Diff
checker
Texto
Texto
Imágenes
Documentos
Excel
Carpetas
Legal
Enterprise
Aplicación de escritorio
Precios
Iniciar sesión
Descargar Diffchecker Desktop
Comparar texto
Encuentra la diferencia entre dos archivos de texto
Herramientas
Historial
Editor live
Ocultar espacios en blanco
Ocultar sin cambios
Sin ajuste de línea
Vista
Dividido
Unificado
Nivel de detalle
Inteligente
Palabra
Letra
Estilos de texto
Cambiar apariencia
Resaltado de sintaxis
Elegir sintaxis
Ignorar
Transformar texto
Ir al primer cambio
Editar entrada
Diffchecker Desktop
La forma más segura de usar Diffchecker. ¡Obtén la app de Diffchecker Desktop: tus diffs nunca salen de tu computadora!
Obtener Desktop
Untitled diff
Creado
hace 8 años
El diff nunca expira
Borrar
Exportar
Compartir
Explicar
35 eliminaciones
Líneas
Total
Eliminado
Caracteres
Total
Eliminado
Para continuar usando esta función, actualice a
Diff
checker
Pro
Ver precios
213 líneas
Copiar todo
38 adiciones
Líneas
Total
Añadido
Caracteres
Total
Añadido
Para continuar usando esta función, actualice a
Diff
checker
Pro
Ver precios
215 líneas
Copiar todo
__int64 __usercall si_pmu_set_lpoclk@<rax>(char a1@<al>, __int64 a2@<rdi>, __int64 a3@<rsi>, char a4)
__int64 __usercall si_pmu_set_lpoclk@<rax>(char a1@<al>, __int64 a2@<rdi>, __int64 a3@<rsi>, char a4)
{
{
__int64 v4; // rbx
__int64 v4; // rbx
__int64 v5; // r14
__int64 v5; // r14
__int64 result; // rax
__int64 result; // rax
int v7; // er13
int v7; // er13
int v8; // er15
int v8; // er15
bool v9; // zf
bool v9; // zf
__int64 v10; // r15
__int64 v10; // r15
__int64 v11; // rsi
__int64 v11; // rsi
int v12; // ecx
int v12; // ecx
__int64 v13; // r15
__int64 v13; // r15
__int64 v14; // rsi
__int64 v14; // rsi
__int64 v15; // rax
__int64 v15; // rax
__int64 v16; // rax
__int64 v16; // rax
unsigned int v17; // ebx
unsigned int v17; // ebx
__int64 v18; // rsi
__int64 v18; // rsi
__int64 v19; // rdi
__int64 v19; // rdi
__int64 v20; // rax
__int64 v20; // rax
__int64 v21; // rax
__int64 v21; // rax
int v22; // eax
int v22; // eax
__int64 v23; // rsi
__int64 v23; // rsi
__int64 v24; // rdi
__int64 v24; // rdi
__int64 v25; // rax
__int64 v25; // rax
unsigned int v26; // ebx
unsigned int v26; // ebx
__int64 v27; // rsi
__int64 v27; // rsi
__int64 v28; // rdi
__int64 v28; // rdi
__int64 v29; // rax
__int64 v29; // rax
Copiar
Copiado
Copiar
Copiado
int v3
0
; // eax
char v30; // ST00_1
signed __int64 v3
1
; // rdx
int v3
1
; // eax
__int64 v3
2
; // rax
signed __int64 v3
2
; // rdx
unsigned int v3
3
; // ebx
__int64 v3
3
; // rax
__int64 v3
4
; // rsi
unsigned int v3
4
; // ebx
__int64 v3
5
; // rdi
__int64 v3
5
; // rsi
__int64 v3
6
; // rax
__int64 v3
6
; // rdi
char v3
7
; // [rsp-8h] [rbp-30h]
__int64 v3
7
; // rax
char v3
8
; // [rsp-8h] [rbp-30h]
Copiar
Copiado
Copiar
Copiado
v3
7
= a1;
v3
8
= a1;
v4 = a3;
v4 = a3;
v5 = a2;
v5 = a2;
result = getintvar(*(_QWORD *)(a2 + 184), "boardflags3");
result = getintvar(*(_QWORD *)(a2 + 184), "boardflags3");
if ( (_DWORD)result )
if ( (_DWORD)result )
{
{
v7 = getintvar(*(_QWORD *)(a2 + 184), "boardflags3");
v7 = getintvar(*(_QWORD *)(a2 + 184), "boardflags3");
v8 = getintvar(*(_QWORD *)(a2 + 184), "boardflags3");
v8 = getintvar(*(_QWORD *)(a2 + 184), "boardflags3");
result = getintvar(*(_QWORD *)(a2 + 184), "boardflags3");
result = getintvar(*(_QWORD *)(a2 + 184), "boardflags3");
if ( v7 & 0x8000000 )
if ( v7 & 0x8000000 )
{
{
v12 = *(_DWORD *)(a2 + 60);
v12 = *(_DWORD *)(a2 + 60);
if ( v12 != 43602 && v12 != 43462 )
if ( v12 != 43602 && v12 != 43462 )
{
{
si_pmu_chipcontrol(a2, 0LL, 0x200000LL, 0x200000LL);
si_pmu_chipcontrol(a2, 0LL, 0x200000LL, 0x200000LL);
si_gci_chipcontrol(a2, 6LL, 2LL, 2LL);
si_gci_chipcontrol(a2, 6LL, 2LL, 2LL);
}
}
else
else
{
{
si_pmu_chipcontrol(a2, 2LL, 0x40000000LL, ~(32 * (_DWORD)result) & 0x40000000);
si_pmu_chipcontrol(a2, 2LL, 0x40000000LL, ~(32 * (_DWORD)result) & 0x40000000);
}
}
v13 = a3;
v13 = a3;
if ( *(_DWORD *)(a2 + 20) >= 35 && *(_BYTE *)(a2 + 28) & 0x40 )
if ( *(_DWORD *)(a2 + 20) >= 35 && *(_BYTE *)(a2 + 28) & 0x40 )
v14 = (unsigned int)si_findcoreidx(a2, 2087LL, 0LL);
v14 = (unsigned int)si_findcoreidx(a2, 2087LL, 0LL);
else
else
v14 = 0LL;
v14 = 0LL;
v15 = si_corereg_addr(a2, v14, 1544LL);
v15 = si_corereg_addr(a2, v14, 1544LL);
v16 = read_bpt_reg(v4, v15, 4LL);
v16 = read_bpt_reg(v4, v15, 4LL);
if ( !(v16 & 0x100) )
if ( !(v16 & 0x100) )
{
{
v17 = 0;
v17 = 0;
do
do
{
{
IODelay(1000LL);
IODelay(1000LL);
if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 )
if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 )
{
{
v19 = v5;
v19 = v5;
v18 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL);
v18 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL);
}
}
else
else
{
{
v18 = 0LL;
v18 = 0LL;
v19 = v5;
v19 = v5;
}
}
v20 = si_corereg_addr(v19, v18, 1544LL);
v20 = si_corereg_addr(v19, v18, 1544LL);
v21 = read_bpt_reg(v13, v20, 4LL);
v21 = read_bpt_reg(v13, v20, 4LL);
++v17;
++v17;
}
}
while ( !(v21 & 0x100) && v17 < 0x3E8 );
while ( !(v21 & 0x100) && v17 < 0x3E8 );
if ( v17 >= 0x3E8 )
if ( v17 >= 0x3E8 )
{
{
osl_wificc_logDebug((unsigned __int64)"External LPO is not available\n");
osl_wificc_logDebug((unsigned __int64)"External LPO is not available\n");
return osl_printf("External LPO is not available\n", a4);
return osl_printf("External LPO is not available\n", a4);
}
}
}
}
IODelay(1000LL);
IODelay(1000LL);
v22 = *(_DWORD *)(v5 + 60);
v22 = *(_DWORD *)(v5 + 60);
if ( v22 != 43602 && v22 != 43462 )
if ( v22 != 43602 && v22 != 43462 )
{
{
si_gci_chipcontrol(v5, 6LL, 8LL, 8LL);
si_gci_chipcontrol(v5, 6LL, 8LL, 8LL);
si_gci_chipcontrol(v5, 6LL, 4LL, 0LL);
si_gci_chipcontrol(v5, 6LL, 4LL, 0LL);
IODelay(1000LL);
IODelay(1000LL);
if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 )
if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 )
{
{
v24 = v5;
v24 = v5;
v23 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL);
v23 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL);
}
}
else
else
{
{
v23 = 0LL;
v23 = 0LL;
v24 = v5;
v24 = v5;
}
}
v25 = si_corereg_addr(v24, v23, 1536LL);
v25 = si_corereg_addr(v24, v23, 1536LL);
if ( read_bpt_reg(v13, v25, 4LL) & 1 )
if ( read_bpt_reg(v13, v25, 4LL) & 1 )
{
{
v26 = 0;
v26 = 0;
do
do
{
{
IODelay(1000LL);
IODelay(1000LL);
if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 )
if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 )
{
{
v28 = v5;
v28 = v5;
v27 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL);
v27 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL);
}
}
else
else
{
{
v27 = 0LL;
v27 = 0LL;
v28 = v5;
v28 = v5;
}
}
v29 = si_corereg_addr(v28, v27, 1536LL);
v29 = si_corereg_addr(v28, v27, 1536LL);
++v26;
++v26;
}
}
while ( read_bpt_reg(v13, v29, 4LL) & 1 && v26 < 0x3E8 );
while ( read_bpt_reg(v13, v29, 4LL) & 1 && v26 < 0x3E8 );
if ( v26 >= 0x3E8 )
if ( v26 >= 0x3E8 )
{
{
osl_wificc_logDebug((unsigned __int64)"External LPO is not set\n");
osl_wificc_logDebug((unsigned __int64)"External LPO is not set\n");
Copiar
Copiado
Copiar
Copiado
osl_printf("External LPO is not set\n", v3
7
);
osl_printf("External LPO is not set\n", v3
8);
v3
0
= *(_DWORD *)(v5 + 60);
osl_panic("32KHz LPO Clock not running", v30
);
if ( v3
0
== 43602 || v3
0
== 43462 )
v3
1
= *(_DWORD *)(v5 + 60);
if ( v3
1
== 43602 || v3
1
== 43462 )
return si_pmu_chipcontrol(v5, 2LL, 0x80000LL, 0LL);
return si_pmu_chipcontrol(v5, 2LL, 0x80000LL, 0LL);
Copiar
Copiado
Copiar
Copiado
v3
1
= 8LL;
v3
2
= 8LL;
return si_gci_chipcontrol(v5, 6LL, v3
1
, 0LL);
return si_gci_chipcontrol(v5, 6LL, v3
2
, 0LL);
}
}
}
}
}
}
else
else
{
{
si_pmu_chipcontrol(v5, 2LL, 0x80000LL, 0x80000LL);
si_pmu_chipcontrol(v5, 2LL, 0x80000LL, 0x80000LL);
}
}
result = *(unsigned int *)(v5 + 60);
result = *(unsigned int *)(v5 + 60);
if ( (_DWORD)result != 43462 && (_DWORD)result != 43602 )
if ( (_DWORD)result != 43462 && (_DWORD)result != 43602 )
{
{
si_pmu_chipcontrol(v5, 0LL, 0x100000LL, 0LL);
si_pmu_chipcontrol(v5, 0LL, 0x100000LL, 0LL);
Copiar
Copiado
Copiar
Copiado
v3
1
= 1LL;
v3
2
= 1LL;
return si_gci_chipcontrol(v5, 6LL, v3
1
, 0LL);
return si_gci_chipcontrol(v5, 6LL, v3
2
, 0LL);
}
}
}
}
else
else
{
{
v9 = (v8 & 0x4000000) == 0;
v9 = (v8 & 0x4000000) == 0;
v10 = a3;
v10 = a3;
if ( !v9 )
if ( !v9 )
{
{
result = *(unsigned int *)(a2 + 60);
result = *(unsigned int *)(a2 + 60);
if ( (_DWORD)result != 43462 && (_DWORD)result != 43602 )
if ( (_DWORD)result != 43462 && (_DWORD)result != 43602 )
{
{
si_pmu_chipcontrol(a2, 0LL, 0x100000LL, 0x100000LL);
si_pmu_chipcontrol(a2, 0LL, 0x100000LL, 0x100000LL);
si_gci_chipcontrol(a2, 6LL, 1LL, 1LL);
si_gci_chipcontrol(a2, 6LL, 1LL, 1LL);
IODelay(1000LL);
IODelay(1000LL);
si_gci_chipcontrol(a2, 6LL, 4LL, 4LL);
si_gci_chipcontrol(a2, 6LL, 4LL, 4LL);
si_gci_chipcontrol(a2, 6LL, 8LL, 0LL);
si_gci_chipcontrol(a2, 6LL, 8LL, 0LL);
IODelay(1000LL);
IODelay(1000LL);
if ( *(_DWORD *)(a2 + 20) >= 35 && *(_BYTE *)(a2 + 28) & 0x40 )
if ( *(_DWORD *)(a2 + 20) >= 35 && *(_BYTE *)(a2 + 28) & 0x40 )
v11 = (unsigned int)si_findcoreidx(a2, 2087LL, 0LL);
v11 = (unsigned int)si_findcoreidx(a2, 2087LL, 0LL);
else
else
v11 = 0LL;
v11 = 0LL;
Copiar
Copiado
Copiar
Copiado
v3
2
= si_corereg_addr(a2, v11, 1536LL);
v3
3
= si_corereg_addr(a2, v11, 1536LL);
if ( read_bpt_reg(v4, v3
2
, 4LL) & 1 )
if ( read_bpt_reg(v4, v3
3
, 4LL) & 1 )
goto LABEL_66;
goto LABEL_66;
Copiar
Copiado
Copiar
Copiado
v3
3
= 0;
v3
4
= 0;
do
do
{
{
IODelay(1000LL);
IODelay(1000LL);
if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 )
if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 )
{
{
Copiar
Copiado
Copiar
Copiado
v3
5
= v5;
v3
6
= v5;
v3
4
= (unsigned int)si_findcoreidx(v5, 2087LL, 0LL);
v3
5
= (unsigned int)si_findcoreidx(v5, 2087LL, 0LL);
}
}
else
else
{
{
Copiar
Copiado
Copiar
Copiado
v3
4
= 0LL;
v3
5
= 0LL;
v3
5
= v5;
v3
6
= v5;
}
}
Copiar
Copiado
Copiar
Copiado
v3
6
= si_corereg_addr(v3
5
, v3
4
, 1536LL);
v3
7
= si_corereg_addr(v3
6
, v3
5
, 1536LL);
++v3
3
;
++v3
4
;
}
}
Copiar
Copiado
Copiar
Copiado
while ( !(read_bpt_reg(v10, v3
6
, 4LL) & 1) && v3
3
< 0x3E8 );
while ( !(read_bpt_reg(v10, v3
7
, 4LL) & 1) && v3
4
< 0x3E8 );
if ( v3
3
< 0x3E8 )
if ( v3
4
< 0x3E8 )
{
{
LABEL_66:
LABEL_66:
si_pmu_chipcontrol(v5, 0LL, 0x200000LL, 0LL);
si_pmu_chipcontrol(v5, 0LL, 0x200000LL, 0LL);
Copiar
Copiado
Copiar
Copiado
v3
1
= 2LL;
v3
2
= 2LL;
}
}
else
else
{
{
osl_wificc_logDebug((unsigned __int64)"Internal LPO is not set\n");
osl_wificc_logDebug((unsigned __int64)"Internal LPO is not set\n");
Copiar
Copiado
Copiar
Copiado
osl_printf("Internal LPO is not set\n", v3
7
);
osl_printf("Internal LPO is not set\n", v3
8
);
v3
1
= 4LL;
v3
2
= 4LL;
}
}
Copiar
Copiado
Copiar
Copiado
return si_gci_chipcontrol(v5, 6LL, v3
1
, 0LL);
return si_gci_chipcontrol(v5, 6LL, v3
2
, 0LL);
}
}
}
}
}
}
}
}
return result;
return result;
}
}
Diferencias guardadas
Texto original
Abrir archivo
__int64 __usercall si_pmu_set_lpoclk@<rax>(char a1@<al>, __int64 a2@<rdi>, __int64 a3@<rsi>, char a4) { __int64 v4; // rbx __int64 v5; // r14 __int64 result; // rax int v7; // er13 int v8; // er15 bool v9; // zf __int64 v10; // r15 __int64 v11; // rsi int v12; // ecx __int64 v13; // r15 __int64 v14; // rsi __int64 v15; // rax __int64 v16; // rax unsigned int v17; // ebx __int64 v18; // rsi __int64 v19; // rdi __int64 v20; // rax __int64 v21; // rax int v22; // eax __int64 v23; // rsi __int64 v24; // rdi __int64 v25; // rax unsigned int v26; // ebx __int64 v27; // rsi __int64 v28; // rdi __int64 v29; // rax int v30; // eax signed __int64 v31; // rdx __int64 v32; // rax unsigned int v33; // ebx __int64 v34; // rsi __int64 v35; // rdi __int64 v36; // rax char v37; // [rsp-8h] [rbp-30h] v37 = a1; v4 = a3; v5 = a2; result = getintvar(*(_QWORD *)(a2 + 184), "boardflags3"); if ( (_DWORD)result ) { v7 = getintvar(*(_QWORD *)(a2 + 184), "boardflags3"); v8 = getintvar(*(_QWORD *)(a2 + 184), "boardflags3"); result = getintvar(*(_QWORD *)(a2 + 184), "boardflags3"); if ( v7 & 0x8000000 ) { v12 = *(_DWORD *)(a2 + 60); if ( v12 != 43602 && v12 != 43462 ) { si_pmu_chipcontrol(a2, 0LL, 0x200000LL, 0x200000LL); si_gci_chipcontrol(a2, 6LL, 2LL, 2LL); } else { si_pmu_chipcontrol(a2, 2LL, 0x40000000LL, ~(32 * (_DWORD)result) & 0x40000000); } v13 = a3; if ( *(_DWORD *)(a2 + 20) >= 35 && *(_BYTE *)(a2 + 28) & 0x40 ) v14 = (unsigned int)si_findcoreidx(a2, 2087LL, 0LL); else v14 = 0LL; v15 = si_corereg_addr(a2, v14, 1544LL); v16 = read_bpt_reg(v4, v15, 4LL); if ( !(v16 & 0x100) ) { v17 = 0; do { IODelay(1000LL); if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 ) { v19 = v5; v18 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL); } else { v18 = 0LL; v19 = v5; } v20 = si_corereg_addr(v19, v18, 1544LL); v21 = read_bpt_reg(v13, v20, 4LL); ++v17; } while ( !(v21 & 0x100) && v17 < 0x3E8 ); if ( v17 >= 0x3E8 ) { osl_wificc_logDebug((unsigned __int64)"External LPO is not available\n"); return osl_printf("External LPO is not available\n", a4); } } IODelay(1000LL); v22 = *(_DWORD *)(v5 + 60); if ( v22 != 43602 && v22 != 43462 ) { si_gci_chipcontrol(v5, 6LL, 8LL, 8LL); si_gci_chipcontrol(v5, 6LL, 4LL, 0LL); IODelay(1000LL); if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 ) { v24 = v5; v23 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL); } else { v23 = 0LL; v24 = v5; } v25 = si_corereg_addr(v24, v23, 1536LL); if ( read_bpt_reg(v13, v25, 4LL) & 1 ) { v26 = 0; do { IODelay(1000LL); if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 ) { v28 = v5; v27 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL); } else { v27 = 0LL; v28 = v5; } v29 = si_corereg_addr(v28, v27, 1536LL); ++v26; } while ( read_bpt_reg(v13, v29, 4LL) & 1 && v26 < 0x3E8 ); if ( v26 >= 0x3E8 ) { osl_wificc_logDebug((unsigned __int64)"External LPO is not set\n"); osl_printf("External LPO is not set\n", v37); v30 = *(_DWORD *)(v5 + 60); if ( v30 == 43602 || v30 == 43462 ) return si_pmu_chipcontrol(v5, 2LL, 0x80000LL, 0LL); v31 = 8LL; return si_gci_chipcontrol(v5, 6LL, v31, 0LL); } } } else { si_pmu_chipcontrol(v5, 2LL, 0x80000LL, 0x80000LL); } result = *(unsigned int *)(v5 + 60); if ( (_DWORD)result != 43462 && (_DWORD)result != 43602 ) { si_pmu_chipcontrol(v5, 0LL, 0x100000LL, 0LL); v31 = 1LL; return si_gci_chipcontrol(v5, 6LL, v31, 0LL); } } else { v9 = (v8 & 0x4000000) == 0; v10 = a3; if ( !v9 ) { result = *(unsigned int *)(a2 + 60); if ( (_DWORD)result != 43462 && (_DWORD)result != 43602 ) { si_pmu_chipcontrol(a2, 0LL, 0x100000LL, 0x100000LL); si_gci_chipcontrol(a2, 6LL, 1LL, 1LL); IODelay(1000LL); si_gci_chipcontrol(a2, 6LL, 4LL, 4LL); si_gci_chipcontrol(a2, 6LL, 8LL, 0LL); IODelay(1000LL); if ( *(_DWORD *)(a2 + 20) >= 35 && *(_BYTE *)(a2 + 28) & 0x40 ) v11 = (unsigned int)si_findcoreidx(a2, 2087LL, 0LL); else v11 = 0LL; v32 = si_corereg_addr(a2, v11, 1536LL); if ( read_bpt_reg(v4, v32, 4LL) & 1 ) goto LABEL_66; v33 = 0; do { IODelay(1000LL); if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 ) { v35 = v5; v34 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL); } else { v34 = 0LL; v35 = v5; } v36 = si_corereg_addr(v35, v34, 1536LL); ++v33; } while ( !(read_bpt_reg(v10, v36, 4LL) & 1) && v33 < 0x3E8 ); if ( v33 < 0x3E8 ) { LABEL_66: si_pmu_chipcontrol(v5, 0LL, 0x200000LL, 0LL); v31 = 2LL; } else { osl_wificc_logDebug((unsigned __int64)"Internal LPO is not set\n"); osl_printf("Internal LPO is not set\n", v37); v31 = 4LL; } return si_gci_chipcontrol(v5, 6LL, v31, 0LL); } } } } return result; }
Texto modificado
Abrir archivo
__int64 __usercall si_pmu_set_lpoclk@<rax>(char a1@<al>, __int64 a2@<rdi>, __int64 a3@<rsi>, char a4) { __int64 v4; // rbx __int64 v5; // r14 __int64 result; // rax int v7; // er13 int v8; // er15 bool v9; // zf __int64 v10; // r15 __int64 v11; // rsi int v12; // ecx __int64 v13; // r15 __int64 v14; // rsi __int64 v15; // rax __int64 v16; // rax unsigned int v17; // ebx __int64 v18; // rsi __int64 v19; // rdi __int64 v20; // rax __int64 v21; // rax int v22; // eax __int64 v23; // rsi __int64 v24; // rdi __int64 v25; // rax unsigned int v26; // ebx __int64 v27; // rsi __int64 v28; // rdi __int64 v29; // rax char v30; // ST00_1 int v31; // eax signed __int64 v32; // rdx __int64 v33; // rax unsigned int v34; // ebx __int64 v35; // rsi __int64 v36; // rdi __int64 v37; // rax char v38; // [rsp-8h] [rbp-30h] v38 = a1; v4 = a3; v5 = a2; result = getintvar(*(_QWORD *)(a2 + 184), "boardflags3"); if ( (_DWORD)result ) { v7 = getintvar(*(_QWORD *)(a2 + 184), "boardflags3"); v8 = getintvar(*(_QWORD *)(a2 + 184), "boardflags3"); result = getintvar(*(_QWORD *)(a2 + 184), "boardflags3"); if ( v7 & 0x8000000 ) { v12 = *(_DWORD *)(a2 + 60); if ( v12 != 43602 && v12 != 43462 ) { si_pmu_chipcontrol(a2, 0LL, 0x200000LL, 0x200000LL); si_gci_chipcontrol(a2, 6LL, 2LL, 2LL); } else { si_pmu_chipcontrol(a2, 2LL, 0x40000000LL, ~(32 * (_DWORD)result) & 0x40000000); } v13 = a3; if ( *(_DWORD *)(a2 + 20) >= 35 && *(_BYTE *)(a2 + 28) & 0x40 ) v14 = (unsigned int)si_findcoreidx(a2, 2087LL, 0LL); else v14 = 0LL; v15 = si_corereg_addr(a2, v14, 1544LL); v16 = read_bpt_reg(v4, v15, 4LL); if ( !(v16 & 0x100) ) { v17 = 0; do { IODelay(1000LL); if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 ) { v19 = v5; v18 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL); } else { v18 = 0LL; v19 = v5; } v20 = si_corereg_addr(v19, v18, 1544LL); v21 = read_bpt_reg(v13, v20, 4LL); ++v17; } while ( !(v21 & 0x100) && v17 < 0x3E8 ); if ( v17 >= 0x3E8 ) { osl_wificc_logDebug((unsigned __int64)"External LPO is not available\n"); return osl_printf("External LPO is not available\n", a4); } } IODelay(1000LL); v22 = *(_DWORD *)(v5 + 60); if ( v22 != 43602 && v22 != 43462 ) { si_gci_chipcontrol(v5, 6LL, 8LL, 8LL); si_gci_chipcontrol(v5, 6LL, 4LL, 0LL); IODelay(1000LL); if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 ) { v24 = v5; v23 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL); } else { v23 = 0LL; v24 = v5; } v25 = si_corereg_addr(v24, v23, 1536LL); if ( read_bpt_reg(v13, v25, 4LL) & 1 ) { v26 = 0; do { IODelay(1000LL); if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 ) { v28 = v5; v27 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL); } else { v27 = 0LL; v28 = v5; } v29 = si_corereg_addr(v28, v27, 1536LL); ++v26; } while ( read_bpt_reg(v13, v29, 4LL) & 1 && v26 < 0x3E8 ); if ( v26 >= 0x3E8 ) { osl_wificc_logDebug((unsigned __int64)"External LPO is not set\n"); osl_printf("External LPO is not set\n", v38); osl_panic("32KHz LPO Clock not running", v30); v31 = *(_DWORD *)(v5 + 60); if ( v31 == 43602 || v31 == 43462 ) return si_pmu_chipcontrol(v5, 2LL, 0x80000LL, 0LL); v32 = 8LL; return si_gci_chipcontrol(v5, 6LL, v32, 0LL); } } } else { si_pmu_chipcontrol(v5, 2LL, 0x80000LL, 0x80000LL); } result = *(unsigned int *)(v5 + 60); if ( (_DWORD)result != 43462 && (_DWORD)result != 43602 ) { si_pmu_chipcontrol(v5, 0LL, 0x100000LL, 0LL); v32 = 1LL; return si_gci_chipcontrol(v5, 6LL, v32, 0LL); } } else { v9 = (v8 & 0x4000000) == 0; v10 = a3; if ( !v9 ) { result = *(unsigned int *)(a2 + 60); if ( (_DWORD)result != 43462 && (_DWORD)result != 43602 ) { si_pmu_chipcontrol(a2, 0LL, 0x100000LL, 0x100000LL); si_gci_chipcontrol(a2, 6LL, 1LL, 1LL); IODelay(1000LL); si_gci_chipcontrol(a2, 6LL, 4LL, 4LL); si_gci_chipcontrol(a2, 6LL, 8LL, 0LL); IODelay(1000LL); if ( *(_DWORD *)(a2 + 20) >= 35 && *(_BYTE *)(a2 + 28) & 0x40 ) v11 = (unsigned int)si_findcoreidx(a2, 2087LL, 0LL); else v11 = 0LL; v33 = si_corereg_addr(a2, v11, 1536LL); if ( read_bpt_reg(v4, v33, 4LL) & 1 ) goto LABEL_66; v34 = 0; do { IODelay(1000LL); if ( *(_DWORD *)(v5 + 20) >= 35 && *(_BYTE *)(v5 + 28) & 0x40 ) { v36 = v5; v35 = (unsigned int)si_findcoreidx(v5, 2087LL, 0LL); } else { v35 = 0LL; v36 = v5; } v37 = si_corereg_addr(v36, v35, 1536LL); ++v34; } while ( !(read_bpt_reg(v10, v37, 4LL) & 1) && v34 < 0x3E8 ); if ( v34 < 0x3E8 ) { LABEL_66: si_pmu_chipcontrol(v5, 0LL, 0x200000LL, 0LL); v32 = 2LL; } else { osl_wificc_logDebug((unsigned __int64)"Internal LPO is not set\n"); osl_printf("Internal LPO is not set\n", v38); v32 = 4LL; } return si_gci_chipcontrol(v5, 6LL, v32, 0LL); } } } } return result; }
Encontrar la diferencia