mirror of
https://github.com/yuzu-emu/unicorn.git
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e4d123caa9
Some architectures (e.g. ARMv8) need the address which is aligned to a size more than the size of the memory access. To support such check it's enough the current costless alignment check implementation in QEMU, but we need to support an alignment size specifying. Backports commit 1f00b27f17518a1bcb4cedca49eaec96a4d560bd from qemu
346 lines
10 KiB
C
346 lines
10 KiB
C
/*
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* defines common to all virtual CPUs
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*
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* Copyright (c) 2003 Fabrice Bellard
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library 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 GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef CPU_ALL_H
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#define CPU_ALL_H
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#include "qemu-common.h"
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#include "exec/cpu-common.h"
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#include "exec/memory.h"
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#include "qemu/thread.h"
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#include "qom/cpu.h"
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#define EXCP_INTERRUPT 0x10000 /* async interruption */
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#define EXCP_HLT 0x10001 /* hlt instruction reached */
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#define EXCP_DEBUG 0x10002 /* cpu stopped after a breakpoint or singlestep */
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#define EXCP_HALTED 0x10003 /* cpu is halted (waiting for external event) */
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#define EXCP_YIELD 0x10004 /* cpu wants to yield timeslice to another */
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/* some important defines:
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*
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* HOST_WORDS_BIGENDIAN : if defined, the host cpu is big endian and
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* otherwise little endian.
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*
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* TARGET_WORDS_BIGENDIAN : same for target cpu
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*/
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#if defined(HOST_WORDS_BIGENDIAN) != defined(TARGET_WORDS_BIGENDIAN)
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#define BSWAP_NEEDED
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#endif
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#ifdef BSWAP_NEEDED
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static inline uint16_t tswap16(uint16_t s)
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{
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return bswap16(s);
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}
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static inline uint32_t tswap32(uint32_t s)
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{
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return bswap32(s);
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}
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static inline uint64_t tswap64(uint64_t s)
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{
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return bswap64(s);
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}
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static inline void tswap16s(uint16_t *s)
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{
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*s = bswap16(*s);
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}
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static inline void tswap32s(uint32_t *s)
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{
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*s = bswap32(*s);
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}
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static inline void tswap64s(uint64_t *s)
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{
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*s = bswap64(*s);
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}
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#else
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static inline uint16_t tswap16(uint16_t s)
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{
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return s;
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}
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static inline uint32_t tswap32(uint32_t s)
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{
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return s;
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}
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static inline uint64_t tswap64(uint64_t s)
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{
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return s;
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}
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static inline void tswap16s(uint16_t *s)
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{
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}
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static inline void tswap32s(uint32_t *s)
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{
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}
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static inline void tswap64s(uint64_t *s)
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{
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}
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#endif
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#if TARGET_LONG_SIZE == 4
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#define tswapl(s) tswap32(s)
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#define tswapls(s) tswap32s((uint32_t *)(s))
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#define bswaptls(s) bswap32s(s)
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#else
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#define tswapl(s) tswap64(s)
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#define tswapls(s) tswap64s((uint64_t *)(s))
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#define bswaptls(s) bswap64s(s)
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#endif
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/* CPU memory access without any memory or io remapping */
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/*
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* the generic syntax for the memory accesses is:
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*
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* load: ld{type}{sign}{size}{endian}_{access_type}(ptr)
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*
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* store: st{type}{size}{endian}_{access_type}(ptr, val)
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*
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* type is:
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* (empty): integer access
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* f : float access
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*
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* sign is:
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* (empty): for floats or 32 bit size
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* u : unsigned
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* s : signed
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*
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* size is:
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* b: 8 bits
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* w: 16 bits
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* l: 32 bits
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* q: 64 bits
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*
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* endian is:
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* (empty): target cpu endianness or 8 bit access
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* r : reversed target cpu endianness (not implemented yet)
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* be : big endian (not implemented yet)
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* le : little endian (not implemented yet)
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*
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* access_type is:
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* raw : host memory access
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* user : user mode access using soft MMU
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* kernel : kernel mode access using soft MMU
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*/
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/* target-endianness CPU memory access functions */
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#if defined(TARGET_WORDS_BIGENDIAN)
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#define lduw_p(p) lduw_be_p(p)
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#define ldsw_p(p) ldsw_be_p(p)
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#define ldl_p(p) ldl_be_p(p)
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#define ldq_p(p) ldq_be_p(p)
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#define ldfl_p(p) ldfl_be_p(p)
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#define ldfq_p(p) ldfq_be_p(p)
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#define stw_p(p, v) stw_be_p(p, v)
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#define stl_p(p, v) stl_be_p(p, v)
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#define stq_p(p, v) stq_be_p(p, v)
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#define stfl_p(p, v) stfl_be_p(p, v)
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#define stfq_p(p, v) stfq_be_p(p, v)
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#else
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#define lduw_p(p) lduw_le_p(p)
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#define ldsw_p(p) ldsw_le_p(p)
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#define ldl_p(p) ldl_le_p(p)
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#define ldq_p(p) ldq_le_p(p)
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#define ldfl_p(p) ldfl_le_p(p)
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#define ldfq_p(p) ldfq_le_p(p)
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#define stw_p(p, v) stw_le_p(p, v)
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#define stl_p(p, v) stl_le_p(p, v)
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#define stq_p(p, v) stq_le_p(p, v)
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#define stfl_p(p, v) stfl_le_p(p, v)
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#define stfq_p(p, v) stfq_le_p(p, v)
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#endif
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/* MMU memory access macros */
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#if defined(CONFIG_USER_ONLY)
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#include <assert.h>
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#include "exec/user/abitypes.h"
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/* On some host systems the guest address space is reserved on the host.
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* This allows the guest address space to be offset to a convenient location.
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*/
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#if defined(CONFIG_USE_GUEST_BASE)
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extern unsigned long guest_base;
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extern int have_guest_base;
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extern unsigned long reserved_va;
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#define GUEST_BASE guest_base
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#define RESERVED_VA reserved_va
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#else
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#define GUEST_BASE 0ul
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#define RESERVED_VA 0ul
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#endif
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#define GUEST_ADDR_MAX (RESERVED_VA ? RESERVED_VA : \
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(1ul << TARGET_VIRT_ADDR_SPACE_BITS) - 1)
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#else
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#include "exec/hwaddr.h"
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uint32_t lduw_phys(AddressSpace *as, hwaddr addr);
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uint32_t ldl_phys(AddressSpace *as, hwaddr addr);
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uint64_t ldq_phys(AddressSpace *as, hwaddr addr);
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void stl_phys_notdirty(AddressSpace *as, hwaddr addr, uint32_t val);
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void stw_phys(AddressSpace *as, hwaddr addr, uint32_t val);
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void stl_phys(AddressSpace *as, hwaddr addr, uint32_t val);
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void stq_phys(AddressSpace *as, hwaddr addr, uint64_t val);
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uint32_t address_space_lduw(AddressSpace *as, hwaddr addr,
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MemTxAttrs attrs, MemTxResult *result);
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uint32_t address_space_ldl(AddressSpace *as, hwaddr addr,
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MemTxAttrs attrs, MemTxResult *result);
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uint64_t address_space_ldq(AddressSpace *as, hwaddr addr,
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MemTxAttrs attrs, MemTxResult *result);
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void address_space_stl_notdirty(AddressSpace *as, hwaddr addr, uint32_t val,
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MemTxAttrs attrs, MemTxResult *result);
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void address_space_stw(AddressSpace *as, hwaddr addr, uint32_t val,
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MemTxAttrs attrs, MemTxResult *result);
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void address_space_stl(AddressSpace *as, hwaddr addr, uint32_t val,
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MemTxAttrs attrs, MemTxResult *result);
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void address_space_stq(AddressSpace *as, hwaddr addr, uint64_t val,
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MemTxAttrs attrs, MemTxResult *result);
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#endif
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/* page related stuff */
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#define TARGET_PAGE_SIZE (1 << TARGET_PAGE_BITS)
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#define TARGET_PAGE_MASK ~(TARGET_PAGE_SIZE - 1)
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#define TARGET_PAGE_ALIGN(addr) (((addr) + TARGET_PAGE_SIZE - 1) & TARGET_PAGE_MASK)
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#define HOST_PAGE_ALIGN(addr) (((addr) + qemu_host_page_size - 1) & qemu_host_page_mask)
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#define REAL_HOST_PAGE_ALIGN(addr) (((addr) + qemu_real_host_page_size - 1) & \
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qemu_real_host_page_mask)
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/* same as PROT_xxx */
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#define PAGE_READ 0x0001
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#define PAGE_WRITE 0x0002
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#define PAGE_EXEC 0x0004
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#define PAGE_BITS (PAGE_READ | PAGE_WRITE | PAGE_EXEC)
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#define PAGE_VALID 0x0008
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/* original state of the write flag (used when tracking self-modifying
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code */
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#define PAGE_WRITE_ORG 0x0010
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#if defined(CONFIG_BSD) && defined(CONFIG_USER_ONLY)
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/* FIXME: Code that sets/uses this is broken and needs to go away. */
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#define PAGE_RESERVED 0x0020
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#endif
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#if defined(CONFIG_USER_ONLY)
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//void page_dump(FILE *f);
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int page_get_flags(target_ulong address);
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#endif
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CPUArchState *cpu_copy(CPUArchState *env);
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/* Flags for use in ENV->INTERRUPT_PENDING.
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The numbers assigned here are non-sequential in order to preserve
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binary compatibility with the vmstate dump. Bit 0 (0x0001) was
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previously used for CPU_INTERRUPT_EXIT, and is cleared when loading
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the vmstate dump. */
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/* External hardware interrupt pending. This is typically used for
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interrupts from devices. */
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#define CPU_INTERRUPT_HARD 0x0002
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/* Exit the current TB. This is typically used when some system-level device
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makes some change to the memory mapping. E.g. the a20 line change. */
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#define CPU_INTERRUPT_EXITTB 0x0004
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/* Halt the CPU. */
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#define CPU_INTERRUPT_HALT 0x0020
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/* Debug event pending. */
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#define CPU_INTERRUPT_DEBUG 0x0080
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/* Reset signal. */
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#define CPU_INTERRUPT_RESET 0x0400
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/* Several target-specific external hardware interrupts. Each target/cpu.h
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should define proper names based on these defines. */
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#define CPU_INTERRUPT_TGT_EXT_0 0x0008
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#define CPU_INTERRUPT_TGT_EXT_1 0x0010
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#define CPU_INTERRUPT_TGT_EXT_2 0x0040
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#define CPU_INTERRUPT_TGT_EXT_3 0x0200
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#define CPU_INTERRUPT_TGT_EXT_4 0x1000
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/* Several target-specific internal interrupts. These differ from the
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preceding target-specific interrupts in that they are intended to
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originate from within the cpu itself, typically in response to some
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instruction being executed. These, therefore, are not masked while
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single-stepping within the debugger. */
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#define CPU_INTERRUPT_TGT_INT_0 0x0100
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#define CPU_INTERRUPT_TGT_INT_1 0x0800
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#define CPU_INTERRUPT_TGT_INT_2 0x2000
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/* First unused bit: 0x4000. */
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/* The set of all bits that should be masked when single-stepping. */
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#define CPU_INTERRUPT_SSTEP_MASK \
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(CPU_INTERRUPT_HARD \
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| CPU_INTERRUPT_TGT_EXT_0 \
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| CPU_INTERRUPT_TGT_EXT_1 \
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| CPU_INTERRUPT_TGT_EXT_2 \
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| CPU_INTERRUPT_TGT_EXT_3 \
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| CPU_INTERRUPT_TGT_EXT_4)
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#if !defined(CONFIG_USER_ONLY)
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/* memory API */
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/* Flags stored in the low bits of the TLB virtual address. These are
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* defined so that fast path ram access is all zeros.
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* The flags all must be between TARGET_PAGE_BITS and
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* maximum address alignment bit.
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*/
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/* Zero if TLB entry is valid. */
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#define TLB_INVALID_MASK (1 << (TARGET_PAGE_BITS - 1))
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/* Set if TLB entry references a clean RAM page. The iotlb entry will
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contain the page physical address. */
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#define TLB_NOTDIRTY (1 << (TARGET_PAGE_BITS - 2))
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/* Set if TLB entry is an IO callback. */
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#define TLB_MMIO (1 << (TARGET_PAGE_BITS - 3))
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/* Use this mask to check interception with an alignment mask
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* in a TCG backend.
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*/
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#define TLB_FLAGS_MASK (TLB_INVALID_MASK | TLB_NOTDIRTY | TLB_MMIO)
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ram_addr_t last_ram_offset(struct uc_struct *uc);
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void qemu_mutex_lock_ramlist(struct uc_struct *uc);
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void qemu_mutex_unlock_ramlist(struct uc_struct *uc);
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#endif /* !CONFIG_USER_ONLY */
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int cpu_memory_rw_debug(CPUState *cpu, target_ulong addr,
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uint8_t *buf, int len, int is_write);
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#endif /* CPU_ALL_H */
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