Ctrl_status ram_2_memory(U8 lun, U32 addr, const void *ram)
{
Ctrl_status status;
#if MAX_LUN==0
UNUSED(lun);
#endif
if (!Ctrl_access_lock()) return CTRL_FAIL;
memory_start_write_action(1);
status =
#if MAX_LUN
(lun < MAX_LUN) ? lun_desc[lun].ram_2_mem(addr, ram) :
#endif
#if LUN_USB == ENABLE
Lun_usb_ram_2_mem(addr, ram);
#else
CTRL_FAIL;
#endif
memory_stop_write_action();
Ctrl_access_unlock();
return status;
}
Ctrl_status usb_2_memory(U8 lun, U32 addr, U16 nb_sector)
{
Ctrl_status status;
if (!Ctrl_access_lock()) return CTRL_FAIL;
memory_start_write_action(nb_sector);
status =
#if MAX_LUN
(lun < MAX_LUN) ? lun_desc[lun].usb_write_10(addr, nb_sector) :
#endif
CTRL_FAIL;
memory_stop_write_action();
Ctrl_access_unlock();
return status;
}
Ctrl_status usb_2_memory (U8 lun, U32 addr, U16 nb_sector)
{
Ctrl_status status;
if (!Ctrl_access_lock ())
return CTRL_FAIL;
memory_start_write_action (nb_sector);
status =
#if MAX_LUN
(lun < MAX_LUN) ? lun_desc[lun].usb_write_10 (addr, nb_sector) :
#endif
CTRL_FAIL;
memory_stop_write_action ();
Ctrl_access_unlock ();
USB_Log_st.MSD_WriteCalls_u32++;
USB_Log_st.MSD_BytesWrite_u32 += nb_sector;
time ((time_t *) & USB_Log_st.MSD_LastWriteAccess_u32);
return status;
}
