mirror of
https://github.com/Zenithsiz/ftmemsim-valgrind.git
synced 2026-02-03 10:05:29 +00:00
665280aeaf
This patch changes the interface and behaviour of VG_(demangle) and VG_(maybe_Z_demangle). Instead of copying the demangled name into a fixed sized buffer that is passed in from the caller (HChar *buf, Int n_buf), the demangling functions will now return a pointer to the full-length demangled name (HChar **result). It is the caller's responsiblilty to make a copy if needed. This change in function parameters ripples upward - first: to get_sym_name - then to the convenience wrappers - VG_(get_fnname) - VG_(get_fnname_w_offset) - VG_(get_fnname_if_entry) - VG_(get_fnname_raw) - VG_(get_fnname_no_cxx_demangle) - VG_(get_datasym_and_offset) The changes in foComplete then forces the arguments of - VG_(get_objname) to be changed as well There are some issues regarding the ownership and persistence of character strings to consider. In general, the returned character string is owned by "somebody else" which means the caller must not free it. Also, the caller must not modify the returned string as it possibly points to read only memory. Additionally, the returned string is not necessarily persistent. Here are the scenarios: - the returned string is a demangled function name in which case the memory holding the string will be freed when the demangler is called again. - the returned string hangs off of a DebugInfo structure in which case it will be freed when the DebugInfo is discarded - the returned string hangs off of a segment in the address space manager in which case it may be overwritten when the segment is merged with another segment So the rule of thunb here is: if in doubt strdup the string. git-svn-id: svn://svn.valgrind.org/valgrind/trunk@14664
314 lines
10 KiB
C
314 lines
10 KiB
C
/* Low level interface to valgrind, for the remote server for GDB integrated
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in valgrind.
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Copyright (C) 2011
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Free Software Foundation, Inc.
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This file is part of VALGRIND.
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It has been inspired from a file from gdbserver in gdb 6.6.
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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 2 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, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor,
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Boston, MA 02110-1301, USA. */
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#include "server.h"
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#include "target.h"
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#include "regdef.h"
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#include "regcache.h"
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#include "pub_core_aspacemgr.h"
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#include "pub_core_machine.h"
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#include "pub_core_threadstate.h"
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#include "pub_core_transtab.h"
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#include "pub_core_gdbserver.h"
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#include "pub_core_debuginfo.h"
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#include "valgrind_low.h"
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#include "libvex_guest_arm.h"
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static struct reg regs[] = {
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{ "r0", 0, 32 },
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{ "r1", 32, 32 },
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{ "r2", 64, 32 },
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{ "r3", 96, 32 },
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{ "r4", 128, 32 },
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{ "r5", 160, 32 },
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{ "r6", 192, 32 },
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{ "r7", 224, 32 },
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{ "r8", 256, 32 },
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{ "r9", 288, 32 },
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{ "r10", 320, 32 },
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{ "r11", 352, 32 },
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{ "r12", 384, 32 },
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{ "sp", 416, 32 },
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{ "lr", 448, 32 },
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{ "pc", 480, 32 },
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{ "", 512, 0 }, // It seems these entries are needed
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{ "", 512, 0 }, // as previous versions of arm <-> gdb placed
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{ "", 512, 0 }, // some floating point registers here. So, cpsr
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{ "", 512, 0 }, // must be register 25.
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{ "", 512, 0 },
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{ "", 512, 0 },
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{ "", 512, 0 },
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{ "", 512, 0 },
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{ "", 512, 0 },
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{ "cpsr", 512, 32 },
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{ "d0", 544, 64 },
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{ "d1", 608, 64 },
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{ "d2", 672, 64 },
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{ "d3", 736, 64 },
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{ "d4", 800, 64 },
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{ "d5", 864, 64 },
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{ "d6", 928, 64 },
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{ "d7", 992, 64 },
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{ "d8", 1056, 64 },
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{ "d9", 1120, 64 },
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{ "d10", 1184, 64 },
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{ "d11", 1248, 64 },
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{ "d12", 1312, 64 },
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{ "d13", 1376, 64 },
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{ "d14", 1440, 64 },
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{ "d15", 1504, 64 },
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{ "d16", 1568, 64 },
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{ "d17", 1632, 64 },
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{ "d18", 1696, 64 },
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{ "d19", 1760, 64 },
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{ "d20", 1824, 64 },
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{ "d21", 1888, 64 },
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{ "d22", 1952, 64 },
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{ "d23", 2016, 64 },
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{ "d24", 2080, 64 },
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{ "d25", 2144, 64 },
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{ "d26", 2208, 64 },
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{ "d27", 2272, 64 },
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{ "d28", 2336, 64 },
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{ "d29", 2400, 64 },
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{ "d30", 2464, 64 },
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{ "d31", 2528, 64 },
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{ "fpscr", 2592, 32 }
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};
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static const char *expedite_regs[] = { "r11", "sp", "pc", 0 };
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#define num_regs (sizeof (regs) / sizeof (regs[0]))
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static
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CORE_ADDR get_pc (void)
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{
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unsigned long pc;
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collect_register_by_name ("pc", &pc);
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dlog(1, "stop pc is %p\n", (void *) pc);
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return pc;
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}
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static
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void set_pc (CORE_ADDR newpc)
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{
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Bool mod;
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supply_register_by_name ("pc", &newpc, &mod);
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if (mod)
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dlog(1, "set pc to %p\n", C2v (newpc));
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else
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dlog(1, "set pc not changed %p\n", C2v (newpc));
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}
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Addr thumb_pc (Addr pc)
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{
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// If the thumb bit (bit 0) is already set, we trust it.
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if (pc & 1) {
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dlog (1, "%p = thumb (bit0 is set)\n", C2v (pc));
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return pc;
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}
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// Here, bit 0 is not set.
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// For a pc aligned on 4 bytes, we have to use the debug
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// info to determine the thumb-ness.
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// else (aligned on 2 bytes), we trust this is a thumb
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// address and we set the thumb bit.
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if (pc & 2) {
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dlog (1, "bit0 not set, bit1 set => %p = thumb\n", C2v (pc));
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return pc | 1;
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}
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// pc aligned on 4 bytes. We need to use debug info.
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{
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const HChar *fnname;
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SymAVMAs avmas;
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// If this is a thumb instruction, we need to ask
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// the debug info with the bit0 set
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// (why can't debug info do that for us ???)
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// (why if this is a 4 bytes thumb instruction ???)
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if (VG_(get_fnname_raw) (pc | 1, &fnname)) {
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if (VG_(lookup_symbol_SLOW)( "*", fnname, &avmas )) {
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dlog (1, "fnname %s lookupsym %p => %p %s.\n",
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fnname, C2v(avmas.main), C2v(pc),
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(avmas.main & 1 ? "thumb" : "arm"));
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if (avmas.main & 1)
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return pc | 1;
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else
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return pc;
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} else {
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dlog (1, "%p fnname %s lookupsym failed?. Assume arm\n",
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C2v (pc), fnname);
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return pc;
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}
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} else {
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// Can't find function name. We assume this is arm
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dlog (1, "%p unknown fnname?. Assume arm\n", C2v (pc));
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return pc;
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}
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}
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}
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/* store registers in the guest state (gdbserver_to_valgrind)
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or fetch register from the guest state (valgrind_to_gdbserver). */
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static
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void transfer_register (ThreadId tid, int abs_regno, void * buf,
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transfer_direction dir, int size, Bool *mod)
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{
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ThreadState* tst = VG_(get_ThreadState)(tid);
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int set = abs_regno / num_regs;
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int regno = abs_regno % num_regs;
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*mod = False;
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VexGuestARMState* arm = (VexGuestARMState*) get_arch (set, tst);
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switch (regno) {
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// numbers here have to match the order of regs above
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// Attention: gdb order does not match valgrind order.
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case 0: VG_(transfer) (&arm->guest_R0, buf, dir, size, mod); break;
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case 1: VG_(transfer) (&arm->guest_R1, buf, dir, size, mod); break;
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case 2: VG_(transfer) (&arm->guest_R2, buf, dir, size, mod); break;
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case 3: VG_(transfer) (&arm->guest_R3, buf, dir, size, mod); break;
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case 4: VG_(transfer) (&arm->guest_R4, buf, dir, size, mod); break;
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case 5: VG_(transfer) (&arm->guest_R5, buf, dir, size, mod); break;
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case 6: VG_(transfer) (&arm->guest_R6, buf, dir, size, mod); break;
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case 7: VG_(transfer) (&arm->guest_R7, buf, dir, size, mod); break;
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case 8: VG_(transfer) (&arm->guest_R8, buf, dir, size, mod); break;
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case 9: VG_(transfer) (&arm->guest_R9, buf, dir, size, mod); break;
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case 10: VG_(transfer) (&arm->guest_R10, buf, dir, size, mod); break;
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case 11: VG_(transfer) (&arm->guest_R11, buf, dir, size, mod); break;
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case 12: VG_(transfer) (&arm->guest_R12, buf, dir, size, mod); break;
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case 13: VG_(transfer) (&arm->guest_R13, buf, dir, size, mod); break;
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case 14: VG_(transfer) (&arm->guest_R14, buf, dir, size, mod); break;
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case 15: {
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VG_(transfer) (&arm->guest_R15T, buf, dir, size, mod);
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if (dir == gdbserver_to_valgrind && *mod) {
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// If gdb is changing the PC, we have to set the thumb bit
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// if needed.
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arm->guest_R15T = thumb_pc(arm->guest_R15T);
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}
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break;
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}
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case 16:
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case 17:
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case 18:
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case 19:
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case 20: /* 9 "empty registers". See struct reg regs above. */
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case 21:
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case 22:
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case 23:
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case 24: *mod = False; break;
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case 25: {
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UInt cpsr = LibVEX_GuestARM_get_cpsr (arm);
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if (dir == valgrind_to_gdbserver) {
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VG_(transfer) (&cpsr, buf, dir, size, mod);
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} else {
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# if 0
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UInt newcpsr;
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VG_(transfer) (&newcpsr, buf, dir, size, mod);
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*mod = newcpsr != cpsr;
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// GDBTD ???? see FIXME in guest_arm_helpers.c
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LibVEX_GuestARM_put_flags (newcpsr, arm);
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# else
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*mod = False;
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# endif
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}
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break;
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}
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case 26: VG_(transfer) (&arm->guest_D0, buf, dir, size, mod); break;
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case 27: VG_(transfer) (&arm->guest_D1, buf, dir, size, mod); break;
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case 28: VG_(transfer) (&arm->guest_D2, buf, dir, size, mod); break;
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case 29: VG_(transfer) (&arm->guest_D3, buf, dir, size, mod); break;
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case 30: VG_(transfer) (&arm->guest_D4, buf, dir, size, mod); break;
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case 31: VG_(transfer) (&arm->guest_D5, buf, dir, size, mod); break;
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case 32: VG_(transfer) (&arm->guest_D6, buf, dir, size, mod); break;
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case 33: VG_(transfer) (&arm->guest_D7, buf, dir, size, mod); break;
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case 34: VG_(transfer) (&arm->guest_D8, buf, dir, size, mod); break;
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case 35: VG_(transfer) (&arm->guest_D9, buf, dir, size, mod); break;
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case 36: VG_(transfer) (&arm->guest_D10, buf, dir, size, mod); break;
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case 37: VG_(transfer) (&arm->guest_D11, buf, dir, size, mod); break;
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case 38: VG_(transfer) (&arm->guest_D12, buf, dir, size, mod); break;
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case 39: VG_(transfer) (&arm->guest_D13, buf, dir, size, mod); break;
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case 40: VG_(transfer) (&arm->guest_D14, buf, dir, size, mod); break;
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case 41: VG_(transfer) (&arm->guest_D15, buf, dir, size, mod); break;
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case 42: VG_(transfer) (&arm->guest_D16, buf, dir, size, mod); break;
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case 43: VG_(transfer) (&arm->guest_D17, buf, dir, size, mod); break;
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case 44: VG_(transfer) (&arm->guest_D18, buf, dir, size, mod); break;
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case 45: VG_(transfer) (&arm->guest_D19, buf, dir, size, mod); break;
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case 46: VG_(transfer) (&arm->guest_D20, buf, dir, size, mod); break;
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case 47: VG_(transfer) (&arm->guest_D21, buf, dir, size, mod); break;
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case 48: VG_(transfer) (&arm->guest_D22, buf, dir, size, mod); break;
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case 49: VG_(transfer) (&arm->guest_D23, buf, dir, size, mod); break;
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case 50: VG_(transfer) (&arm->guest_D24, buf, dir, size, mod); break;
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case 51: VG_(transfer) (&arm->guest_D25, buf, dir, size, mod); break;
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case 52: VG_(transfer) (&arm->guest_D26, buf, dir, size, mod); break;
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case 53: VG_(transfer) (&arm->guest_D27, buf, dir, size, mod); break;
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case 54: VG_(transfer) (&arm->guest_D28, buf, dir, size, mod); break;
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case 55: VG_(transfer) (&arm->guest_D29, buf, dir, size, mod); break;
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case 56: VG_(transfer) (&arm->guest_D30, buf, dir, size, mod); break;
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case 57: VG_(transfer) (&arm->guest_D31, buf, dir, size, mod); break;
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case 58: VG_(transfer) (&arm->guest_FPSCR, buf, dir, size, mod); break;
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default: vg_assert(0);
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}
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}
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static
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const char* target_xml (Bool shadow_mode)
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{
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if (shadow_mode) {
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return "arm-with-vfpv3-valgrind.xml";
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} else {
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return "arm-with-vfpv3.xml";
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}
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}
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static CORE_ADDR** target_get_dtv (ThreadState *tst)
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{
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VexGuestARMState* arm = (VexGuestARMState*)&tst->arch.vex;
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// arm dtv is pointed to by TPIDRURO
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return (CORE_ADDR**)((CORE_ADDR)arm->guest_TPIDRURO);
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}
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static struct valgrind_target_ops low_target = {
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num_regs,
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regs,
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13, //SP
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transfer_register,
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get_pc,
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set_pc,
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"arm",
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target_xml,
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target_get_dtv
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};
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void arm_init_architecture (struct valgrind_target_ops *target)
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{
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*target = low_target;
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set_register_cache (regs, num_regs);
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gdbserver_expedite_regs = expedite_regs;
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}
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