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https://sourceware.org/git/binutils-gdb.git
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26f8bf63bf
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.
481 lines
16 KiB
C
481 lines
16 KiB
C
/* Copyright (C) 1998, Cygnus Solutions
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef SIM_MAIN_C
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#define SIM_MAIN_C
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#include "sim-main.h"
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#include "sim-assert.h"
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/*---------------------------------------------------------------------------*/
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/*-- simulator engine -------------------------------------------------------*/
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/*---------------------------------------------------------------------------*/
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/* Description from page A-22 of the "MIPS IV Instruction Set" manual
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(revision 3.1) */
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/* Load a value from memory. Use the cache and main memory as
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specified in the Cache Coherence Algorithm (CCA) and the sort of
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access (IorD) to find the contents of AccessLength memory bytes
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starting at physical location pAddr. The data is returned in the
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fixed width naturally-aligned memory element (MemElem). The
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low-order two (or three) bits of the address and the AccessLength
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indicate which of the bytes within MemElem needs to be given to the
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processor. If the memory access type of the reference is uncached
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then only the referenced bytes are read from memory and valid
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within the memory element. If the access type is cached, and the
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data is not present in cache, an implementation specific size and
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alignment block of memory is read and loaded into the cache to
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satisfy a load reference. At a minimum, the block is the entire
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memory element. */
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INLINE_SIM_MAIN (void)
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load_memory (SIM_DESC SD,
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sim_cpu *CPU,
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address_word cia,
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uword64* memvalp,
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uword64* memval1p,
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int CCA,
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unsigned int AccessLength,
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address_word pAddr,
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address_word vAddr,
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int IorD)
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{
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uword64 value = 0;
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uword64 value1 = 0;
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#ifdef DEBUG
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sim_io_printf(sd,"DBG: LoadMemory(%p,%p,%d,%d,0x%s,0x%s,%s)\n",memvalp,memval1p,CCA,AccessLength,pr_addr(pAddr),pr_addr(vAddr),(IorD ? "isDATA" : "isINSTRUCTION"));
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#endif /* DEBUG */
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#if defined(WARN_MEM)
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if (CCA != uncached)
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sim_io_eprintf(sd,"LoadMemory CCA (%d) is not uncached (currently all accesses treated as cached)\n",CCA);
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#endif /* WARN_MEM */
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if (((pAddr & LOADDRMASK) + AccessLength) > LOADDRMASK)
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{
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/* In reality this should be a Bus Error */
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sim_io_error (SD, "LOAD AccessLength of %d would extend over %d bit aligned boundary for physical address 0x%s\n",
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AccessLength,
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(LOADDRMASK + 1) << 3,
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pr_addr (pAddr));
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}
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dotrace (SD, CPU, tracefh,((IorD == isDATA) ? 0 : 2),(unsigned int)(pAddr&0xFFFFFFFF),(AccessLength + 1),"load%s",((IorD == isDATA) ? "" : " instruction"));
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/* Read the specified number of bytes from memory. Adjust for
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host/target byte ordering/ Align the least significant byte
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read. */
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switch (AccessLength)
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{
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case AccessLength_QUADWORD:
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{
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unsigned_16 val = sim_core_read_aligned_16 (CPU, cia, read_map, pAddr);
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value1 = VH8_16 (val);
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value = VL8_16 (val);
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break;
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}
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case AccessLength_DOUBLEWORD:
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value = sim_core_read_aligned_8 (CPU, cia, read_map, pAddr);
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break;
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case AccessLength_SEPTIBYTE:
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value = sim_core_read_misaligned_7 (CPU, cia, read_map, pAddr);
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break;
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case AccessLength_SEXTIBYTE:
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value = sim_core_read_misaligned_6 (CPU, cia, read_map, pAddr);
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break;
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case AccessLength_QUINTIBYTE:
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value = sim_core_read_misaligned_5 (CPU, cia, read_map, pAddr);
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break;
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case AccessLength_WORD:
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value = sim_core_read_aligned_4 (CPU, cia, read_map, pAddr);
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break;
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case AccessLength_TRIPLEBYTE:
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value = sim_core_read_misaligned_3 (CPU, cia, read_map, pAddr);
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break;
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case AccessLength_HALFWORD:
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value = sim_core_read_aligned_2 (CPU, cia, read_map, pAddr);
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break;
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case AccessLength_BYTE:
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value = sim_core_read_aligned_1 (CPU, cia, read_map, pAddr);
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break;
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default:
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abort ();
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}
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#ifdef DEBUG
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printf("DBG: LoadMemory() : (offset %d) : value = 0x%s%s\n",
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(int)(pAddr & LOADDRMASK),pr_uword64(value1),pr_uword64(value));
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#endif /* DEBUG */
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/* See also store_memory. Position data in correct byte lanes. */
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if (AccessLength <= LOADDRMASK)
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{
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if (BigEndianMem)
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/* for big endian target, byte (pAddr&LOADDRMASK == 0) is
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shifted to the most significant byte position. */
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value <<= (((LOADDRMASK - (pAddr & LOADDRMASK)) - AccessLength) * 8);
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else
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/* For little endian target, byte (pAddr&LOADDRMASK == 0)
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is already in the correct postition. */
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value <<= ((pAddr & LOADDRMASK) * 8);
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}
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#ifdef DEBUG
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printf("DBG: LoadMemory() : shifted value = 0x%s%s\n",
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pr_uword64(value1),pr_uword64(value));
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#endif /* DEBUG */
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*memvalp = value;
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if (memval1p) *memval1p = value1;
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}
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/* Description from page A-23 of the "MIPS IV Instruction Set" manual
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(revision 3.1) */
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/* Store a value to memory. The specified data is stored into the
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physical location pAddr using the memory hierarchy (data caches and
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main memory) as specified by the Cache Coherence Algorithm
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(CCA). The MemElem contains the data for an aligned, fixed-width
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memory element (word for 32-bit processors, doubleword for 64-bit
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processors), though only the bytes that will actually be stored to
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memory need to be valid. The low-order two (or three) bits of pAddr
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and the AccessLength field indicates which of the bytes within the
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MemElem data should actually be stored; only these bytes in memory
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will be changed. */
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INLINE_SIM_MAIN (void)
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store_memory (SIM_DESC SD,
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sim_cpu *CPU,
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address_word cia,
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int CCA,
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unsigned int AccessLength,
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uword64 MemElem,
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uword64 MemElem1, /* High order 64 bits */
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address_word pAddr,
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address_word vAddr)
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{
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#ifdef DEBUG
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sim_io_printf(sd,"DBG: StoreMemory(%d,%d,0x%s,0x%s,0x%s,0x%s)\n",CCA,AccessLength,pr_uword64(MemElem),pr_uword64(MemElem1),pr_addr(pAddr),pr_addr(vAddr));
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#endif /* DEBUG */
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#if defined(WARN_MEM)
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if (CCA != uncached)
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sim_io_eprintf(sd,"StoreMemory CCA (%d) is not uncached (currently all accesses treated as cached)\n",CCA);
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#endif /* WARN_MEM */
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if (((pAddr & LOADDRMASK) + AccessLength) > LOADDRMASK)
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sim_io_error (SD, "STORE AccessLength of %d would extend over %d bit aligned boundary for physical address 0x%s\n",
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AccessLength,
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(LOADDRMASK + 1) << 3,
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pr_addr(pAddr));
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dotrace (SD, CPU, tracefh,1,(unsigned int)(pAddr&0xFFFFFFFF),(AccessLength + 1),"store");
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#ifdef DEBUG
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printf("DBG: StoreMemory: offset = %d MemElem = 0x%s%s\n",(unsigned int)(pAddr & LOADDRMASK),pr_uword64(MemElem1),pr_uword64(MemElem));
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#endif /* DEBUG */
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/* See also load_memory. Position data in correct byte lanes. */
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if (AccessLength <= LOADDRMASK)
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{
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if (BigEndianMem)
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/* for big endian target, byte (pAddr&LOADDRMASK == 0) is
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shifted to the most significant byte position. */
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MemElem >>= (((LOADDRMASK - (pAddr & LOADDRMASK)) - AccessLength) * 8);
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else
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/* For little endian target, byte (pAddr&LOADDRMASK == 0)
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is already in the correct postition. */
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MemElem >>= ((pAddr & LOADDRMASK) * 8);
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}
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#ifdef DEBUG
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printf("DBG: StoreMemory: shift = %d MemElem = 0x%s%s\n",shift,pr_uword64(MemElem1),pr_uword64(MemElem));
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#endif /* DEBUG */
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switch (AccessLength)
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{
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case AccessLength_QUADWORD:
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{
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unsigned_16 val = U16_8 (MemElem1, MemElem);
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sim_core_write_aligned_16 (CPU, cia, write_map, pAddr, val);
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break;
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}
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case AccessLength_DOUBLEWORD:
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sim_core_write_aligned_8 (CPU, cia, write_map, pAddr, MemElem);
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break;
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case AccessLength_SEPTIBYTE:
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sim_core_write_misaligned_7 (CPU, cia, write_map, pAddr, MemElem);
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break;
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case AccessLength_SEXTIBYTE:
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sim_core_write_misaligned_6 (CPU, cia, write_map, pAddr, MemElem);
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break;
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case AccessLength_QUINTIBYTE:
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sim_core_write_misaligned_5 (CPU, cia, write_map, pAddr, MemElem);
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break;
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case AccessLength_WORD:
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sim_core_write_aligned_4 (CPU, cia, write_map, pAddr, MemElem);
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break;
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case AccessLength_TRIPLEBYTE:
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sim_core_write_misaligned_3 (CPU, cia, write_map, pAddr, MemElem);
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break;
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case AccessLength_HALFWORD:
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sim_core_write_aligned_2 (CPU, cia, write_map, pAddr, MemElem);
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break;
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case AccessLength_BYTE:
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sim_core_write_aligned_1 (CPU, cia, write_map, pAddr, MemElem);
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break;
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default:
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abort ();
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}
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return;
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}
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INLINE_SIM_MAIN (unsigned32)
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ifetch32 (SIM_DESC SD,
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sim_cpu *CPU,
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address_word cia,
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address_word vaddr)
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{
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/* Copy the action of the LW instruction */
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address_word mask = LOADDRMASK;
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address_word access = AccessLength_WORD;
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address_word reverseendian = (ReverseEndian ? (mask ^ access) : 0);
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address_word bigendiancpu = (BigEndianCPU ? (mask ^ access) : 0);
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unsigned int byte;
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address_word paddr = vaddr;
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unsigned64 memval;
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if ((vaddr & access) != 0)
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SignalExceptionInstructionFetch ();
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paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian));
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LoadMemory (&memval, NULL, access, paddr, vaddr, isINSTRUCTION, isREAL);
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byte = ((vaddr & mask) ^ bigendiancpu);
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return (memval >> (8 * byte));
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}
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INLINE_SIM_MAIN (unsigned16)
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ifetch16 (SIM_DESC SD,
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sim_cpu *CPU,
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address_word cia,
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address_word vaddr)
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{
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/* Copy the action of the LH instruction */
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address_word mask = LOADDRMASK;
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address_word access = AccessLength_HALFWORD;
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address_word reverseendian = (ReverseEndian ? (mask ^ access) : 0);
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address_word bigendiancpu = (BigEndianCPU ? (mask ^ access) : 0);
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unsigned int byte;
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address_word paddr = vaddr;
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unsigned64 memval;
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if ((vaddr & access) != 0)
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SignalExceptionInstructionFetch ();
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paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverseendian));
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LoadMemory (&memval, NULL, access, paddr, vaddr, isINSTRUCTION, isREAL);
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byte = ((vaddr & mask) ^ bigendiancpu);
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return (memval >> (8 * byte));
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}
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/* Description from page A-26 of the "MIPS IV Instruction Set" manual (revision 3.1) */
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/* Order loads and stores to synchronise shared memory. Perform the
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action necessary to make the effects of groups of synchronizable
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loads and stores indicated by stype occur in the same order for all
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processors. */
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INLINE_SIM_MAIN (void)
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sync_operation (SIM_DESC sd,
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sim_cpu *cpu,
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address_word cia,
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int stype)
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{
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#ifdef DEBUG
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sim_io_printf(sd,"SyncOperation(%d) : TODO\n",stype);
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#endif /* DEBUG */
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return;
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}
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INLINE_SIM_MAIN (void)
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cache_op (SIM_DESC SD,
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sim_cpu *CPU,
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address_word cia,
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int op,
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address_word pAddr,
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address_word vAddr,
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unsigned int instruction)
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{
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#if 1 /* stop warning message being displayed (we should really just remove the code) */
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static int icache_warning = 1;
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static int dcache_warning = 1;
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#else
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static int icache_warning = 0;
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static int dcache_warning = 0;
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#endif
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/* If CP0 is not useable (User or Supervisor mode) and the CP0
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enable bit in the Status Register is clear - a coprocessor
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unusable exception is taken. */
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#if 0
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sim_io_printf(SD,"TODO: Cache availability checking (PC = 0x%s)\n",pr_addr(cia));
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#endif
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switch (op & 0x3) {
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case 0: /* instruction cache */
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switch (op >> 2) {
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case 0: /* Index Invalidate */
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case 1: /* Index Load Tag */
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case 2: /* Index Store Tag */
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case 4: /* Hit Invalidate */
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case 5: /* Fill */
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case 6: /* Hit Writeback */
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if (!icache_warning)
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{
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sim_io_eprintf(SD,"Instruction CACHE operation %d to be coded\n",(op >> 2));
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icache_warning = 1;
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}
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break;
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default:
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SignalException(ReservedInstruction,instruction);
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break;
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}
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break;
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case 1: /* data cache */
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case 3: /* secondary data cache */
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switch (op >> 2) {
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case 0: /* Index Writeback Invalidate */
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case 1: /* Index Load Tag */
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case 2: /* Index Store Tag */
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case 3: /* Create Dirty */
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case 4: /* Hit Invalidate */
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case 5: /* Hit Writeback Invalidate */
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case 6: /* Hit Writeback */
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if (!dcache_warning)
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{
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sim_io_eprintf(SD,"Data CACHE operation %d to be coded\n",(op >> 2));
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dcache_warning = 1;
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}
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break;
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default:
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SignalException(ReservedInstruction,instruction);
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break;
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}
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break;
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default: /* unrecognised cache ID */
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SignalException(ReservedInstruction,instruction);
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break;
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}
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return;
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}
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INLINE_SIM_MAIN (void)
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pending_tick (SIM_DESC SD,
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sim_cpu *CPU,
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address_word cia)
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{
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if (PENDING_TRACE)
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sim_io_eprintf (SD, "PENDING_DRAIN - 0x%lx - pending_in = %d, pending_out = %d, pending_total = %d\n", (unsigned long) cia, PENDING_IN, PENDING_OUT, PENDING_TOTAL);
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if (PENDING_OUT != PENDING_IN)
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{
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int loop;
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int index = PENDING_OUT;
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int total = PENDING_TOTAL;
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if (PENDING_TOTAL == 0)
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sim_engine_abort (SD, CPU, cia, "PENDING_DRAIN - Mis-match on pending update pointers\n");
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for (loop = 0, index = PENDING_OUT;
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(loop < total);
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loop++, index = (index + 1) % PSLOTS)
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{
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if (PENDING_SLOT_DEST[index] != NULL)
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{
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PENDING_SLOT_DELAY[index] -= 1;
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if (PENDING_SLOT_DELAY[index] == 0)
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{
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if (PENDING_TRACE)
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sim_io_eprintf (SD, "PENDING_DRAIN - drained - index %d, dest 0x%lx, bit %d, val 0x%lx, size %d\n",
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index,
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(unsigned long) PENDING_SLOT_DEST[index],
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PENDING_SLOT_BIT[index],
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(unsigned long) PENDING_SLOT_VALUE[index],
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PENDING_SLOT_SIZE[index]);
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if (PENDING_SLOT_BIT[index] >= 0)
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switch (PENDING_SLOT_SIZE[index])
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{
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case 4:
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if (PENDING_SLOT_VALUE[index])
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*(unsigned32*)PENDING_SLOT_DEST[index] |=
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BIT32 (PENDING_SLOT_BIT[index]);
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else
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*(unsigned32*)PENDING_SLOT_DEST[index] &=
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BIT32 (PENDING_SLOT_BIT[index]);
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break;
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case 8:
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if (PENDING_SLOT_VALUE[index])
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*(unsigned64*)PENDING_SLOT_DEST[index] |=
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BIT64 (PENDING_SLOT_BIT[index]);
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else
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*(unsigned64*)PENDING_SLOT_DEST[index] &=
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BIT64 (PENDING_SLOT_BIT[index]);
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break;
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}
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else
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switch (PENDING_SLOT_SIZE[index])
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{
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case 4:
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*(unsigned32*)PENDING_SLOT_DEST[index] =
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PENDING_SLOT_VALUE[index];
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break;
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case 8:
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*(unsigned64*)PENDING_SLOT_DEST[index] =
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PENDING_SLOT_VALUE[index];
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break;
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}
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if (PENDING_OUT == index)
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{
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PENDING_SLOT_DEST[index] = NULL;
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PENDING_OUT = (PENDING_OUT + 1) % PSLOTS;
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PENDING_TOTAL--;
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}
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}
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else if (PENDING_TRACE && PENDING_SLOT_DELAY[index] > 0)
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sim_io_eprintf (SD, "PENDING_DRAIN - queued - index %d, delay %d, dest 0x%lx, bit %d, val 0x%lx, size %d\n",
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index, PENDING_SLOT_DELAY[index],
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(unsigned long) PENDING_SLOT_DEST[index],
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PENDING_SLOT_BIT[index],
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(unsigned long) PENDING_SLOT_VALUE[index],
|
|
PENDING_SLOT_SIZE[index]);
|
|
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
#endif
|