@ address_word base = GPR[BASE]; address_word offset = EXTEND12 (IMMEDIATE); address_word vaddr = loadstore_ea (SD_, base, offset); - address_word paddr; - int uncached; - if (AddressTranslation (vaddr, isDATA, isLOAD, &paddr, &uncached, - isTARGET, isREAL)) - CacheOp (OP, vaddr, paddr, instruction_0); + address_word paddr = vaddr; + CacheOp (OP, vaddr, paddr, instruction_0); } diff --git a/sim/mips/mips.igen b/sim/mips/mips.igen index 2862eeb02ea..53370bf3dcf 100644 --- a/sim/mips/mips.igen +++ b/sim/mips/mips.igen @@ -782,8 +782,7 @@ address_word offset = EXTEND16 (insn_offset); { address_word vaddr = loadstore_ea (SD_, base, offset); - address_word paddr; - int uncached; + address_word paddr = vaddr; if ((vaddr & 3) != 0) { SIM_CORE_SIGNAL (SD, CPU, cia, read_map, 4, vaddr, read_transfer, @@ -791,23 +790,19 @@ } else { - if (AddressTranslation (vaddr, isDATA, isLOAD, &paddr, &uncached, - isTARGET, isREAL)) - { - unsigned64 memval = 0; - unsigned64 memval1 = 0; - unsigned64 mask = (WITH_TARGET_WORD_BITSIZE == 64 ? 0x7 : 0x3); - unsigned int shift = 2; - unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0); - unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0); - unsigned int byte; - paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift))); - LoadMemory (&memval, &memval1, uncached, AccessLength_WORD, paddr, - vaddr, isDATA, isREAL); - byte = ((vaddr & mask) ^ (bigend << shift)); - GPR[rt] = EXTEND32 (memval >> (8 * byte)); - LLBIT = 1; - } + unsigned64 memval = 0; + unsigned64 memval1 = 0; + unsigned64 mask = (WITH_TARGET_WORD_BITSIZE == 64 ? 0x7 : 0x3); + unsigned int shift = 2; + unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0); + unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0); + unsigned int byte; + paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift))); + LoadMemory (&memval, &memval1, AccessLength_WORD, paddr, vaddr, + isDATA, isREAL); + byte = ((vaddr & mask) ^ (bigend << shift)); + GPR[rt] = EXTEND32 (memval >> (8 * byte)); + LLBIT = 1; } } } @@ -818,8 +813,8 @@ address_word offset = EXTEND16 (roffset); { address_word vaddr = loadstore_ea (SD_, base, offset); - address_word paddr; - int uncached; + address_word paddr = vaddr; + if ((vaddr & 7) != 0) { SIM_CORE_SIGNAL (SD, CPU, cia, read_map, 8, vaddr, read_transfer, @@ -827,16 +822,12 @@ } else { - if (AddressTranslation (vaddr, isDATA, isLOAD, &paddr, &uncached, - isTARGET, isREAL)) - { - unsigned64 memval = 0; - unsigned64 memval1 = 0; - LoadMemory (&memval, &memval1, uncached, AccessLength_DOUBLEWORD, - paddr, vaddr, isDATA, isREAL); - GPR[rt] = memval; - LLBIT = 1; - } + unsigned64 memval = 0; + unsigned64 memval1 = 0; + LoadMemory (&memval, &memval1, AccessLength_DOUBLEWORD, paddr, vaddr, + isDATA, isREAL); + GPR[rt] = memval; + LLBIT = 1; } } } @@ -1084,13 +1075,8 @@ address_word offset = EXTEND16 (insn_offset); { address_word vaddr = loadstore_ea (SD_, base, offset); - address_word paddr; - int uncached; - { - if (AddressTranslation (vaddr, isDATA, isLOAD, &paddr, &uncached, - isTARGET, isREAL)) - Prefetch (uncached, paddr, vaddr, isDATA, hint); - } + address_word paddr = vaddr; + /* Prefetch (paddr, vaddr, isDATA, hint); */ } } @@ -1101,8 +1087,8 @@ address_word offset = EXTEND16 (offsetarg); { address_word vaddr = loadstore_ea (SD_, base, offset); - address_word paddr; - int uncached; + address_word paddr = vaddr; + if ((vaddr & 3) != 0) { SIM_CORE_SIGNAL (SD, CPU, cia, read_map, 4, vaddr, write_transfer, @@ -1110,27 +1096,21 @@ } else { - if (AddressTranslation (vaddr, isDATA, isSTORE, &paddr, &uncached, - isTARGET, isREAL)) - { - unsigned64 memval = 0; - unsigned64 memval1 = 0; - unsigned64 mask = (WITH_TARGET_WORD_BITSIZE == 64 ? 0x7 : 0x3); - address_word reverseendian = - (ReverseEndian ? (mask ^ AccessLength_WORD) : 0); - address_word bigendiancpu = - (BigEndianCPU ? (mask ^ AccessLength_WORD) : 0); - unsigned int byte; - paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian)); - byte = ((vaddr & mask) ^ bigendiancpu); - memval = ((unsigned64) GPR[rt] << (8 * byte)); - if (LLBIT) - { - StoreMemory (uncached, AccessLength_WORD, memval, memval1, - paddr, vaddr, isREAL); - } - GPR[rt] = LLBIT; - } + unsigned64 memval = 0; + unsigned64 memval1 = 0; + unsigned64 mask = (WITH_TARGET_WORD_BITSIZE == 64 ? 0x7 : 0x3); + address_word reverseendian = + (ReverseEndian ? (mask ^ AccessLength_WORD) : 0); + address_word bigendiancpu = + (BigEndianCPU ? (mask ^ AccessLength_WORD) : 0); + unsigned int byte; + paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian)); + byte = ((vaddr & mask) ^ bigendiancpu); + memval = ((unsigned64) GPR[rt] << (8 * byte)); + if (LLBIT) + StoreMemory (AccessLength_WORD, memval, memval1, paddr, vaddr, + isREAL); + GPR[rt] = LLBIT; } } } @@ -1141,8 +1121,8 @@ address_word offset = EXTEND16 (roffset); { address_word vaddr = loadstore_ea (SD_, base, offset); - address_word paddr; - int uncached; + address_word paddr = vaddr; + if ((vaddr & 7) != 0) { SIM_CORE_SIGNAL (SD, CPU, cia, read_map, 8, vaddr, write_transfer, @@ -1150,19 +1130,13 @@ } else { - if (AddressTranslation (vaddr, isDATA, isSTORE, &paddr, &uncached, - isTARGET, isREAL)) - { - unsigned64 memval = 0; - unsigned64 memval1 = 0; - memval = GPR[rt]; - if (LLBIT) - { - StoreMemory (uncached, AccessLength_DOUBLEWORD, memval, memval1, - paddr, vaddr, isREAL); - } - GPR[rt] = LLBIT; - } + unsigned64 memval = 0; + unsigned64 memval1 = 0; + memval = GPR[rt]; + if (LLBIT) + StoreMemory (AccessLength_DOUBLEWORD, memval, memval1, paddr, vaddr, + isREAL); + GPR[rt] = LLBIT; } } } @@ -1649,11 +1623,8 @@ address_word index = GPR[rindex]; { address_word vaddr = loadstore_ea (SD_, base, index); - address_word paddr; - int uncached; - if (AddressTranslation (vaddr, isDATA, isLOAD, &paddr, &uncached, isTARGET, - isREAL)) - Prefetch (uncached, paddr, vaddr, isDATA, hint); + address_word paddr = vaddr; + /* Prefetch (paddr, vaddr, isDATA, hint); */ } } @@ -1716,8 +1687,8 @@ check_fpu (SD_); { address_word vaddr = loadstore_ea (SD_, base, offset); - address_word paddr; - int uncached; + address_word paddr = vaddr; + if ((vaddr & 3) != 0) { SIM_CORE_SIGNAL (SD, CPU, cia, read_map, AccessLength_WORD+1, vaddr, @@ -1725,23 +1696,18 @@ } else { - if (AddressTranslation (vaddr, isDATA, isSTORE, &paddr, &uncached, - isTARGET, isREAL)) - { - uword64 memval = 0; - uword64 memval1 = 0; - uword64 mask = (WITH_TARGET_WORD_BITSIZE == 64 ? 0x7 : 0x3); - address_word reverseendian = - (ReverseEndian ?(mask ^ AccessLength_WORD): 0); - address_word bigendiancpu = - (BigEndianCPU ?(mask ^ AccessLength_WORD): 0); - unsigned int byte; - paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian)); - byte = ((vaddr & mask) ^ bigendiancpu); - memval = (((uword64)COP_SW(1, ft)) << (8 * byte)); - StoreMemory (uncached, AccessLength_WORD, memval, memval1, paddr, - vaddr, isREAL); - } + uword64 memval = 0; + uword64 memval1 = 0; + uword64 mask = (WITH_TARGET_WORD_BITSIZE == 64 ? 0x7 : 0x3); + address_word reverseendian = + (ReverseEndian ? (mask ^ AccessLength_WORD) : 0); + address_word bigendiancpu = + (BigEndianCPU ? (mask ^ AccessLength_WORD) : 0); + unsigned int byte; + paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian)); + byte = ((vaddr & mask) ^ bigendiancpu); + memval = (((uword64)COP_SW(1, ft)) << (8 * byte)); + StoreMemory (AccessLength_WORD, memval, memval1, paddr, vaddr, isREAL); } } } @@ -1754,8 +1720,8 @@ check_u64 (SD_, instruction_0); { address_word vaddr = loadstore_ea (SD_, base, index); - address_word paddr; - int uncached; + address_word paddr = vaddr; + if ((vaddr & 3) != 0) { SIM_CORE_SIGNAL (SD, CPU, cia, read_map, 4, vaddr, write_transfer, @@ -1763,23 +1729,19 @@ } else { - if (AddressTranslation (vaddr, isDATA, isSTORE, &paddr, &uncached, - isTARGET, isREAL)) - { - unsigned64 memval = 0; - unsigned64 memval1 = 0; - unsigned64 mask = (WITH_TARGET_WORD_BITSIZE == 64 ? 0x7 : 0x3); - address_word reverseendian = - (ReverseEndian ? (mask ^ AccessLength_WORD) : 0); - address_word bigendiancpu = - (BigEndianCPU ? (mask ^ AccessLength_WORD) : 0); - unsigned int byte; - paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian)); - byte = ((vaddr & mask) ^ bigendiancpu); - memval = (((unsigned64)COP_SW(1,fs)) << (8 * byte)); - StoreMemory (uncached, AccessLength_WORD, memval, memval1, paddr, - vaddr, isREAL); - } + unsigned64 memval = 0; + unsigned64 memval1 = 0; + unsigned64 mask = (WITH_TARGET_WORD_BITSIZE == 64 ? 0x7 : 0x3); + address_word reverseendian = + (ReverseEndian ? (mask ^ AccessLength_WORD) : 0); + address_word bigendiancpu = + (BigEndianCPU ? (mask ^ AccessLength_WORD) : 0); + unsigned int byte; + paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian)); + byte = ((vaddr & mask) ^ bigendiancpu); + memval = (((unsigned64)COP_SW(1,fs)) << (8 * byte)); + StoreMemory (AccessLength_WORD, memval, memval1, paddr, vaddr, + isREAL); } } } @@ -3163,18 +3125,16 @@ address_word bigendiancpu = (BigEndianCPU ? (mask ^ access) : 0); unsigned int byte; address_word paddr; - int uncached; unsigned64 memval; address_word vaddr; - vaddr = loadstore_ea (SD_, base, offset); + paddr = vaddr = loadstore_ea (SD_, base, offset); if ((vaddr & access) != 0) { SIM_CORE_SIGNAL (SD, STATE_CPU (SD, 0), cia, read_map, access+1, vaddr, read_transfer, sim_core_unaligned_signal); } - AddressTranslation (vaddr, isDATA, isLOAD, &paddr, &uncached, isTARGET, isREAL); paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian)); - LoadMemory (&memval, NULL, uncached, access, paddr, vaddr, isDATA, isREAL); + LoadMemory (&memval, NULL, access, paddr, vaddr, isDATA, isREAL); byte = ((vaddr & mask) ^ bigendiancpu); return (memval >> (8 * byte)); } @@ -3187,7 +3147,6 @@ unsigned int byte; unsigned int word; address_word paddr; - int uncached; unsigned64 memval; address_word vaddr; int nr_lhs_bits; @@ -3195,8 +3154,7 @@ unsigned_word lhs_mask; unsigned_word temp; - vaddr = loadstore_ea (SD_, base, offset); - AddressTranslation (vaddr, isDATA, isLOAD, &paddr, &uncached, isTARGET, isREAL); + paddr = vaddr = loadstore_ea (SD_, base, offset); paddr = (paddr ^ (reverseendian & mask)); if (BigEndianMem == 0) paddr = paddr & ~access; @@ -3213,7 +3171,7 @@ (long) ((unsigned64) paddr >> 32), (long) paddr, word, byte, nr_lhs_bits, nr_rhs_bits); */ - LoadMemory (&memval, NULL, uncached, byte, paddr, vaddr, isDATA, isREAL); + LoadMemory (&memval, NULL, byte, paddr, vaddr, isDATA, isREAL); if (word == 0) { /* GPR{31..32-NR_LHS_BITS} = memval{NR_LHS_BITS-1..0} */ @@ -3242,19 +3200,17 @@ address_word bigendiancpu = (BigEndianCPU ? -1 : 0); unsigned int byte; address_word paddr; - int uncached; unsigned64 memval; address_word vaddr; - vaddr = loadstore_ea (SD_, base, offset); - AddressTranslation (vaddr, isDATA, isLOAD, &paddr, &uncached, isTARGET, isREAL); + paddr = vaddr = loadstore_ea (SD_, base, offset); /* NOTE: SPEC is wrong, has `BigEndianMem == 0' not `BigEndianMem != 0' */ paddr = (paddr ^ (reverseendian & mask)); if (BigEndianMem != 0) paddr = paddr & ~access; byte = ((vaddr & mask) ^ (bigendiancpu & mask)); /* NOTE: SPEC is wrong, had `byte' not `access - byte'. See SW. */ - LoadMemory (&memval, NULL, uncached, access - (access & byte), paddr, vaddr, isDATA, isREAL); + LoadMemory (&memval, NULL, access - (access & byte), paddr, vaddr, isDATA, isREAL); /* printf ("lr: 0x%08lx %d@0x%08lx 0x%08lx\n", (long) paddr, byte, (long) paddr, (long) memval); */ { @@ -4043,20 +3999,18 @@ address_word bigendiancpu = (BigEndianCPU ? (mask ^ access) : 0); unsigned int byte; address_word paddr; - int uncached; unsigned64 memval; address_word vaddr; - vaddr = loadstore_ea (SD_, base, offset); + paddr = vaddr = loadstore_ea (SD_, base, offset); if ((vaddr & access) != 0) { SIM_CORE_SIGNAL (SD, STATE_CPU(SD, 0), cia, read_map, access+1, vaddr, write_transfer, sim_core_unaligned_signal); } - AddressTranslation (vaddr, isDATA, isSTORE, &paddr, &uncached, isTARGET, isREAL); paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian)); byte = ((vaddr & mask) ^ bigendiancpu); memval = (word << (8 * byte)); - StoreMemory (uncached, access, memval, 0, paddr, vaddr, isREAL); + StoreMemory (access, memval, 0, paddr, vaddr, isREAL); } :function:::void:do_store_left:unsigned access, address_word base, address_word offset, unsigned_word rt @@ -4067,14 +4021,12 @@ unsigned int byte; unsigned int word; address_word paddr; - int uncached; unsigned64 memval; address_word vaddr; int nr_lhs_bits; int nr_rhs_bits; - vaddr = loadstore_ea (SD_, base, offset); - AddressTranslation (vaddr, isDATA, isSTORE, &paddr, &uncached, isTARGET, isREAL); + paddr = vaddr = loadstore_ea (SD_, base, offset); paddr = (paddr ^ (reverseendian & mask)); if (BigEndianMem == 0) paddr = paddr & ~access; @@ -4101,7 +4053,7 @@ /* fprintf (stderr, "s[wd]l: 0x%08lx%08lx -> 0x%08lx%08lx\n", (long) ((unsigned64) rt >> 32), (long) rt, (long) ((unsigned64) memval >> 32), (long) memval); */ - StoreMemory (uncached, byte, memval, 0, paddr, vaddr, isREAL); + StoreMemory (byte, memval, 0, paddr, vaddr, isREAL); } :function:::void:do_store_right:unsigned access, address_word base, address_word offset, unsigned_word rt @@ -4111,18 +4063,16 @@ address_word bigendiancpu = (BigEndianCPU ? -1 : 0); unsigned int byte; address_word paddr; - int uncached; unsigned64 memval; address_word vaddr; - vaddr = loadstore_ea (SD_, base, offset); - AddressTranslation (vaddr, isDATA, isSTORE, &paddr, &uncached, isTARGET, isREAL); + paddr = vaddr = loadstore_ea (SD_, base, offset); paddr = (paddr ^ (reverseendian & mask)); if (BigEndianMem != 0) paddr &= ~access; byte = ((vaddr & mask) ^ (bigendiancpu & mask)); memval = (rt << (byte * 8)); - StoreMemory (uncached, access - (access & byte), memval, 0, paddr, vaddr, isREAL); + StoreMemory (access - (access & byte), memval, 0, paddr, vaddr, isREAL); } @@ -5118,24 +5068,20 @@ int bigendian = (BigEndianCPU ? ! ReverseEndian : ReverseEndian); address_word vaddr; address_word paddr; - int uncached; unsigned64 memval; unsigned64 v; - vaddr = loadstore_ea (SD_, base, offset); + paddr = vaddr = loadstore_ea (SD_, base, offset); if ((vaddr & AccessLength_DOUBLEWORD) != 0) { SIM_CORE_SIGNAL (SD, STATE_CPU (SD, 0), cia, read_map, AccessLength_DOUBLEWORD + 1, vaddr, read_transfer, sim_core_unaligned_signal); } - AddressTranslation (vaddr, isDATA, isLOAD, &paddr, &uncached, isTARGET, - isREAL); - LoadMemory (&memval, NULL, uncached, AccessLength_WORD, paddr, vaddr, - isDATA, isREAL); + LoadMemory (&memval, NULL, AccessLength_WORD, paddr, vaddr, isDATA, isREAL); v = (unsigned64)memval; - LoadMemory (&memval, NULL, uncached, AccessLength_WORD, paddr + 4, vaddr + 4, - isDATA, isREAL); + LoadMemory (&memval, NULL, AccessLength_WORD, paddr + 4, vaddr + 4, isDATA, + isREAL); return (bigendian ? ((v << 32) | memval) : (v | (memval << 32))); } @@ -5156,24 +5102,19 @@ int bigendian = (BigEndianCPU ? ! ReverseEndian : ReverseEndian); address_word vaddr; address_word paddr; - int uncached; unsigned64 memval; - vaddr = loadstore_ea (SD_, base, offset); + paddr = vaddr = loadstore_ea (SD_, base, offset); if ((vaddr & AccessLength_DOUBLEWORD) != 0) { SIM_CORE_SIGNAL (SD, STATE_CPU(SD, 0), cia, read_map, AccessLength_DOUBLEWORD + 1, vaddr, write_transfer, sim_core_unaligned_signal); } - AddressTranslation (vaddr, isDATA, isSTORE, &paddr, &uncached, isTARGET, - isREAL); memval = (bigendian ? (v >> 32) : (v & 0xFFFFFFFF)); - StoreMemory (uncached, AccessLength_WORD, memval, 0, paddr, vaddr, - isREAL); + StoreMemory (AccessLength_WORD, memval, 0, paddr, vaddr, isREAL); memval = (bigendian ? (v & 0xFFFFFFFF) : (v >> 32)); - StoreMemory (uncached, AccessLength_WORD, memval, 0, paddr + 4, vaddr + 4, - isREAL); + StoreMemory (AccessLength_WORD, memval, 0, paddr + 4, vaddr + 4, isREAL); } @@ -6379,10 +6320,8 @@ address_word offset = EXTEND16 (OFFSET); { address_word vaddr = loadstore_ea (SD_, base, offset); - address_word paddr; - int uncached; - if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL)) - CacheOp(OP,vaddr,paddr,instruction_0); + address_word paddr = vaddr; + CacheOp(OP, vaddr, paddr, instruction_0); } } diff --git a/sim/mips/sim-main.c b/sim/mips/sim-main.c index 916769e7c1f..d61ce61fc88 100644 --- a/sim/mips/sim-main.c +++ b/sim/mips/sim-main.c @@ -28,81 +28,6 @@ /*---------------------------------------------------------------------------*/ -/* Description from page A-22 of the "MIPS IV Instruction Set" manual - (revision 3.1) */ -/* Translate a virtual address to a physical address and cache - coherence algorithm describing the mechanism used to resolve the - memory reference. Given the virtual address vAddr, and whether the - reference is to Instructions ot Data (IorD), find the corresponding - physical address (pAddr) and the cache coherence algorithm (CCA) - used to resolve the reference. If the virtual address is in one of - the unmapped address spaces the physical address and the CCA are - determined directly by the virtual address. If the virtual address - is in one of the mapped address spaces then the TLB is used to - determine the physical address and access type; if the required - translation is not present in the TLB or the desired access is not - permitted the function fails and an exception is taken. - - NOTE: Normally (RAW == 0), when address translation fails, this - function raises an exception and does not return. */ - -INLINE_SIM_MAIN -(int) -address_translation (SIM_DESC sd, - sim_cpu * cpu, - address_word cia, - address_word vAddr, - int IorD, - int LorS, - address_word * pAddr, - int *CCA, - int raw) -{ - int res = -1; /* TRUE : Assume good return */ - -#ifdef DEBUG - sim_io_printf (sd, "AddressTranslation(0x%s,%s,%s,...);\n", pr_addr (vAddr), (IorD ? "isDATA" : "isINSTRUCTION"), (LorS ? "iSTORE" : "isLOAD")); -#endif - - /* Check that the address is valid for this memory model */ - - /* For a simple (flat) memory model, we simply pass virtual - addressess through (mostly) unchanged. */ - vAddr &= 0xFFFFFFFF; - - *pAddr = vAddr; /* default for isTARGET */ - *CCA = Uncached; /* not used for isHOST */ - - return (res); -} - - - -/* Description from page A-23 of the "MIPS IV Instruction Set" manual - (revision 3.1) */ -/* Prefetch data from memory. Prefetch is an advisory instruction for - which an implementation specific action is taken. The action taken - may increase performance, but must not change the meaning of the - program, or alter architecturally-visible state. */ - -INLINE_SIM_MAIN (void) -prefetch (SIM_DESC sd, - sim_cpu *cpu, - address_word cia, - int CCA, - address_word pAddr, - address_word vAddr, - int DATA, - int hint) -{ -#ifdef DEBUG - sim_io_printf(sd,"Prefetch(%d,0x%s,0x%s,%d,%d);\n",CCA,pr_addr(pAddr),pr_addr(vAddr),DATA,hint); -#endif /* DEBUG */ - - /* For our simple memory model we do nothing */ - return; -} - /* Description from page A-22 of the "MIPS IV Instruction Set" manual (revision 3.1) */ /* Load a value from memory. Use the cache and main memory as @@ -337,15 +262,13 @@ ifetch32 (SIM_DESC SD, address_word reverseendian = (ReverseEndian ? (mask ^ access) : 0); address_word bigendiancpu = (BigEndianCPU ? (mask ^ access) : 0); unsigned int byte; - address_word paddr; - int uncached; + address_word paddr = vaddr; unsigned64 memval; if ((vaddr & access) != 0) SignalExceptionInstructionFetch (); - AddressTranslation (vaddr, isINSTRUCTION, isLOAD, &paddr, &uncached, isTARGET, isREAL); paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian)); - LoadMemory (&memval, NULL, uncached, access, paddr, vaddr, isINSTRUCTION, isREAL); + LoadMemory (&memval, NULL, access, paddr, vaddr, isINSTRUCTION, isREAL); byte = ((vaddr & mask) ^ bigendiancpu); return (memval >> (8 * byte)); } @@ -363,15 +286,13 @@ ifetch16 (SIM_DESC SD, address_word reverseendian = (ReverseEndian ? (mask ^ access) : 0); address_word bigendiancpu = (BigEndianCPU ? (mask ^ access) : 0); unsigned int byte; - address_word paddr; - int uncached; + address_word paddr = vaddr; unsigned64 memval; if ((vaddr & access) != 0) SignalExceptionInstructionFetch (); - AddressTranslation (vaddr, isINSTRUCTION, isLOAD, &paddr, &uncached, isTARGET, isREAL); paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian)); - LoadMemory (&memval, NULL, uncached, access, paddr, vaddr, isINSTRUCTION, isREAL); + LoadMemory (&memval, NULL, access, paddr, vaddr, isINSTRUCTION, isREAL); byte = ((vaddr & mask) ^ bigendiancpu); return (memval >> (8 * byte)); } diff --git a/sim/mips/sim-main.h b/sim/mips/sim-main.h index 88909e58f20..c603df4cc0f 100644 --- a/sim/mips/sim-main.h +++ b/sim/mips/sim-main.h @@ -908,12 +908,6 @@ unsigned64 mdmx_shuffle (SIM_STATE, int, unsigned64, unsigned64); /* The following are generic to all versions of the MIPS architecture to date: */ -/* Memory Access Types (for CCA): */ -#define Uncached (0) -#define CachedNoncoherent (1) -#define CachedCoherent (2) -#define Cached (3) - #define isINSTRUCTION (1 == 0) /* FALSE */ #define isDATA (1 == 1) /* TRUE */ #define isLOAD (1 == 0) /* FALSE */ @@ -942,17 +936,13 @@ unsigned64 mdmx_shuffle (SIM_STATE, int, unsigned64, unsigned64); #define PSIZE (WITH_TARGET_ADDRESS_BITSIZE) -INLINE_SIM_MAIN (int) address_translation (SIM_DESC sd, sim_cpu *, address_word cia, address_word vAddr, int IorD, int LorS, address_word *pAddr, int *CCA, int raw); -#define AddressTranslation(vAddr,IorD,LorS,pAddr,CCA,host,raw) \ -address_translation (SD, CPU, cia, vAddr, IorD, LorS, pAddr, CCA, raw) - INLINE_SIM_MAIN (void) load_memory (SIM_DESC sd, sim_cpu *cpu, address_word cia, uword64* memvalp, uword64* memval1p, int CCA, unsigned int AccessLength, address_word pAddr, address_word vAddr, int IorD); -#define LoadMemory(memvalp,memval1p,CCA,AccessLength,pAddr,vAddr,IorD,raw) \ -load_memory (SD, CPU, cia, memvalp, memval1p, CCA, AccessLength, pAddr, vAddr, IorD) +#define LoadMemory(memvalp,memval1p,AccessLength,pAddr,vAddr,IorD,raw) \ +load_memory (SD, CPU, cia, memvalp, memval1p, 0, AccessLength, pAddr, vAddr, IorD) INLINE_SIM_MAIN (void) store_memory (SIM_DESC sd, sim_cpu *cpu, address_word cia, int CCA, unsigned int AccessLength, uword64 MemElem, uword64 MemElem1, address_word pAddr, address_word vAddr); -#define StoreMemory(CCA,AccessLength,MemElem,MemElem1,pAddr,vAddr,raw) \ -store_memory (SD, CPU, cia, CCA, AccessLength, MemElem, MemElem1, pAddr, vAddr) +#define StoreMemory(AccessLength,MemElem,MemElem1,pAddr,vAddr,raw) \ +store_memory (SD, CPU, cia, 0, AccessLength, MemElem, MemElem1, pAddr, vAddr) INLINE_SIM_MAIN (void) cache_op (SIM_DESC sd, sim_cpu *cpu, address_word cia, int op, address_word pAddr, address_word vAddr, unsigned int instruction); #define CacheOp(op,pAddr,vAddr,instruction) \ @@ -962,10 +952,6 @@ INLINE_SIM_MAIN (void) sync_operation (SIM_DESC sd, sim_cpu *cpu, address_word c #define SyncOperation(stype) \ sync_operation (SD, CPU, cia, (stype)) -INLINE_SIM_MAIN (void) prefetch (SIM_DESC sd, sim_cpu *cpu, address_word cia, int CCA, address_word pAddr, address_word vAddr, int DATA, int hint); -#define Prefetch(CCA,pAddr,vAddr,DATA,hint) \ -prefetch (SD, CPU, cia, CCA, pAddr, vAddr, DATA, hint) - void unpredictable_action (sim_cpu *cpu, address_word cia); #define NotWordValue(val) not_word_value (SD_, (val)) #define Unpredictable() unpredictable (SD_)