/* * Header for Microchannel Architecture Bus * Written by Martin Kolinek, February 1996 */ #ifndef _LINUX_MCA_H #define _LINUX_MCA_H /* The detection of MCA bus is done in the real mode (using BIOS). * The information is exported to the protected code, where this * variable is set to one in case MCA bus was detected. */ #ifndef MCA_bus__is_a_macro extern int MCA_bus; #endif /* Maximal number of MCA slots - actually, some machines have less, but * they all have sufficient number of POS registers to cover 8. */ #define MCA_MAX_SLOT_NR 8 /* MCA_NOTFOUND is an error condition. The other two indicate * motherboard POS registers contain the adapter. They might be * returned by the mca_find_adapter() function, and can be used as * arguments to mca_read_stored_pos(). I'm not going to allow direct * access to the motherboard registers until we run across an adapter * that requires it. We don't know enough about them to know if it's * safe. * * See Documentation/mca.txt or one of the existing drivers for * more information. */ #define MCA_NOTFOUND (-1) #define MCA_INTEGSCSI (MCA_MAX_SLOT_NR) #define MCA_INTEGVIDEO (MCA_MAX_SLOT_NR+1) #define MCA_MOTHERBOARD (MCA_MAX_SLOT_NR+2) /* Max number of adapters, including both slots and various integrated * things. */ #define MCA_NUMADAPTERS (MCA_MAX_SLOT_NR+3) /* Returns the slot of the first enabled adapter matching id. User can * specify a starting slot beyond zero, to deal with detecting multiple * devices. Returns MCA_NOTFOUND if id not found. Also checks the * integrated adapters. */ extern int mca_find_adapter(int id, int start); extern int mca_find_unused_adapter(int id, int start); /* adapter state info - returns 0 if no */ extern int mca_isadapter(int slot); extern int mca_isenabled(int slot); extern int mca_is_adapter_used(int slot); extern int mca_mark_as_used(int slot); extern void mca_mark_as_unused(int slot); /* gets a byte out of POS register (stored in memory) */ extern unsigned char mca_read_stored_pos(int slot, int reg); /* This can be expanded later. Right now, it gives us a way of * getting meaningful information into the MCA_info structure, * so we can have a more interesting /proc/mca. */ extern void mca_set_adapter_name(int slot, char* name); extern char* mca_get_adapter_name(int slot); /* This sets up an information callback for /proc/mca/slot?. The * function is called with the buffer, slot, and device pointer (or * some equally informative context information, or nothing, if you * prefer), and is expected to put useful information into the * buffer. The adapter name, id, and POS registers get printed * before this is called though, so don't do it again. * * This should be called with a NULL procfn when a module * unregisters, thus preventing kernel crashes and other such * nastiness. */ typedef int (*MCA_ProcFn)(char* buf, int slot, void* dev); extern void mca_set_adapter_procfn(int slot, MCA_ProcFn, void* dev); /* These routines actually mess with the hardware POS registers. They * temporarily disable the device (and interrupts), so make sure you know * what you're doing if you use them. Furthermore, writing to a POS may * result in two devices trying to share a resource, which in turn can * result in multiple devices sharing memory spaces, IRQs, or even trashing * hardware. YOU HAVE BEEN WARNED. * * You can only access slots with this. Motherboard registers are off * limits. */ /* read a byte from the specified POS register. */ extern unsigned char mca_read_pos(int slot, int reg); /* write a byte to the specified POS register. */ extern void mca_write_pos(int slot, int reg, unsigned char byte); /* Should only be called by the NMI interrupt handler, this will do some * fancy stuff to figure out what might have generated a NMI. */ extern void mca_handle_nmi(void); #endif /* _LINUX_MCA_H */