static
void synth_ucontext(ThreadId tid, const vki_siginfo_t *si,
UWord trapno, UWord err, const vki_sigset_t *set,
struct vki_ucontext *uc, struct _vki_fpstate *fpstate)
{
ThreadState *tst = VG_(get_ThreadState)(tid);
struct vki_sigcontext *sc = &uc->uc_mcontext;
VG_(memset)(uc, 0, sizeof(*uc));
uc->uc_flags = 0;
uc->uc_link = 0;
uc->uc_sigmask = *set;
uc->uc_stack = tst->altstack;
sc->fpstate = fpstate;
# define SC2(reg,REG) sc->reg = tst->arch.vex.guest_##REG
SC2(gs,GS);
SC2(fs,FS);
SC2(es,ES);
SC2(ds,DS);
SC2(edi,EDI);
SC2(esi,ESI);
SC2(ebp,EBP);
SC2(esp,ESP);
SC2(ebx,EBX);
SC2(edx,EDX);
SC2(ecx,ECX);
SC2(eax,EAX);
SC2(eip,EIP);
SC2(cs,CS);
sc->eflags = LibVEX_GuestX86_get_eflags(&tst->arch.vex);
SC2(ss,SS);
sc->trapno = trapno;
sc->err = err;
# undef SC2
sc->cr2 = (UInt)si->_sifields._sigfault._addr;
}
static void x86_thread_state32_from_vex(i386_thread_state_t *mach,
VexGuestX86State *vex)
{
mach->__eax = vex->guest_EAX;
mach->__ebx = vex->guest_EBX;
mach->__ecx = vex->guest_ECX;
mach->__edx = vex->guest_EDX;
mach->__edi = vex->guest_EDI;
mach->__esi = vex->guest_ESI;
mach->__ebp = vex->guest_EBP;
mach->__esp = vex->guest_ESP;
mach->__ss = vex->guest_SS;
mach->__eflags = LibVEX_GuestX86_get_eflags(vex);
mach->__eip = vex->guest_EIP;
mach->__cs = vex->guest_CS;
mach->__ds = vex->guest_DS;
mach->__es = vex->guest_ES;
mach->__fs = vex->guest_FS;
mach->__gs = vex->guest_GS;
}
void ML_(fill_elfregs_from_tst)(struct vki_user_regs_struct* regs,
const ThreadArchState* arch)
{
regs->eflags = LibVEX_GuestX86_get_eflags( &((ThreadArchState*)arch)->vex );
regs->esp = arch->vex.guest_ESP;
regs->eip = arch->vex.guest_EIP;
regs->ebx = arch->vex.guest_EBX;
regs->ecx = arch->vex.guest_ECX;
regs->edx = arch->vex.guest_EDX;
regs->esi = arch->vex.guest_ESI;
regs->edi = arch->vex.guest_EDI;
regs->ebp = arch->vex.guest_EBP;
regs->eax = arch->vex.guest_EAX;
regs->cs = arch->vex.guest_CS;
regs->ds = arch->vex.guest_DS;
regs->ss = arch->vex.guest_SS;
regs->es = arch->vex.guest_ES;
regs->fs = arch->vex.guest_FS;
regs->gs = arch->vex.guest_GS;
}
static Int ptrace_setregs(Int pid, VexGuestArchState* vex)
{
#if defined(VGP_x86_linux)
struct vki_user_regs_struct regs;
VG_(memset)(®s, 0, sizeof(regs));
regs.cs = vex->guest_CS;
regs.ss = vex->guest_SS;
regs.ds = vex->guest_DS;
regs.es = vex->guest_ES;
regs.fs = vex->guest_FS;
regs.gs = vex->guest_GS;
regs.eax = vex->guest_EAX;
regs.ebx = vex->guest_EBX;
regs.ecx = vex->guest_ECX;
regs.edx = vex->guest_EDX;
regs.esi = vex->guest_ESI;
regs.edi = vex->guest_EDI;
regs.ebp = vex->guest_EBP;
regs.esp = vex->guest_ESP;
regs.eflags = LibVEX_GuestX86_get_eflags(vex);
regs.eip = vex->guest_EIP;
return VG_(ptrace)(VKI_PTRACE_SETREGS, pid, NULL, ®s);
#elif defined(VGP_amd64_linux)
struct vki_user_regs_struct regs;
VG_(memset)(®s, 0, sizeof(regs));
regs.rax = vex->guest_RAX;
regs.rbx = vex->guest_RBX;
regs.rcx = vex->guest_RCX;
regs.rdx = vex->guest_RDX;
regs.rsi = vex->guest_RSI;
regs.rdi = vex->guest_RDI;
regs.rbp = vex->guest_RBP;
regs.rsp = vex->guest_RSP;
regs.r8 = vex->guest_R8;
regs.r9 = vex->guest_R9;
regs.r10 = vex->guest_R10;
regs.r11 = vex->guest_R11;
regs.r12 = vex->guest_R12;
regs.r13 = vex->guest_R13;
regs.r14 = vex->guest_R14;
regs.r15 = vex->guest_R15;
regs.eflags = LibVEX_GuestAMD64_get_rflags(vex);
regs.rip = vex->guest_RIP;
/* Set %{c,d,e,f,s,g}s and %{fs,gs}_base (whatever those are) to
values which don't fail the kernel's sanity checks. I have no
idea what these should really be set to. Anyway, mostly it
seems that zero is an allowable value, except for %cs and %ss
which have to have their lowest 2 bits be 11. See putreg() in
linux-2.6.23/arch/x86_64/kernel/ptrace.c for the apparently
relevant sanity checks. This fixes #145622. */
regs.cs = 3;
regs.ds = 0;
regs.es = 0;
regs.fs = 0;
regs.ss = 3;
regs.gs = 0;
regs.fs_base = 0;
regs.gs_base = 0;
return VG_(ptrace)(VKI_PTRACE_SETREGS, pid, NULL, ®s);
#elif defined(VGP_ppc32_linux)
Int rc = 0;
/* apparently the casting to void* is the Right Thing To Do */
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R0 * 4), (void*)vex->guest_GPR0);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R1 * 4), (void*)vex->guest_GPR1);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R2 * 4), (void*)vex->guest_GPR2);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R3 * 4), (void*)vex->guest_GPR3);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R4 * 4), (void*)vex->guest_GPR4);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R5 * 4), (void*)vex->guest_GPR5);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R6 * 4), (void*)vex->guest_GPR6);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R7 * 4), (void*)vex->guest_GPR7);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R8 * 4), (void*)vex->guest_GPR8);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R9 * 4), (void*)vex->guest_GPR9);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R10 * 4), (void*)vex->guest_GPR10);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R11 * 4), (void*)vex->guest_GPR11);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R12 * 4), (void*)vex->guest_GPR12);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R13 * 4), (void*)vex->guest_GPR13);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R14 * 4), (void*)vex->guest_GPR14);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R15 * 4), (void*)vex->guest_GPR15);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R16 * 4), (void*)vex->guest_GPR16);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R17 * 4), (void*)vex->guest_GPR17);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R18 * 4), (void*)vex->guest_GPR18);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R19 * 4), (void*)vex->guest_GPR19);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R20 * 4), (void*)vex->guest_GPR20);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R21 * 4), (void*)vex->guest_GPR21);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R22 * 4), (void*)vex->guest_GPR22);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R23 * 4), (void*)vex->guest_GPR23);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R24 * 4), (void*)vex->guest_GPR24);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R25 * 4), (void*)vex->guest_GPR25);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R26 * 4), (void*)vex->guest_GPR26);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R27 * 4), (void*)vex->guest_GPR27);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R28 * 4), (void*)vex->guest_GPR28);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R29 * 4), (void*)vex->guest_GPR29);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R30 * 4), (void*)vex->guest_GPR30);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R31 * 4), (void*)vex->guest_GPR31);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_NIP * 4), (void*)vex->guest_CIA);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_CCR * 4),
(void*)LibVEX_GuestPPC32_get_CR(vex));
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_LNK * 4), (void*)vex->guest_LR);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_CTR * 4), (void*)vex->guest_CTR);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_XER * 4),
(void*)LibVEX_GuestPPC32_get_XER(vex));
return rc;
#elif defined(VGP_ppc64_linux)
Int rc = 0;
/* FRJ: copied nearly verbatim from the ppc32 case. I compared the
vki-ppc64-linux.h with its ppc32 counterpart and saw no
appreciable differences, other than the registers being 8 bytes
instead of 4. No idea why we don't set all of the entries
declared in vki_pt_regs, but ppc32 doesn't so there must be a
reason.
Finally, note that CR and XER are 32 bits even for ppc64 (see
libvex_guest_ppc64.h), but the vki_pt_regs struct still gives
them 64 bits.
*/
/* apparently the casting to void* is the Right Thing To Do */
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R0 * 8), (void*)vex->guest_GPR0);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R1 * 8), (void*)vex->guest_GPR1);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R2 * 8), (void*)vex->guest_GPR2);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R3 * 8), (void*)vex->guest_GPR3);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R4 * 8), (void*)vex->guest_GPR4);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R5 * 8), (void*)vex->guest_GPR5);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R6 * 8), (void*)vex->guest_GPR6);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R7 * 8), (void*)vex->guest_GPR7);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R8 * 8), (void*)vex->guest_GPR8);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R9 * 8), (void*)vex->guest_GPR9);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R10 * 8), (void*)vex->guest_GPR10);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R11 * 8), (void*)vex->guest_GPR11);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R12 * 8), (void*)vex->guest_GPR12);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R13 * 8), (void*)vex->guest_GPR13);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R14 * 8), (void*)vex->guest_GPR14);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R15 * 8), (void*)vex->guest_GPR15);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R16 * 8), (void*)vex->guest_GPR16);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R17 * 8), (void*)vex->guest_GPR17);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R18 * 8), (void*)vex->guest_GPR18);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R19 * 8), (void*)vex->guest_GPR19);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R20 * 8), (void*)vex->guest_GPR20);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R21 * 8), (void*)vex->guest_GPR21);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R22 * 8), (void*)vex->guest_GPR22);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R23 * 8), (void*)vex->guest_GPR23);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R24 * 8), (void*)vex->guest_GPR24);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R25 * 8), (void*)vex->guest_GPR25);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R26 * 8), (void*)vex->guest_GPR26);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R27 * 8), (void*)vex->guest_GPR27);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R28 * 8), (void*)vex->guest_GPR28);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R29 * 8), (void*)vex->guest_GPR29);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R30 * 8), (void*)vex->guest_GPR30);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R31 * 8), (void*)vex->guest_GPR31);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_NIP * 8), (void*)vex->guest_CIA);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_CCR * 8),
(void*)(long)LibVEX_GuestPPC64_get_CR(vex));
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_LNK * 8), (void*)vex->guest_LR);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_CTR * 8), (void*)vex->guest_CTR);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_XER * 8),
(void*)(long)LibVEX_GuestPPC64_get_XER(vex));
return rc;
#elif defined(VGP_arm_linux)
struct vki_user_regs_struct uregs;
VG_(memset)(&uregs, 0, sizeof(uregs));
uregs.ARM_r0 = vex->guest_R0;
uregs.ARM_r1 = vex->guest_R1;
uregs.ARM_r2 = vex->guest_R2;
uregs.ARM_r3 = vex->guest_R3;
uregs.ARM_r4 = vex->guest_R4;
uregs.ARM_r5 = vex->guest_R5;
uregs.ARM_r6 = vex->guest_R6;
uregs.ARM_r7 = vex->guest_R7;
uregs.ARM_r8 = vex->guest_R8;
uregs.ARM_r9 = vex->guest_R9;
uregs.ARM_r10 = vex->guest_R10;
uregs.ARM_fp = vex->guest_R11;
uregs.ARM_ip = vex->guest_R12;
uregs.ARM_sp = vex->guest_R13;
uregs.ARM_lr = vex->guest_R14;
// Remove the T bit from the bottom of R15T. It will get shipped
// over in CPSR.T instead, since LibVEX_GuestARM_get_cpsr copies
// it from R15T[0].
uregs.ARM_pc = vex->guest_R15T & 0xFFFFFFFE;
uregs.ARM_cpsr = LibVEX_GuestARM_get_cpsr(vex);
return VG_(ptrace)(VKI_PTRACE_SETREGS, pid, NULL, &uregs);
#elif defined(VGP_arm64_linux)
I_die_here;
//ATC
struct vki_user_pt_regs uregs;
VG_(memset)(&uregs, 0, sizeof(uregs));
uregs.regs[0] = vex->guest_X0;
uregs.regs[1] = vex->guest_X1;
uregs.regs[2] = vex->guest_X2;
uregs.regs[3] = vex->guest_X3;
uregs.regs[4] = vex->guest_X4;
uregs.regs[5] = vex->guest_X5;
uregs.regs[6] = vex->guest_X6;
uregs.regs[7] = vex->guest_X7;
uregs.regs[8] = vex->guest_X8;
uregs.regs[9] = vex->guest_X9;
uregs.regs[10] = vex->guest_X10;
uregs.regs[11] = vex->guest_X11;
uregs.regs[12] = vex->guest_X12;
uregs.regs[13] = vex->guest_X13;
uregs.regs[14] = vex->guest_X14;
uregs.regs[15] = vex->guest_X15;
uregs.regs[16] = vex->guest_X16;
uregs.regs[17] = vex->guest_X17;
uregs.regs[18] = vex->guest_X18;
uregs.regs[19] = vex->guest_X19;
uregs.regs[20] = vex->guest_X20;
uregs.regs[21] = vex->guest_X21;
uregs.regs[22] = vex->guest_X22;
uregs.regs[23] = vex->guest_X23;
uregs.regs[24] = vex->guest_X24;
uregs.regs[25] = vex->guest_X25;
uregs.regs[26] = vex->guest_X26;
uregs.regs[27] = vex->guest_X27;
uregs.regs[28] = vex->guest_X28;
uregs.regs[29] = vex->guest_X29;
uregs.regs[30] = vex->guest_X30;
uregs.sp = vex->guest_XSP;
uregs.pc = vex->guest_PC;
uregs.pstate = LibVEX_GuestARM64_get_nzcv(vex); /* is this correct? */
return VG_(ptrace)(VKI_PTRACE_SETREGS, pid, NULL, &uregs);
#elif defined(VGP_x86_darwin)
I_die_here;
#elif defined(VGP_amd64_darwin)
I_die_here;
#elif defined(VGP_s390x_linux)
struct vki_user_regs_struct regs;
vki_ptrace_area pa;
/* We don't set the psw mask and start at offset 8 */
pa.vki_len = (unsigned long) ®s.per_info - (unsigned long) ®s.psw.addr;
pa.vki_process_addr = (unsigned long) ®s.psw.addr;
pa.vki_kernel_addr = 8;
VG_(memset)(®s, 0, sizeof(regs));
regs.psw.addr = vex->guest_IA;
/* We don't set the mask */
regs.gprs[0] = vex->guest_r0;
regs.gprs[1] = vex->guest_r1;
regs.gprs[2] = vex->guest_r2;
regs.gprs[3] = vex->guest_r3;
regs.gprs[4] = vex->guest_r4;
regs.gprs[5] = vex->guest_r5;
regs.gprs[6] = vex->guest_r6;
regs.gprs[7] = vex->guest_r7;
regs.gprs[8] = vex->guest_r8;
regs.gprs[9] = vex->guest_r9;
regs.gprs[10] = vex->guest_r10;
regs.gprs[11] = vex->guest_r11;
regs.gprs[12] = vex->guest_r12;
regs.gprs[13] = vex->guest_r13;
regs.gprs[14] = vex->guest_r14;
regs.gprs[15] = vex->guest_r15;
regs.acrs[0] = vex->guest_a0;
regs.acrs[1] = vex->guest_a1;
regs.acrs[2] = vex->guest_a2;
regs.acrs[3] = vex->guest_a3;
regs.acrs[4] = vex->guest_a4;
regs.acrs[5] = vex->guest_a5;
regs.acrs[6] = vex->guest_a6;
regs.acrs[7] = vex->guest_a7;
regs.acrs[8] = vex->guest_a8;
regs.acrs[9] = vex->guest_a9;
regs.acrs[10] = vex->guest_a10;
regs.acrs[11] = vex->guest_a11;
regs.acrs[12] = vex->guest_a12;
regs.acrs[13] = vex->guest_a13;
regs.acrs[14] = vex->guest_a14;
regs.acrs[15] = vex->guest_a15;
/* only used for system call restart and friends, just use r2 */
regs.orig_gpr2 = vex->guest_r2;
regs.fp_regs.fprs[0].ui = vex->guest_f0;
regs.fp_regs.fprs[1].ui = vex->guest_f1;
regs.fp_regs.fprs[2].ui = vex->guest_f2;
regs.fp_regs.fprs[3].ui = vex->guest_f3;
regs.fp_regs.fprs[4].ui = vex->guest_f4;
regs.fp_regs.fprs[5].ui = vex->guest_f5;
regs.fp_regs.fprs[6].ui = vex->guest_f6;
regs.fp_regs.fprs[7].ui = vex->guest_f7;
regs.fp_regs.fprs[8].ui = vex->guest_f8;
regs.fp_regs.fprs[9].ui = vex->guest_f9;
regs.fp_regs.fprs[10].ui = vex->guest_f10;
regs.fp_regs.fprs[11].ui = vex->guest_f11;
regs.fp_regs.fprs[12].ui = vex->guest_f12;
regs.fp_regs.fprs[13].ui = vex->guest_f13;
regs.fp_regs.fprs[14].ui = vex->guest_f14;
regs.fp_regs.fprs[15].ui = vex->guest_f15;
regs.fp_regs.fpc = vex->guest_fpc;
return VG_(ptrace)(VKI_PTRACE_POKEUSR_AREA, pid, &pa, NULL);
#elif defined(VGP_mips32_linux) || defined(VGP_mips64_linux)
struct vki_user_regs_struct regs;
VG_(memset)(®s, 0, sizeof(regs));
regs.MIPS_r0 = vex->guest_r0;
regs.MIPS_r1 = vex->guest_r1;
regs.MIPS_r2 = vex->guest_r2;
regs.MIPS_r3 = vex->guest_r3;
regs.MIPS_r4 = vex->guest_r4;
regs.MIPS_r5 = vex->guest_r5;
regs.MIPS_r6 = vex->guest_r6;
regs.MIPS_r7 = vex->guest_r7;
regs.MIPS_r8 = vex->guest_r8;
regs.MIPS_r9 = vex->guest_r9;
regs.MIPS_r10 = vex->guest_r10;
regs.MIPS_r11 = vex->guest_r11;
regs.MIPS_r12 = vex->guest_r12;
regs.MIPS_r13 = vex->guest_r13;
regs.MIPS_r14 = vex->guest_r14;
regs.MIPS_r15 = vex->guest_r15;
regs.MIPS_r16 = vex->guest_r16;
regs.MIPS_r17 = vex->guest_r17;
regs.MIPS_r18 = vex->guest_r18;
regs.MIPS_r19 = vex->guest_r19;
regs.MIPS_r20 = vex->guest_r20;
regs.MIPS_r21 = vex->guest_r21;
regs.MIPS_r22 = vex->guest_r22;
regs.MIPS_r23 = vex->guest_r23;
regs.MIPS_r24 = vex->guest_r24;
regs.MIPS_r25 = vex->guest_r25;
regs.MIPS_r26 = vex->guest_r26;
regs.MIPS_r27 = vex->guest_r27;
regs.MIPS_r28 = vex->guest_r28;
regs.MIPS_r29 = vex->guest_r29;
regs.MIPS_r30 = vex->guest_r30;
regs.MIPS_r31 = vex->guest_r31;
return VG_(ptrace)(VKI_PTRACE_SETREGS, pid, NULL, ®s);
#else
# error Unknown arch
#endif
}
/* store registers in the guest state (gdbserver_to_valgrind)
or fetch register from the guest state (valgrind_to_gdbserver). */
static
void transfer_register (ThreadId tid, int abs_regno, void * buf,
transfer_direction dir, int size, Bool *mod)
{
ThreadState* tst = VG_(get_ThreadState)(tid);
int set = abs_regno / num_regs;
int regno = abs_regno % num_regs;
*mod = False;
VexGuestX86State* x86 = (VexGuestX86State*) get_arch (set, tst);
switch (regno) {
// numbers here have to match the order of regs above
// Attention: gdb order does not match valgrind order.
case 0: VG_(transfer) (&x86->guest_EAX, buf, dir, size, mod); break;
case 1: VG_(transfer) (&x86->guest_ECX, buf, dir, size, mod); break;
case 2: VG_(transfer) (&x86->guest_EDX, buf, dir, size, mod); break;
case 3: VG_(transfer) (&x86->guest_EBX, buf, dir, size, mod); break;
case 4: VG_(transfer) (&x86->guest_ESP, buf, dir, size, mod); break;
case 5: VG_(transfer) (&x86->guest_EBP, buf, dir, size, mod); break;
case 6: VG_(transfer) (&x86->guest_ESI, buf, dir, size, mod); break;
case 7: VG_(transfer) (&x86->guest_EDI, buf, dir, size, mod); break;
case 8: VG_(transfer) (&x86->guest_EIP, buf, dir, size, mod); break;
case 9:
if (dir == valgrind_to_gdbserver) {
UInt eflags;
/* we can only retrieve the real flags (set 0)
retrieving shadow flags is not ok */
if (set == 0)
eflags = LibVEX_GuestX86_get_eflags (x86);
else
eflags = 0;
VG_(transfer) (&eflags, buf, dir, size, mod); break;
} else {
*mod = False; //GDBTD? how do we store eflags in libvex_guest_x86.h ???
}
break;
case 10: VG_(transfer) (&x86->guest_CS, buf, dir, size, mod); break;
case 11: VG_(transfer) (&x86->guest_SS, buf, dir, size, mod); break;
case 12: VG_(transfer) (&x86->guest_DS, buf, dir, size, mod); break;
case 13: VG_(transfer) (&x86->guest_ES, buf, dir, size, mod); break;
case 14: VG_(transfer) (&x86->guest_FS, buf, dir, size, mod); break;
case 15: VG_(transfer) (&x86->guest_GS, buf, dir, size, mod); break;
case 16:
case 17:
case 18:
case 19: /* register 16 to 23 are float registers 80 bits but 64 bits in valgrind */
case 20:
case 21:
case 22:
case 23: {
if (dir == valgrind_to_gdbserver) {
UChar fpreg80[10];
convert_f64le_to_f80le ((UChar *)&x86->guest_FPREG[regno-16],
fpreg80);
VG_(transfer) (&fpreg80, buf, dir, sizeof(fpreg80), mod);
} else {
ULong fpreg64;
convert_f80le_to_f64le (buf, (UChar *)&fpreg64);
VG_(transfer) (&x86->guest_FPREG[regno-16], &fpreg64,
dir, sizeof(fpreg64), mod);
}
break;
}
case 24:
if (dir == valgrind_to_gdbserver) {
// vex only models the rounding bits (see libvex_guest_x86.h)
UWord value = 0x037f;
value |= x86->guest_FPROUND << 10;
VG_(transfer)(&value, buf, dir, size, mod);
} else {
*mod = False; // GDBTD???? VEX { "fctrl", 1152, 32 },
}
break;
case 25:
if (dir == valgrind_to_gdbserver) {
UWord value = x86->guest_FC3210;
value |= (x86->guest_FTOP & 7) << 11;
VG_(transfer)(&value, buf, dir, size, mod);
} else {
*mod = False; // GDBTD???? VEX { "fstat", 1184, 32 },
}
break;
case 26:
if (dir == valgrind_to_gdbserver) {
// vex doesn't model these precisely
UWord value =
((x86->guest_FPTAG[0] ? 0 : 3) << 0) |
((x86->guest_FPTAG[1] ? 0 : 3) << 2) |
((x86->guest_FPTAG[2] ? 0 : 3) << 4) |
((x86->guest_FPTAG[3] ? 0 : 3) << 6) |
((x86->guest_FPTAG[4] ? 0 : 3) << 8) |
((x86->guest_FPTAG[5] ? 0 : 3) << 10) |
((x86->guest_FPTAG[6] ? 0 : 3) << 12) |
((x86->guest_FPTAG[7] ? 0 : 3) << 14);
VG_(transfer)(&value, buf, dir, size, mod);
} else {
*mod = False; // GDBTD???? VEX { "ftag", 1216, 32 },
}
break;
case 27: *mod = False; break; // GDBTD???? VEX { "fiseg", 1248, 32 },
case 28: *mod = False; break; // GDBTD???? VEX { "fioff", 1280, 32 },
case 29: *mod = False; break; // GDBTD???? VEX { "foseg", 1312, 32 },
case 30: *mod = False; break; // GDBTD???? VEX { "fooff", 1344, 32 },
case 31: *mod = False; break; // GDBTD???? VEX { "fop", 1376, 32 },
case 32: VG_(transfer) (&x86->guest_XMM0, buf, dir, size, mod); break;
case 33: VG_(transfer) (&x86->guest_XMM1, buf, dir, size, mod); break;
case 34: VG_(transfer) (&x86->guest_XMM2, buf, dir, size, mod); break;
case 35: VG_(transfer) (&x86->guest_XMM3, buf, dir, size, mod); break;
case 36: VG_(transfer) (&x86->guest_XMM4, buf, dir, size, mod); break;
case 37: VG_(transfer) (&x86->guest_XMM5, buf, dir, size, mod); break;
case 38: VG_(transfer) (&x86->guest_XMM6, buf, dir, size, mod); break;
case 39: VG_(transfer) (&x86->guest_XMM7, buf, dir, size, mod); break;
case 40:
if (dir == valgrind_to_gdbserver) {
// vex only models the rounding bits (see libvex_guest_x86.h)
UWord value = 0x1f80;
value |= x86->guest_SSEROUND << 13;
VG_(transfer)(&value, buf, dir, size, mod);
} else {
*mod = False; // GDBTD???? VEX { "mxcsr", 2432, 32 },
}
break;
case 41: *mod = False; break; // GDBTD???? VEX { "orig_eax", 2464, 32 },
default: vg_assert(0);
}
}
static Int ptrace_setregs(Int pid, VexGuestArchState* vex)
{
#if defined(VGP_x86_linux)
struct vki_user_regs_struct regs;
regs.cs = vex->guest_CS;
regs.ss = vex->guest_SS;
regs.ds = vex->guest_DS;
regs.es = vex->guest_ES;
regs.fs = vex->guest_FS;
regs.gs = vex->guest_GS;
regs.eax = vex->guest_EAX;
regs.ebx = vex->guest_EBX;
regs.ecx = vex->guest_ECX;
regs.edx = vex->guest_EDX;
regs.esi = vex->guest_ESI;
regs.edi = vex->guest_EDI;
regs.ebp = vex->guest_EBP;
regs.esp = vex->guest_ESP;
regs.eflags = LibVEX_GuestX86_get_eflags(vex);
regs.eip = vex->guest_EIP;
return VG_(ptrace)(VKI_PTRACE_SETREGS, pid, NULL, ®s);
#elif defined(VGP_amd64_linux)
struct vki_user_regs_struct regs;
regs.rax = vex->guest_RAX;
regs.rbx = vex->guest_RBX;
regs.rcx = vex->guest_RCX;
regs.rdx = vex->guest_RDX;
regs.rsi = vex->guest_RSI;
regs.rdi = vex->guest_RDI;
regs.rbp = vex->guest_RBP;
regs.rsp = vex->guest_RSP;
regs.r8 = vex->guest_R8;
regs.r9 = vex->guest_R9;
regs.r10 = vex->guest_R10;
regs.r11 = vex->guest_R11;
regs.r12 = vex->guest_R12;
regs.r13 = vex->guest_R13;
regs.r14 = vex->guest_R14;
regs.r15 = vex->guest_R15;
regs.eflags = LibVEX_GuestAMD64_get_rflags(vex);
regs.rip = vex->guest_RIP;
return VG_(ptrace)(VKI_PTRACE_SETREGS, pid, NULL, ®s);
#elif defined(VGP_ppc32_linux)
Int rc = 0;
/* apparently the casting to void* is the Right Thing To Do */
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R0 * 4), (void*)vex->guest_GPR0);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R1 * 4), (void*)vex->guest_GPR1);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R2 * 4), (void*)vex->guest_GPR2);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R3 * 4), (void*)vex->guest_GPR3);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R4 * 4), (void*)vex->guest_GPR4);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R5 * 4), (void*)vex->guest_GPR5);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R6 * 4), (void*)vex->guest_GPR6);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R7 * 4), (void*)vex->guest_GPR7);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R8 * 4), (void*)vex->guest_GPR8);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R9 * 4), (void*)vex->guest_GPR9);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R10 * 4), (void*)vex->guest_GPR10);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R11 * 4), (void*)vex->guest_GPR11);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R12 * 4), (void*)vex->guest_GPR12);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R13 * 4), (void*)vex->guest_GPR13);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R14 * 4), (void*)vex->guest_GPR14);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R15 * 4), (void*)vex->guest_GPR15);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R16 * 4), (void*)vex->guest_GPR16);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R17 * 4), (void*)vex->guest_GPR17);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R18 * 4), (void*)vex->guest_GPR18);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R19 * 4), (void*)vex->guest_GPR19);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R20 * 4), (void*)vex->guest_GPR20);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R21 * 4), (void*)vex->guest_GPR21);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R22 * 4), (void*)vex->guest_GPR22);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R23 * 4), (void*)vex->guest_GPR23);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R24 * 4), (void*)vex->guest_GPR24);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R25 * 4), (void*)vex->guest_GPR25);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R26 * 4), (void*)vex->guest_GPR26);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R27 * 4), (void*)vex->guest_GPR27);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R28 * 4), (void*)vex->guest_GPR28);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R29 * 4), (void*)vex->guest_GPR29);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R30 * 4), (void*)vex->guest_GPR30);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R31 * 4), (void*)vex->guest_GPR31);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_NIP * 4), (void*)vex->guest_CIA);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_CCR * 4),
(void*)LibVEX_GuestPPC32_get_CR(vex));
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_LNK * 4), (void*)vex->guest_LR);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_CTR * 4), (void*)vex->guest_CTR);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_XER * 4),
(void*)LibVEX_GuestPPC32_get_XER(vex));
return rc;
#elif defined(VGP_ppc64_linux)
I_die_here;
#elif defined(VGP_ppc32_aix5)
I_die_here;
#elif defined(VGP_ppc64_aix5)
I_die_here;
#else
# error Unknown arch
#endif
}
static Int ptrace_setregs(Int pid, VexGuestArchState* vex)
{
#if defined(VGP_x86_linux)
struct vki_user_regs_struct regs;
VG_(memset)(®s, 0, sizeof(regs));
regs.cs = vex->guest_CS;
regs.ss = vex->guest_SS;
regs.ds = vex->guest_DS;
regs.es = vex->guest_ES;
regs.fs = vex->guest_FS;
regs.gs = vex->guest_GS;
regs.eax = vex->guest_EAX;
regs.ebx = vex->guest_EBX;
regs.ecx = vex->guest_ECX;
regs.edx = vex->guest_EDX;
regs.esi = vex->guest_ESI;
regs.edi = vex->guest_EDI;
regs.ebp = vex->guest_EBP;
regs.esp = vex->guest_ESP;
regs.eflags = LibVEX_GuestX86_get_eflags(vex);
regs.eip = vex->guest_EIP;
return VG_(ptrace)(VKI_PTRACE_SETREGS, pid, NULL, ®s);
#elif defined(VGP_amd64_linux)
struct vki_user_regs_struct regs;
VG_(memset)(®s, 0, sizeof(regs));
regs.rax = vex->guest_RAX;
regs.rbx = vex->guest_RBX;
regs.rcx = vex->guest_RCX;
regs.rdx = vex->guest_RDX;
regs.rsi = vex->guest_RSI;
regs.rdi = vex->guest_RDI;
regs.rbp = vex->guest_RBP;
regs.rsp = vex->guest_RSP;
regs.r8 = vex->guest_R8;
regs.r9 = vex->guest_R9;
regs.r10 = vex->guest_R10;
regs.r11 = vex->guest_R11;
regs.r12 = vex->guest_R12;
regs.r13 = vex->guest_R13;
regs.r14 = vex->guest_R14;
regs.r15 = vex->guest_R15;
regs.eflags = LibVEX_GuestAMD64_get_rflags(vex);
regs.rip = vex->guest_RIP;
/* Set %{c,d,e,f,s,g}s and %{fs,gs}_base (whatever those are) to
values which don't fail the kernel's sanity checks. I have no
idea what these should really be set to. Anyway, mostly it
seems that zero is an allowable value, except for %cs and %ss
which have to have their lowest 2 bits be 11. See putreg() in
linux-2.6.23/arch/x86_64/kernel/ptrace.c for the apparently
relevant sanity checks. This fixes #145622. */
regs.cs = 3;
regs.ds = 0;
regs.es = 0;
regs.fs = 0;
regs.ss = 3;
regs.gs = 0;
regs.fs_base = 0;
regs.gs_base = 0;
return VG_(ptrace)(VKI_PTRACE_SETREGS, pid, NULL, ®s);
#elif defined(VGP_ppc32_linux)
Int rc = 0;
/* apparently the casting to void* is the Right Thing To Do */
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R0 * 4), (void*)vex->guest_GPR0);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R1 * 4), (void*)vex->guest_GPR1);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R2 * 4), (void*)vex->guest_GPR2);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R3 * 4), (void*)vex->guest_GPR3);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R4 * 4), (void*)vex->guest_GPR4);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R5 * 4), (void*)vex->guest_GPR5);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R6 * 4), (void*)vex->guest_GPR6);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R7 * 4), (void*)vex->guest_GPR7);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R8 * 4), (void*)vex->guest_GPR8);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R9 * 4), (void*)vex->guest_GPR9);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R10 * 4), (void*)vex->guest_GPR10);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R11 * 4), (void*)vex->guest_GPR11);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R12 * 4), (void*)vex->guest_GPR12);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R13 * 4), (void*)vex->guest_GPR13);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R14 * 4), (void*)vex->guest_GPR14);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R15 * 4), (void*)vex->guest_GPR15);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R16 * 4), (void*)vex->guest_GPR16);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R17 * 4), (void*)vex->guest_GPR17);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R18 * 4), (void*)vex->guest_GPR18);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R19 * 4), (void*)vex->guest_GPR19);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R20 * 4), (void*)vex->guest_GPR20);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R21 * 4), (void*)vex->guest_GPR21);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R22 * 4), (void*)vex->guest_GPR22);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R23 * 4), (void*)vex->guest_GPR23);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R24 * 4), (void*)vex->guest_GPR24);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R25 * 4), (void*)vex->guest_GPR25);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R26 * 4), (void*)vex->guest_GPR26);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R27 * 4), (void*)vex->guest_GPR27);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R28 * 4), (void*)vex->guest_GPR28);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R29 * 4), (void*)vex->guest_GPR29);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R30 * 4), (void*)vex->guest_GPR30);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R31 * 4), (void*)vex->guest_GPR31);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_NIP * 4), (void*)vex->guest_CIA);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_CCR * 4),
(void*)LibVEX_GuestPPC32_get_CR(vex));
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_LNK * 4), (void*)vex->guest_LR);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_CTR * 4), (void*)vex->guest_CTR);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_XER * 4),
(void*)LibVEX_GuestPPC32_get_XER(vex));
return rc;
#elif defined(VGP_ppc64_linux)
Int rc = 0;
/* FRJ: copied nearly verbatim from the ppc32 case. I compared the
vki-ppc64-linux.h with its ppc32 counterpart and saw no
appreciable differences, other than the registers being 8 bytes
instead of 4. No idea why we don't set all of the entries
declared in vki_pt_regs, but ppc32 doesn't so there must be a
reason.
Finally, note that CR and XER are 32 bits even for ppc64 (see
libvex_guest_ppc64.h), but the vki_pt_regs struct still gives
them 64 bits.
*/
/* apparently the casting to void* is the Right Thing To Do */
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R0 * 8), (void*)vex->guest_GPR0);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R1 * 8), (void*)vex->guest_GPR1);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R2 * 8), (void*)vex->guest_GPR2);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R3 * 8), (void*)vex->guest_GPR3);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R4 * 8), (void*)vex->guest_GPR4);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R5 * 8), (void*)vex->guest_GPR5);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R6 * 8), (void*)vex->guest_GPR6);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R7 * 8), (void*)vex->guest_GPR7);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R8 * 8), (void*)vex->guest_GPR8);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R9 * 8), (void*)vex->guest_GPR9);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R10 * 8), (void*)vex->guest_GPR10);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R11 * 8), (void*)vex->guest_GPR11);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R12 * 8), (void*)vex->guest_GPR12);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R13 * 8), (void*)vex->guest_GPR13);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R14 * 8), (void*)vex->guest_GPR14);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R15 * 8), (void*)vex->guest_GPR15);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R16 * 8), (void*)vex->guest_GPR16);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R17 * 8), (void*)vex->guest_GPR17);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R18 * 8), (void*)vex->guest_GPR18);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R19 * 8), (void*)vex->guest_GPR19);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R20 * 8), (void*)vex->guest_GPR20);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R21 * 8), (void*)vex->guest_GPR21);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R22 * 8), (void*)vex->guest_GPR22);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R23 * 8), (void*)vex->guest_GPR23);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R24 * 8), (void*)vex->guest_GPR24);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R25 * 8), (void*)vex->guest_GPR25);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R26 * 8), (void*)vex->guest_GPR26);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R27 * 8), (void*)vex->guest_GPR27);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R28 * 8), (void*)vex->guest_GPR28);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R29 * 8), (void*)vex->guest_GPR29);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R30 * 8), (void*)vex->guest_GPR30);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_R31 * 8), (void*)vex->guest_GPR31);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_NIP * 8), (void*)vex->guest_CIA);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_CCR * 8),
(void*)(long)LibVEX_GuestPPC64_get_CR(vex));
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_LNK * 8), (void*)vex->guest_LR);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_CTR * 8), (void*)vex->guest_CTR);
rc |= VG_(ptrace)(VKI_PTRACE_POKEUSR, pid, (void*)(VKI_PT_XER * 8),
(void*)(long)LibVEX_GuestPPC64_get_XER(vex));
return rc;
#elif defined(VGP_arm_linux)
struct vki_user_regs_struct uregs;
VG_(memset)(&uregs, 0, sizeof(uregs));
uregs.ARM_r0 = vex->guest_R0;
uregs.ARM_r1 = vex->guest_R1;
uregs.ARM_r2 = vex->guest_R2;
uregs.ARM_r3 = vex->guest_R3;
uregs.ARM_r4 = vex->guest_R4;
uregs.ARM_r5 = vex->guest_R5;
uregs.ARM_r6 = vex->guest_R6;
uregs.ARM_r7 = vex->guest_R7;
uregs.ARM_r8 = vex->guest_R8;
uregs.ARM_r9 = vex->guest_R9;
uregs.ARM_r10 = vex->guest_R10;
uregs.ARM_fp = vex->guest_R11;
uregs.ARM_ip = vex->guest_R12;
uregs.ARM_sp = vex->guest_R13;
uregs.ARM_lr = vex->guest_R14;
uregs.ARM_pc = vex->guest_R15T;
uregs.ARM_cpsr = LibVEX_GuestARM_get_cpsr(vex);
return VG_(ptrace)(VKI_PTRACE_SETREGS, pid, NULL, &uregs);
#elif defined(VGP_ppc32_aix5)
I_die_here;
#elif defined(VGP_ppc64_aix5)
I_die_here;
#elif defined(VGP_x86_darwin)
I_die_here;
#elif defined(VGP_amd64_darwin)
I_die_here;
#else
# error Unknown arch
#endif
}