s32 sys_spu_image_open(vm::ptr<sys_spu_image_t> img, vm::cptr<char> path)
{
sys_spu.warning("sys_spu_image_open(img=*0x%x, path=*0x%x)", img, path);
const fs::file f(vfs::get(path.get_ptr()));
if (!f)
{
sys_spu.error("sys_spu_image_open() error: '%s' not found!", path.get_ptr());
return CELL_ENOENT;
}
SceHeader hdr;
hdr.Load(f);
if (hdr.CheckMagic())
{
throw fmt::exception("sys_spu_image_open() error: '%s' is encrypted! Try to decrypt it manually and try again.", path.get_ptr());
}
f.seek(0);
u32 entry;
u32 offset = LoadSpuImage(f, entry);
img->type = SYS_SPU_IMAGE_TYPE_USER;
img->entry_point = entry;
img->segs.set(offset); // TODO: writing actual segment info
img->nsegs = 1; // wrong value
return CELL_OK;
}
s32 sys_raw_spu_load(s32 id, vm::cptr<char> path, vm::ptr<u32> entry)
{
sysPrxForUser.warning("sys_raw_spu_load(id=%d, path=*0x%x, entry=*0x%x)", id, path, entry);
sysPrxForUser.warning("*** path = '%s'", path.get_ptr());
const fs::file f(vfs::get(path.get_ptr()));
if (!f)
{
sysPrxForUser.error("sys_raw_spu_load() error: '%s' not found!", path.get_ptr());
return CELL_ENOENT;
}
SceHeader hdr;
hdr.Load(f);
if (hdr.CheckMagic())
{
throw fmt::exception("sys_raw_spu_load() error: '%s' is encrypted! Try to decrypt it manually and try again.", path.get_ptr());
}
f.seek(0);
u32 _entry;
LoadSpuImage(f, _entry, RAW_SPU_BASE_ADDR + RAW_SPU_OFFSET * id);
*entry = _entry | 1;
return CELL_OK;
}
s32 sys_raw_spu_load(s32 id, vm::cptr<char> path, vm::ptr<u32> entry)
{
sysPrxForUser.warning("sys_raw_spu_load(id=%d, path=*0x%x, entry=*0x%x)", id, path, entry);
sysPrxForUser.warning("*** path = '%s'", path.get_ptr());
vfsFile f(path.get_ptr());
if (!f.IsOpened())
{
sysPrxForUser.error("sys_raw_spu_load error: '%s' not found!", path.get_ptr());
return CELL_ENOENT;
}
SceHeader hdr;
hdr.Load(f);
if (hdr.CheckMagic())
{
sysPrxForUser.error("sys_raw_spu_load error: '%s' is encrypted! Decrypt SELF and try again.", path.get_ptr());
Emu.Pause();
return CELL_ENOENT;
}
f.Seek(0);
u32 _entry;
LoadSpuImage(f, _entry, RAW_SPU_BASE_ADDR + RAW_SPU_OFFSET * id);
*entry = _entry | 1;
return CELL_OK;
}
s32 sys_spu_image_open(vm::ptr<sys_spu_image> img, vm::cptr<char> path)
{
sys_spu.Warning("sys_spu_image_open(img_addr=0x%x, path_addr=0x%x [%s])", img.addr(), path.addr(), path.get_ptr());
vfsFile f(path.get_ptr());
if(!f.IsOpened())
{
sys_spu.Error("sys_spu_image_open error: '%s' not found!", path.get_ptr());
return CELL_ENOENT;
}
SceHeader hdr;
hdr.Load(f);
if (hdr.CheckMagic())
{
sys_spu.Error("sys_spu_image_open error: '%s' is encrypted! Decrypt SELF and try again.", path.get_ptr());
Emu.Pause();
return CELL_ENOENT;
}
f.Seek(0);
u32 entry;
u32 offset = LoadSpuImage(f, entry);
img->type = SYS_SPU_IMAGE_TYPE_USER;
img->entry_point = entry;
img->addr = offset; // TODO: writing actual segment info
img->nsegs = 1; // wrong value
return CELL_OK;
}
bool IsSelf(const std::string& path)
{
fs::file f(path);
if (!f) return false;
SceHeader hdr;
hdr.Load(f);
return hdr.CheckMagic();
}
bool IsSelf(const std::string& path)
{
vfsLocalFile f(nullptr);
if(!f.Open(path))
return false;
SceHeader hdr;
hdr.Load(f);
return hdr.CheckMagic();
}
bool Emulator::IsSelf(const std::string& path)
{
vfsLocalFile f(path);
if(!f.IsOpened())
return false;
SceHeader hdr;
hdr.Load(f);
return hdr.CheckMagic();
}