#define USER_SPACE 1 /* pci.c Configure devices on the PCI bus Created: Jan 2000 by Philip Homburg */ #include "../drivers.h" #define NDEBUG /* disable assertions */ #include #include #include #include #include #include "pci.h" #include "pci_amd.h" #include "pci_intel.h" #include "pci_sis.h" #include "pci_via.h" #if __minix_vmd #include "config.h" #endif #if !__minix_vmd #define irq_mode_pci(irq) ((void)0) #endif #include #include #include #include #define NR_PCIBUS 10 #define NR_PCIDEV 40 #define PBT_INTEL_HOST 1 #define PBT_PCIBRIDGE 2 #define PBT_CARDBUS 3 #define BAM_NR 6 /* Number of base-address registers */ PRIVATE int debug= 0; PRIVATE struct pcibus { int pb_type; int pb_needinit; int pb_isabridge_dev; int pb_isabridge_type; int pb_devind; int pb_busnr; u8_t (*pb_rreg8)(int busind, int devind, int port); u16_t (*pb_rreg16)(int busind, int devind, int port); u32_t (*pb_rreg32)(int busind, int devind, int port); void (*pb_wreg8)(int busind, int devind, int port, U8_t value); void (*pb_wreg16)(int busind, int devind, int port, U16_t value); void (*pb_wreg32)(int busind, int devind, int port, u32_t value); u16_t (*pb_rsts)(int busind); void (*pb_wsts)(int busind, U16_t value); } pcibus[NR_PCIBUS]; PRIVATE int nr_pcibus= 0; PRIVATE struct pcidev { u8_t pd_busnr; u8_t pd_dev; u8_t pd_func; u8_t pd_baseclass; u8_t pd_subclass; u8_t pd_infclass; u16_t pd_vid; u16_t pd_did; u8_t pd_ilr; u8_t pd_inuse; struct bar { int pb_flags; int pb_nr; u32_t pb_base; u32_t pb_size; } pd_bar[BAM_NR]; int pd_bar_nr; char pd_name[M3_STRING]; } pcidev[NR_PCIDEV]; /* pb_flags */ #define PBF_IO 1 /* I/O else memory */ #define PBF_INCOMPLETE 2 /* not allocated */ PRIVATE int nr_pcidev= 0; /* Work around the limitations of the PCI emulation in QEMU 0.7.1 */ PRIVATE int qemu_pci= 0; FORWARD _PROTOTYPE( void pci_intel_init, (void) ); FORWARD _PROTOTYPE( void probe_bus, (int busind) ); FORWARD _PROTOTYPE( int is_duplicate, (U8_t busnr, U8_t dev, U8_t func) ); FORWARD _PROTOTYPE( void record_irq, (int devind) ); FORWARD _PROTOTYPE( void record_bars, (int devind) ); FORWARD _PROTOTYPE( void record_bars_bridge, (int devind) ); FORWARD _PROTOTYPE( void record_bars_cardbus, (int devind) ); FORWARD _PROTOTYPE( void record_bar, (int devind, int bar_nr) ); FORWARD _PROTOTYPE( void complete_bridges, (void) ); FORWARD _PROTOTYPE( void complete_bars, (void) ); FORWARD _PROTOTYPE( void update_bridge4dev_io, (int devind, u32_t io_base, u32_t io_size) ); FORWARD _PROTOTYPE( int get_freebus, (void) ); FORWARD _PROTOTYPE( int do_isabridge, (int busind) ); FORWARD _PROTOTYPE( void do_pcibridge, (int busind) ); FORWARD _PROTOTYPE( int get_busind, (int busnr) ); FORWARD _PROTOTYPE( int do_piix, (int devind) ); FORWARD _PROTOTYPE( int do_amd_isabr, (int devind) ); FORWARD _PROTOTYPE( int do_sis_isabr, (int devind) ); FORWARD _PROTOTYPE( int do_via_isabr, (int devind) ); FORWARD _PROTOTYPE( void report_vga, (int devind) ); FORWARD _PROTOTYPE( char *pci_vid_name, (U16_t vid) ); FORWARD _PROTOTYPE( char *pci_baseclass_name, (U8_t baseclass) ); FORWARD _PROTOTYPE( char *pci_subclass_name, (U8_t baseclass, U8_t subclass, U8_t infclass) ); FORWARD _PROTOTYPE( void ntostr, (unsigned n, char **str, char *end) ); FORWARD _PROTOTYPE( u16_t pci_attr_rsts, (int devind) ); FORWARD _PROTOTYPE( void pci_attr_wsts, (int devind, U16_t value) ); FORWARD _PROTOTYPE( u16_t pcibr_std_rsts, (int busind) ); FORWARD _PROTOTYPE( void pcibr_std_wsts, (int busind, U16_t value) ); FORWARD _PROTOTYPE( u16_t pcibr_cb_rsts, (int busind) ); FORWARD _PROTOTYPE( void pcibr_cb_wsts, (int busind, U16_t value) ); FORWARD _PROTOTYPE( u16_t pcibr_via_rsts, (int busind) ); FORWARD _PROTOTYPE( void pcibr_via_wsts, (int busind, U16_t value) ); FORWARD _PROTOTYPE( u8_t pcii_rreg8, (int busind, int devind, int port) ); FORWARD _PROTOTYPE( u16_t pcii_rreg16, (int busind, int devind, int port) ); FORWARD _PROTOTYPE( u32_t pcii_rreg32, (int busind, int devind, int port) ); FORWARD _PROTOTYPE( void pcii_wreg8, (int busind, int devind, int port, U8_t value) ); FORWARD _PROTOTYPE( void pcii_wreg16, (int busind, int devind, int port, U16_t value) ); FORWARD _PROTOTYPE( void pcii_wreg32, (int busind, int devind, int port, u32_t value) ); FORWARD _PROTOTYPE( u16_t pcii_rsts, (int busind) ); FORWARD _PROTOTYPE( void pcii_wsts, (int busind, U16_t value) ); FORWARD _PROTOTYPE( void print_capabilities, (int devind) ); /*===========================================================================* * helper functions for I/O * *===========================================================================*/ PUBLIC unsigned pci_inb(U16_t port) { u32_t value; int s; if ((s=sys_inb(port, &value)) !=OK) printf("PCI: warning, sys_inb failed: %d\n", s); return value; } PUBLIC unsigned pci_inw(U16_t port) { u32_t value; int s; if ((s=sys_inw(port, &value)) !=OK) printf("PCI: warning, sys_inw failed: %d\n", s); return value; } PUBLIC unsigned pci_inl(U16_t port) { U32_t value; int s; if ((s=sys_inl(port, &value)) !=OK) printf("PCI: warning, sys_inl failed: %d\n", s); return value; } PUBLIC void pci_outb(U16_t port, U8_t value) { int s; if ((s=sys_outb(port, value)) !=OK) printf("PCI: warning, sys_outb failed: %d\n", s); } PUBLIC void pci_outw(U16_t port, U16_t value) { int s; if ((s=sys_outw(port, value)) !=OK) printf("PCI: warning, sys_outw failed: %d\n", s); } PUBLIC void pci_outl(U16_t port, U32_t value) { int s; if ((s=sys_outl(port, value)) !=OK) printf("PCI: warning, sys_outl failed: %d\n", s); } /*===========================================================================* * pci_init * *===========================================================================*/ PUBLIC void pci_init() { static int first_time= 1; long v; if (!first_time) return; v= 0; env_parse("qemu_pci", "d", 0, &v, 0, 1); qemu_pci= v; v= 0; env_parse("pci_debug", "d", 0, &v, 0, 1); debug= v; /* We don't expect to interrupted */ assert(first_time == 1); first_time= -1; /* Only Intel (compatible) PCI controllers are supported at the * moment. */ pci_intel_init(); first_time= 0; } /*===========================================================================* * pci_find_dev * *===========================================================================*/ PUBLIC int pci_find_dev(bus, dev, func, devindp) u8_t bus; u8_t dev; u8_t func; int *devindp; { int devind; for (devind= 0; devind < nr_pcidev; devind++) { if (pcidev[devind].pd_busnr == bus && pcidev[devind].pd_dev == dev && pcidev[devind].pd_func == func) { break; } } if (devind >= nr_pcidev) return 0; if (pcidev[devind].pd_inuse) return 0; *devindp= devind; return 1; } /*===========================================================================* * pci_first_dev * *===========================================================================*/ PUBLIC int pci_first_dev(devindp, vidp, didp) int *devindp; u16_t *vidp; u16_t *didp; { int devind; for (devind= 0; devind < nr_pcidev; devind++) { if (!pcidev[devind].pd_inuse) break; } if (devind >= nr_pcidev) return 0; *devindp= devind; *vidp= pcidev[devind].pd_vid; *didp= pcidev[devind].pd_did; return 1; } /*===========================================================================* * pci_next_dev * *===========================================================================*/ PUBLIC int pci_next_dev(devindp, vidp, didp) int *devindp; u16_t *vidp; u16_t *didp; { int devind; for (devind= *devindp+1; devind < nr_pcidev; devind++) { if (!pcidev[devind].pd_inuse) break; } if (devind >= nr_pcidev) return 0; *devindp= devind; *vidp= pcidev[devind].pd_vid; *didp= pcidev[devind].pd_did; return 1; } /*===========================================================================* * pci_reserve3 * *===========================================================================*/ PUBLIC void pci_reserve3(devind, proc, name) int devind; int proc; char *name; { int i, r; u8_t ilr; struct io_range ior; struct mem_range mr; assert(devind <= nr_pcidev); assert(!pcidev[devind].pd_inuse); pcidev[devind].pd_inuse= 1; strcpy(pcidev[devind].pd_name, name); for (i= 0; i= NR_PCIBUS) panic("PCI","too many PCI busses", nr_pcibus); busind= nr_pcibus; nr_pcibus++; pcibus[busind].pb_type= PBT_INTEL_HOST; pcibus[busind].pb_needinit= 0; pcibus[busind].pb_isabridge_dev= -1; pcibus[busind].pb_isabridge_type= 0; pcibus[busind].pb_devind= -1; pcibus[busind].pb_busnr= 0; pcibus[busind].pb_rreg8= pcii_rreg8; pcibus[busind].pb_rreg16= pcii_rreg16; pcibus[busind].pb_rreg32= pcii_rreg32; pcibus[busind].pb_wreg8= pcii_wreg8; pcibus[busind].pb_wreg16= pcii_wreg16; pcibus[busind].pb_wreg32= pcii_wreg32; pcibus[busind].pb_rsts= pcii_rsts; pcibus[busind].pb_wsts= pcii_wsts; dstr= pci_dev_name(vid, did); if (!dstr) dstr= "unknown device"; if (debug) { printf("pci_intel_init: %s (%04X/%04X)\n", dstr, vid, did); } probe_bus(busind); r= do_isabridge(busind); if (r != OK) { busnr= pcibus[busind].pb_busnr; /* Disable all devices for this bus */ for (i= 0; i= NR_PCIDEV) panic("PCI","too many PCI devices", nr_pcidev); devind= nr_pcidev; busnr= pcibus[busind].pb_busnr; for (dev= 0; dev<32; dev++) { for (func= 0; func < 8; func++) { pcidev[devind].pd_busnr= busnr; pcidev[devind].pd_dev= dev; pcidev[devind].pd_func= func; pci_attr_wsts(devind, PSR_SSE|PSR_RMAS|PSR_RTAS); vid= pci_attr_r16(devind, PCI_VID); did= pci_attr_r16(devind, PCI_DID); headt= pci_attr_r8(devind, PCI_HEADT); sts= pci_attr_rsts(devind); #if 0 printf("vid 0x%x, did 0x%x, headt 0x%x, sts 0x%x\n", vid, did, headt, sts); #endif if (vid == NO_VID) { if (func == 0) break; /* Nothing here */ /* Scan all functions of a multifunction * device. */ continue; } if (sts & (PSR_SSE|PSR_RMAS|PSR_RTAS)) { if (qemu_pci) { printf( "pci: ignoring bad value 0x%x in sts for QEMU\n", sts & (PSR_SSE|PSR_RMAS|PSR_RTAS)); } else { if (func == 0) break; /* Nothing here */ /* Scan all functions of a * multifunction device. */ continue; } } dstr= pci_dev_name(vid, did); if (debug) { if (dstr) { printf("%d.%lu.%lu: %s (%04X/%04X)\n", busind, (unsigned long)dev, (unsigned long)func, dstr, vid, did); } else { printf( "%d.%lu.%lu: Unknown device, vendor %04X (%s), device %04X\n", busind, (unsigned long)dev, (unsigned long)func, vid, pci_vid_name(vid), did); } printf("Device index: %d\n", devind); printf("Subsystem: Vid 0x%x, did 0x%x\n", pci_attr_r16(devind, PCI_SUBVID), pci_attr_r16(devind, PCI_SUBDID)); } baseclass= pci_attr_r8(devind, PCI_BCR); subclass= pci_attr_r8(devind, PCI_SCR); infclass= pci_attr_r8(devind, PCI_PIFR); s= pci_subclass_name(baseclass, subclass, infclass); if (!s) s= pci_baseclass_name(baseclass); { if (!s) s= "(unknown class)"; } if (debug) { printf("\tclass %s (%X/%X/%X)\n", s, baseclass, subclass, infclass); } if (is_duplicate(busnr, dev, func)) { printf("\tduplicate!\n"); if (func == 0 && !(headt & PHT_MULTIFUNC)) break; continue; } devind= nr_pcidev; nr_pcidev++; pcidev[devind].pd_baseclass= baseclass; pcidev[devind].pd_subclass= subclass; pcidev[devind].pd_infclass= infclass; pcidev[devind].pd_vid= vid; pcidev[devind].pd_did= did; pcidev[devind].pd_inuse= 0; pcidev[devind].pd_bar_nr= 0; record_irq(devind); switch(headt & PHT_MASK) { case PHT_NORMAL: record_bars(devind); break; case PHT_BRIDGE: record_bars_bridge(devind); break; case PHT_CARDBUS: record_bars_cardbus(devind); break; default: printf("\t%d.%d.%d: unknown header type %d\n", busind, dev, func, headt & PHT_MASK); break; } if (debug) print_capabilities(devind); t3= ((baseclass << 16) | (subclass << 8) | infclass); if (t3 == PCI_T3_VGA || t3 == PCI_T3_VGA_OLD) report_vga(devind); if (nr_pcidev >= NR_PCIDEV) panic("PCI","too many PCI devices", nr_pcidev); devind= nr_pcidev; if (func == 0 && !(headt & PHT_MULTIFUNC)) break; } } } /*===========================================================================* * is_duplicate * *===========================================================================*/ PRIVATE int is_duplicate(busnr, dev, func) u8_t busnr; u8_t dev; u8_t func; { int i; for (i= 0; i memgap_low) memgap_low= base+size; } memgap_high= 0xfe000000; /* Leave space for the CPU (APIC) */ if (debug) { printf("complete_bars: initial gap: [0x%x .. 0x%x>\n", memgap_low, memgap_high); } /* Find the lowest memory base */ for (i= 0; i= memgap_high) continue; /* Not in the gap */ if (base+size <= memgap_low) continue; /* Not in the gap */ /* Reduce the gap by the smallest amount */ diff1= base+size-memgap_low; diff2= memgap_high-base; if (diff1 < diff2) memgap_low= base+size; else memgap_high= base; } } if (debug) { printf("complete_bars: intermediate gap: [0x%x .. 0x%x>\n", memgap_low, memgap_high); } /* Should check main memory size */ if (memgap_high < memgap_low) { printf("pci: bad memory gap: [0x%x .. 0x%x>\n", memgap_low, memgap_high); panic(NULL, NULL, NO_NUM); } iogap_high= 0x10000; iogap_low= 0x400; /* Find the free I/O space */ for (i= 0; i= iogap_high) continue; if (base+size <= iogap_low) continue; #if 0 if (debug) { printf( "pci device %d (%04x/%04x), bar %d: base 0x%x, size 0x%x\n", i, pcidev[i].pd_vid, pcidev[i].pd_did, j, base, size); } #endif if (base+size-iogap_low < iogap_high-base) iogap_low= base+size; else iogap_high= base; } } if (iogap_high < iogap_low) { if (debug) { printf("iogap_high too low, should panic\n"); } else panic("pci", "iogap_high too low", iogap_high); } if (debug) printf("I/O range = [0x%x..0x%x>\n", iogap_low, iogap_high); for (i= 0; i= NR_PCIBUS) panic("PCI","too many PCI busses", nr_pcibus); ind= nr_pcibus; nr_pcibus++; pcibus[ind].pb_type= PBT_PCIBRIDGE; pcibus[ind].pb_needinit= 1; pcibus[ind].pb_isabridge_dev= -1; pcibus[ind].pb_isabridge_type= 0; pcibus[ind].pb_devind= devind; pcibus[ind].pb_busnr= sbusn; pcibus[ind].pb_rreg8= pcibus[busind].pb_rreg8; pcibus[ind].pb_rreg16= pcibus[busind].pb_rreg16; pcibus[ind].pb_rreg32= pcibus[busind].pb_rreg32; pcibus[ind].pb_wreg8= pcibus[busind].pb_wreg8; pcibus[ind].pb_wreg16= pcibus[busind].pb_wreg16; pcibus[ind].pb_wreg32= pcibus[busind].pb_wreg32; switch(type) { case PCI_PPB_STD: pcibus[ind].pb_rsts= pcibr_std_rsts; pcibus[ind].pb_wsts= pcibr_std_wsts; break; case PCI_PPB_CB: pcibus[ind].pb_type= PBT_CARDBUS; pcibus[ind].pb_rsts= pcibr_cb_rsts; pcibus[ind].pb_wsts= pcibr_cb_wsts; break; case PCI_AGPB_VIA: pcibus[ind].pb_rsts= pcibr_via_rsts; pcibus[ind].pb_wsts= pcibr_via_wsts; break; default: panic("PCI","unknown PCI-PCI bridge type", type); } if (sbusn == 0) { printf("Secondary bus number not initialized\n"); continue; } pcibus[ind].pb_needinit= 0; probe_bus(ind); /* Look for PCI bridges */ do_pcibridge(ind); } } /*===========================================================================* * get_busind * *===========================================================================*/ PRIVATE int get_busind(busnr) int busnr; { int i; for (i= 0; i= NR_PCIDEV) panic("PCI","too many PCI devices", nr_pcidev); xdevind= nr_pcidev; pcidev[xdevind].pd_busnr= busnr; pcidev[xdevind].pd_dev= dev; pcidev[xdevind].pd_func= func; pcidev[xdevind].pd_inuse= 1; nr_pcidev++; levmask= pci_attr_r8(xdevind, AMD_ISABR_PCIIRQ_LEV); pciirq= pci_attr_r16(xdevind, AMD_ISABR_PCIIRQ_ROUTE); for (i= 0; i<4; i++) { edge= (levmask >> i) & 1; irq= (pciirq >> (4*i)) & 0xf; if (!irq) { if (debug) printf("INT%c: disabled\n", 'A'+i); } else { if (debug) printf("INT%c: %d\n", 'A'+i, irq); if (edge && debug) { printf( "(warning) IRQ %d is not level triggered\n", irq); } irq_mode_pci(irq); } } nr_pcidev--; return 0; } /*===========================================================================* * do_sis_isabr * *===========================================================================*/ PRIVATE int do_sis_isabr(devind) int devind; { int i, dev, func, irq; dev= pcidev[devind].pd_dev; func= pcidev[devind].pd_func; irq= 0; /* lint */ for (i= 0; i<4; i++) { irq= pci_attr_r8(devind, SIS_ISABR_IRQ_A+i); if (irq & SIS_IRQ_DISABLED) { if (debug) printf("INT%c: disabled\n", 'A'+i); } else { irq &= SIS_IRQ_MASK; if (debug) printf("INT%c: %d\n", 'A'+i, irq); irq_mode_pci(irq); } } return 0; } /*===========================================================================* * do_via_isabr * *===========================================================================*/ PRIVATE int do_via_isabr(devind) int devind; { int i, dev, func, irq, edge; u8_t levmask; dev= pcidev[devind].pd_dev; func= pcidev[devind].pd_func; levmask= pci_attr_r8(devind, VIA_ISABR_EL); irq= 0; /* lint */ edge= 0; /* lint */ for (i= 0; i<4; i++) { switch(i) { case 0: edge= (levmask & VIA_ISABR_EL_INTA); irq= pci_attr_r8(devind, VIA_ISABR_IRQ_R2) >> 4; break; case 1: edge= (levmask & VIA_ISABR_EL_INTB); irq= pci_attr_r8(devind, VIA_ISABR_IRQ_R2); break; case 2: edge= (levmask & VIA_ISABR_EL_INTC); irq= pci_attr_r8(devind, VIA_ISABR_IRQ_R3) >> 4; break; case 3: edge= (levmask & VIA_ISABR_EL_INTD); irq= pci_attr_r8(devind, VIA_ISABR_IRQ_R1) >> 4; break; default: assert(0); } irq &= 0xf; if (!irq) { if (debug) printf("INT%c: disabled\n", 'A'+i); } else { if (debug) printf("INT%c: %d\n", 'A'+i, irq); if (edge && debug) { printf( "(warning) IRQ %d is not level triggered\n", irq); } irq_mode_pci(irq); } } return 0; } /*===========================================================================* * report_vga * *===========================================================================*/ PRIVATE void report_vga(devind) int devind; { /* Report the amount of video memory. This is needed by the X11R6 * postinstall script to chmem the X server. Hopefully this can be * removed when we get virtual memory. */ size_t amount, size; int i; amount= 0; for (i= 0; i0; i--) { if (*str == end) { break; } **str= tmpstr[i-1]; (*str)++; } if (*str == end) end[-1]= '\0'; else **str= '\0'; } /*===========================================================================* * pci_attr_rsts * *===========================================================================*/ PRIVATE u16_t pci_attr_rsts(devind) int devind; { int busnr, busind; busnr= pcidev[devind].pd_busnr; busind= get_busind(busnr); return pcibus[busind].pb_rsts(busind); } /*===========================================================================* * pcibr_std_rsts * *===========================================================================*/ PRIVATE u16_t pcibr_std_rsts(busind) int busind; { int devind; devind= pcibus[busind].pb_devind; return pci_attr_r16(devind, PPB_SSTS); } /*===========================================================================* * pcibr_std_wsts * *===========================================================================*/ PRIVATE void pcibr_std_wsts(busind, value) int busind; u16_t value; { int devind; devind= pcibus[busind].pb_devind; #if 0 printf("pcibr_std_wsts(%d, 0x%X), devind= %d\n", busind, value, devind); #endif pci_attr_w16(devind, PPB_SSTS, value); } /*===========================================================================* * pcibr_cb_rsts * *===========================================================================*/ PRIVATE u16_t pcibr_cb_rsts(busind) int busind; { int devind; devind= pcibus[busind].pb_devind; return pci_attr_r16(devind, CBB_SSTS); } /*===========================================================================* * pcibr_cb_wsts * *===========================================================================*/ PRIVATE void pcibr_cb_wsts(busind, value) int busind; u16_t value; { int devind; devind= pcibus[busind].pb_devind; #if 0 printf("pcibr_cb_wsts(%d, 0x%X), devind= %d\n", busind, value, devind); #endif pci_attr_w16(devind, CBB_SSTS, value); } /*===========================================================================* * pcibr_via_rsts * *===========================================================================*/ PRIVATE u16_t pcibr_via_rsts(busind) int busind; { int devind; devind= pcibus[busind].pb_devind; return 0; } /*===========================================================================* * pcibr_via_wsts * *===========================================================================*/ PRIVATE void pcibr_via_wsts(busind, value) int busind; u16_t value; { int devind; devind= pcibus[busind].pb_devind; #if 0 printf("pcibr_via_wsts(%d, 0x%X), devind= %d (not implemented)\n", busind, value, devind); #endif } /*===========================================================================* * pci_attr_wsts * *===========================================================================*/ PRIVATE void pci_attr_wsts(devind, value) int devind; u16_t value; { int busnr, busind; busnr= pcidev[devind].pd_busnr; busind= get_busind(busnr); pcibus[busind].pb_wsts(busind, value); } /*===========================================================================* * pcii_rreg8 * *===========================================================================*/ PRIVATE u8_t pcii_rreg8(busind, devind, port) int busind; int devind; int port; { u8_t v; int s; v= PCII_RREG8_(pcibus[busind].pb_busnr, pcidev[devind].pd_dev, pcidev[devind].pd_func, port); #if USER_SPACE if (OK != (s=sys_outl(PCII_CONFADD, PCII_UNSEL))) printf("PCI: warning, sys_outl failed: %d\n", s); #else outl(PCII_CONFADD, PCII_UNSEL); #endif #if 0 printf("pcii_rreg8(%d, %d, 0x%X): %d.%d.%d= 0x%X\n", busind, devind, port, pcibus[busind].pb_bus, pcidev[devind].pd_dev, pcidev[devind].pd_func, v); #endif return v; } /*===========================================================================* * pcii_rreg16 * *===========================================================================*/ PRIVATE u16_t pcii_rreg16(busind, devind, port) int busind; int devind; int port; { u16_t v; int s; v= PCII_RREG16_(pcibus[busind].pb_busnr, pcidev[devind].pd_dev, pcidev[devind].pd_func, port); #if USER_SPACE if (OK != (s=sys_outl(PCII_CONFADD, PCII_UNSEL))) printf("PCI: warning, sys_outl failed: %d\n"); #else outl(PCII_CONFADD, PCII_UNSEL); #endif #if 0 printf("pcii_rreg16(%d, %d, 0x%X): %d.%d.%d= 0x%X\n", busind, devind, port, pcibus[busind].pb_bus, pcidev[devind].pd_dev, pcidev[devind].pd_func, v); #endif return v; } /*===========================================================================* * pcii_rreg32 * *===========================================================================*/ PRIVATE u32_t pcii_rreg32(busind, devind, port) int busind; int devind; int port; { u32_t v; int s; v= PCII_RREG32_(pcibus[busind].pb_busnr, pcidev[devind].pd_dev, pcidev[devind].pd_func, port); #if USER_SPACE if (OK != (s=sys_outl(PCII_CONFADD, PCII_UNSEL))) printf("PCI: warning, sys_outl failed: %d\n", s); #else outl(PCII_CONFADD, PCII_UNSEL); #endif #if 0 printf("pcii_rreg32(%d, %d, 0x%X): %d.%d.%d= 0x%X\n", busind, devind, port, pcibus[busind].pb_bus, pcidev[devind].pd_dev, pcidev[devind].pd_func, v); #endif return v; } /*===========================================================================* * pcii_wreg8 * *===========================================================================*/ PRIVATE void pcii_wreg8(busind, devind, port, value) int busind; int devind; int port; u8_t value; { int s; #if 0 printf("pcii_wreg8(%d, %d, 0x%X, 0x%X): %d.%d.%d\n", busind, devind, port, value, pcibus[busind].pb_bus, pcidev[devind].pd_dev, pcidev[devind].pd_func); #endif PCII_WREG8_(pcibus[busind].pb_busnr, pcidev[devind].pd_dev, pcidev[devind].pd_func, port, value); #if USER_SPACE if (OK != (s=sys_outl(PCII_CONFADD, PCII_UNSEL))) printf("PCI: warning, sys_outl failed: %d\n", s); #else outl(PCII_CONFADD, PCII_UNSEL); #endif } /*===========================================================================* * pcii_wreg16 * *===========================================================================*/ PRIVATE void pcii_wreg16(busind, devind, port, value) int busind; int devind; int port; u16_t value; { int s; #if 0 printf("pcii_wreg16(%d, %d, 0x%X, 0x%X): %d.%d.%d\n", busind, devind, port, value, pcibus[busind].pb_bus, pcidev[devind].pd_dev, pcidev[devind].pd_func); #endif PCII_WREG16_(pcibus[busind].pb_busnr, pcidev[devind].pd_dev, pcidev[devind].pd_func, port, value); #if USER_SPACE if (OK != (s=sys_outl(PCII_CONFADD, PCII_UNSEL))) printf("PCI: warning, sys_outl failed: %d\n", s); #else outl(PCII_CONFADD, PCII_UNSEL); #endif } /*===========================================================================* * pcii_wreg32 * *===========================================================================*/ PRIVATE void pcii_wreg32(busind, devind, port, value) int busind; int devind; int port; u32_t value; { int s; #if 0 printf("pcii_wreg32(%d, %d, 0x%X, 0x%X): %d.%d.%d\n", busind, devind, port, value, pcibus[busind].pb_bus, pcidev[devind].pd_dev, pcidev[devind].pd_func); #endif PCII_WREG32_(pcibus[busind].pb_busnr, pcidev[devind].pd_dev, pcidev[devind].pd_func, port, value); #if USER_SPACE if (OK != (s=sys_outl(PCII_CONFADD, PCII_UNSEL))) printf("PCI: warning, sys_outl failed: %d\n"); #else outl(PCII_CONFADD, PCII_UNSEL); #endif } /*===========================================================================* * pcii_rsts * *===========================================================================*/ PRIVATE u16_t pcii_rsts(busind) int busind; { u16_t v; int s; v= PCII_RREG16_(pcibus[busind].pb_busnr, 0, 0, PCI_SR); #if USER_SPACE if (OK != (s=sys_outl(PCII_CONFADD, PCII_UNSEL))) printf("PCI: warning, sys_outl failed: %d\n", s); #else outl(PCII_CONFADD, PCII_UNSEL); #endif return v; } /*===========================================================================* * pcii_wsts * *===========================================================================*/ PRIVATE void pcii_wsts(busind, value) int busind; u16_t value; { int s; PCII_WREG16_(pcibus[busind].pb_busnr, 0, 0, PCI_SR, value); #if USER_SPACE if (OK != (s=sys_outl(PCII_CONFADD, PCII_UNSEL))) printf("PCI: warning, sys_outl failed: %d\n", s); #else outl(PCII_CONFADD, PCII_UNSEL); #endif } /*===========================================================================* * print_capabilities * *===========================================================================*/ PRIVATE void print_capabilities(devind) int devind; { u8_t status, capptr, type, next; char *str; /* Check capabilities bit in the device status register */ status= pci_attr_r16(devind, PCI_SR); if (!(status & PSR_CAPPTR)) return; capptr= (pci_attr_r8(devind, PCI_CAPPTR) & PCI_CP_MASK); while (capptr != 0) { type = pci_attr_r8(devind, capptr+CAP_TYPE); next= (pci_attr_r8(devind, capptr+CAP_NEXT) & PCI_CP_MASK); switch(type) { case 1: str= "PCI Power Management"; break; case 2: str= "AGP"; break; case 3: str= "Vital Product Data"; break; case 4: str= "Slot Identification"; break; case 5: str= "Message Signaled Interrupts"; break; case 6: str= "CompactPCI Hot Swap"; break; case 8: str= "AMD HyperTransport"; break; case 0xf: str= "AMD I/O MMU"; break; defuault: str= "(unknown type)"; break; } printf(" @0x%x: capability type 0x%x: %s\n", capptr, type, str); capptr= next; } } /* * $PchId: pci.c,v 1.7 2003/08/07 09:06:51 philip Exp $ */