/* libgha.h - Library for direct hardware access Copyrights: 1996/10/27 - Robin Cutshaw (robin@xfree86.org) XFree86 3.3.3 implementation 1999 - Øyvind Aabling. Modified for GATOS/win/gfxdump. 2002 - library implementation by Nick Kurshev supported O/S's: SVR4, UnixWare, SCO, Solaris, FreeBSD, NetBSD, 386BSD, BSDI BSD/386, Linux, Mach/386, ISC DOS (WATCOM 9.5 compiler), Win9x (with mapdev.vxd) Licence: GPL */ #ifndef LIBDHA_H #define LIBDHA_H #include #ifdef __cplusplus extern "C" { #endif #define MAX_DEV_PER_VENDOR_CFG1 64 #define MAX_PCI_DEVICES_PER_BUS 32 #define MAX_PCI_DEVICES 64 #define PCI_MULTIFUNC_DEV 0x80 typedef struct pciinfo_s { int bus,card,func; /* PCI/AGP bus:card:func */ unsigned short vendor,device; /* Card vendor+device ID */ unsigned base0,base1,base2,baserom; /* Memory and I/O base addresses */ unsigned base3,base4,base5; /* Memory and I/O base addresses */ unsigned char irq,ipin,gnt,lat; /* assigned IRQ parameters for this card */ // unsigned base0_limit, base1_limit, base2_limit, baserom_limit; }pciinfo_t; extern int pci_config_read(unsigned char bus, unsigned char dev, unsigned char func, unsigned char cmd, int len, unsigned long *val); extern int pci_config_write(unsigned char bus, unsigned char dev, unsigned char func, unsigned char cmd, int len, unsigned long val); /* Fill array pci_list which must have size MAX_PCI_DEVICES and return 0 if sucessful */ extern int pci_scan(pciinfo_t *pci_list,unsigned *num_card); /* Enables/disables accessing to IO space from application side. Should return 0 if o'k or errno on error. */ extern int enable_app_io( void ); extern int disable_app_io( void ); extern unsigned char INPORT8(unsigned idx); extern unsigned short INPORT16(unsigned idx); extern unsigned INPORT32(unsigned idx); #define INPORT(idx) INPORT32(idx) extern void OUTPORT8(unsigned idx,unsigned char val); extern void OUTPORT16(unsigned idx,unsigned short val); extern void OUTPORT32(unsigned idx,unsigned val); #define OUTPORT(idx,val) OUTPORT32(idx,val) extern void * map_phys_mem(unsigned long base, unsigned long size); extern void unmap_phys_mem(void *ptr, unsigned long size); /* These are the region types */ #define MTRR_TYPE_UNCACHABLE 0 #define MTRR_TYPE_WRCOMB 1 #define MTRR_TYPE_WRTHROUGH 4 #define MTRR_TYPE_WRPROT 5 #define MTRR_TYPE_WRBACK 6 extern int mtrr_set_type(unsigned base,unsigned size,int type); /* Busmastering support */ /* returns 0 if support exists else errno */ extern int bm_open( void ); extern void bm_close( void ); /* Converts virtual memory addresses into physical returns 0 if OK else - errno parray should have enough length to accept length/page_size elements. virt_addr can be located in non-continious memory block and can be allocated by malloc(). (kmalloc() is not needed). Note: if you have some very old card which requires continous memory block then you need to implement bm_kmalloc bm_kfree functions here. NOTE2: to be sure that every page of region is present in physical memory (is not swapped out) use m(un)lock functions. Note3: Probably your card will want to have page-aligned block for DMA transfer so use memalign(PAGE_SIZE,mem_size) function to alloc such memory. */ extern int bm_virt_to_phys( void * virt_addr, unsigned long length, unsigned long * parray ); /* Converts virtual memory addresses into bus address Works in the same way as bm_virt_to_phys. */ extern int bm_virt_to_bus( void * virt_addr, unsigned long length, unsigned long * barray ); extern void * bm_alloc_pa( unsigned long length ); extern void bm_free_pa( void * virt_addr, unsigned long length ); extern int bm_lock_mem( const void * addr, unsigned long length ); extern int bm_unlock_mem( const void * addr, unsigned long length ); /* HWIRQ support */ extern int hwirq_install(int bus, int dev, int func, int areg, unsigned long aoff, uint32_t adata); extern int hwirq_wait(unsigned irqnum); extern int hwirq_uninstall(int bus, int dev, int func); /* CPU flushing support */ extern void cpu_flush(void *va,unsigned long length); #ifdef __cplusplus } #endif #endif