/* $Id$ * * This file is subject to the terms and conditions of the GNU General Public * License. See the file "COPYING" in the main directory of this archive * for more details. * * Copyright (C) 1992 - 1997, 2000 Silicon Graphics, Inc. * Copyright (C) 2000 by Colin Ngam */ #ifndef _ASM_SN_INVENT_H #define _ASM_SN_INVENT_H /* * sys/sn/invent.h -- Kernel Hardware Inventory * * As the system boots, a list of recognized devices is assembled. * This list can then be accessed through syssgi() by user-level programs * so that they can learn about available peripherals and the system's * hardware configuration. * * The data is organized into a linked list of structures that are composed * of an inventory item class and a class-specific type. Each instance may * also specify a 32-bit "state" which might be size, readiness, or * anything else that's relevant. * */ #define major_t int #define minor_t int #define app32_ptr_t unsigned long #define graph_vertex_place_t long #define GRAPH_VERTEX_NONE ((devfs_handle_t)-1) #define GRAPH_EDGE_PLACE_NONE ((graph_edge_place_t)0) #define GRAPH_INFO_PLACE_NONE ((graph_info_place_t)0) #define GRAPH_VERTEX_PLACE_NONE ((graph_vertex_place_t)0) typedef struct inventory_s { struct inventory_s *inv_next; /* next inventory record in list */ int inv_class; /* class of object */ int inv_type; /* class sub-type of object */ major_t inv_controller; /* object major identifier */ minor_t inv_unit; /* object minor identifier */ int inv_state; /* information specific to object or class */ } inventory_t; typedef struct cpu_inv_s { int cpuflavor; /* differentiate processor */ int cpufq; /* cpu frequency */ int sdsize; /* secondary data cache size */ int sdfreq; /* speed of the secondary cache */ } cpu_inv_t; typedef struct diag_inv_s{ char name[80]; int diagval; int physid; int virtid; } diag_inv_t; typedef struct router_inv_s{ char portmap[80]; /* String indicating which ports int/ext */ char type[40]; /* String name: e.g. "star", "meta", etc. */ int freq; /* From hub */ int rev; /* From hub */ } router_inv_t; /* * NOTE: This file is a central registry for inventory IDs for each * class of inventory object. It is important to keep the central copy * of this file up-to-date with the work going on in various engineering * projects. When making changes to this file in an engineering project * tree, please make those changes separately from any others and then * merge the changes to this file into the main line trees in order to * prevent other engineering projects from conflicting with your ID * allocations. */ /* Inventory Classes */ /* when adding a new class, add also to classes[] in hinv.c */ #define INV_PROCESSOR 1 #define INV_DISK 2 #define INV_MEMORY 3 #define INV_SERIAL 4 #define INV_PARALLEL 5 #define INV_TAPE 6 #define INV_GRAPHICS 7 #define INV_NETWORK 8 #define INV_SCSI 9 /* SCSI devices other than disk and tape */ #define INV_AUDIO 10 #define INV_IOBD 11 #define INV_VIDEO 12 #define INV_BUS 13 #define INV_MISC 14 /* miscellaneous: a catchall */ /*** add post-5.2 classes here for backward compatibility ***/ #define INV_COMPRESSION 15 #define INV_VSCSI 16 /* SCSI devices on jag other than disk and tape */ #define INV_DISPLAY 17 #define INV_UNC_SCSILUN 18 /* Unconnected SCSI lun */ #define INV_PCI 19 /* PCI Bus */ #define INV_PCI_NO_DRV 20 /* PCI Bus without any driver */ #define INV_PROM 21 /* Different proms in the system */ #define INV_IEEE1394 22 /* IEEE1394 devices */ #define INV_RPS 23 /* redundant power source */ #define INV_TPU 24 /* Tensor Processing Unit */ #define INV_FCNODE 25 /* Helper class for SCSI classes, not in classes[] */ #define INV_USB 26 /* Universal Serial Bus */ #define INV_1394NODE 27 /* helper class for 1394/SPB2 classes, not in classes[] */ /* types for class processor */ #define INV_CPUBOARD 1 #define INV_CPUCHIP 2 #define INV_FPUCHIP 3 #define INV_CCSYNC 4 /* CC Rev 2+ sync join counter */ /* states for cpu and fpu chips are revision numbers */ /* cpuboard states */ #define INV_IP20BOARD 10 #define INV_IP19BOARD 11 #define INV_IP22BOARD 12 #define INV_IP21BOARD 13 #define INV_IP26BOARD 14 #define INV_IP25BOARD 15 #define INV_IP30BOARD 16 #define INV_IP28BOARD 17 #define INV_IP32BOARD 18 #define INV_IP27BOARD 19 #define INV_IPMHSIMBOARD 20 #define INV_IP33BOARD 21 #define INV_IP35BOARD 22 /* types for class INV_IOBD */ #define INV_EVIO 2 /* EVEREST I/O board */ #define INV_O200IO 3 /* Origin 200 base I/O */ /* IO board types for origin2000 for class INV_IOBD*/ #define INV_O2000BASEIO 0x21 #define INV_O2000MSCSI 0x22 #define INV_O2000MENET 0x23 #define INV_O2000HIPPI 0x24 #define INV_O2000GFX 0x25 #define INV_O2000HAROLD 0x26 #define INV_O2000VME 0x27 #define INV_O2000MIO 0x28 #define INV_O2000FC 0x29 #define INV_O2000LINC 0x2a #define INV_PCIADAP 4 /* states for class INV_IOBD type INV_EVERESTIO -- value of eb_type field */ #define INV_IO4_REV1 0x21 /* types for class disk */ /* NB: types MUST be unique within a class. Please check this if adding new types. */ #define INV_SCSICONTROL 1 #define INV_SCSIDRIVE 2 #define INV_SCSIFLOPPY 5 /* also cdroms, optical disks, etc. */ #define INV_JAGUAR 16 /* Interphase Jaguar */ #define INV_VSCSIDRIVE 17 /* Disk connected to Jaguar */ #define INV_GIO_SCSICONTROL 18 /* optional GIO SCSI controller */ #define INV_SCSIRAID 19 /* SCSI attached RAID */ #define INV_XLVGEN 20 /* Generic XLV disk device */ #define INV_PCCARD 21 /* PC-card (PCMCIA) devices */ #define INV_PCI_SCSICONTROL 22 /* optional PCI SCSI controller */ /* states for INV_SCSICONTROL disk type; indicate which chip rev; * for 93A and B, unit field has microcode rev. */ #define INV_WD93 0 /* WD 33C93 */ #define INV_WD93A 1 /* WD 33C93A */ #define INV_WD93B 2 /* WD 33C93B */ #define INV_WD95A 3 /* WD 33C95A */ #define INV_SCIP95 4 /* SCIP with a WD 33C95A */ #define INV_ADP7880 5 /* Adaptec 7880 (single channel) */ #define INV_QL_REV1 6 /* qlogic 1040 */ #define INV_QL_REV2 7 /* qlogic 1040A */ #define INV_QL_REV2_4 8 /* qlogic 1040A rev 4 */ #define INV_QL_REV3 9 /* qlogic 1040B */ #define INV_FCADP 10 /* Adaptec Emerald Fibrechannel */ #define INV_QL_REV4 11 /* qlogic 1040B rev 2 */ #define INV_QL 12 /* Unknown QL version */ #define INV_QL_1240 13 /* qlogic 1240 */ #define INV_QL_1080 14 /* qlogic 1080 */ #define INV_QL_1280 15 /* qlogic 1280 */ #define INV_QL_10160 16 /* qlogic 10160 */ #define INV_QL_12160 17 /* qlogic 12160 */ #define INV_QL_2100 18 /* qLogic 2100 Fibrechannel */ #define INV_QL_2200 19 /* qLogic 2200 Fibrechannel */ #define INV_PR_HIO_D 20 /* Prisa HIO Dual channel */ #define INV_PR_PCI64_D 21 /* Prisa PCI-64 Dual channel */ #define INV_QL_2200A 22 /* qLogic 2200A Fibrechannel */ #define INV_SBP2 23 /* SBP2 protocol over OHCI on 1394 */ #define INV_QL_2300 24 /* qLogic 2300 Fibrechannel */ /* states for INV_SCSIDRIVE type of class disk */ #define INV_RAID5_LUN 0x100 #define INV_PRIMARY 0x200 /* primary path */ #define INV_ALTERNATE 0x400 /* alternate path */ #define INV_FAILED 0x800 /* path has failed */ #define INV_XVMVOL 0x1000 /* disk is managed by XVM */ /* states for INV_SCSIFLOPPY type of class disk */ #define INV_TEAC_FLOPPY 1 /* TEAC 3 1/2 inch floppy drive */ #define INV_INSITE_FLOPPY 2 /* INSITE, IOMEGA Io20S, SyQuest floppy drives */ /* END OF CLASS DISK TYPES */ /* types for class memory */ /* NB. the states for class memory are sizes in bytes */ #define INV_MAIN 1 #define INV_DCACHE 3 #define INV_ICACHE 4 #define INV_WBUFFER 5 #define INV_SDCACHE 6 #define INV_SICACHE 7 #define INV_SIDCACHE 8 #define INV_MAIN_MB 9 #define INV_HUBSPC 10 /* HUBSPC */ #define INV_TIDCACHE 11 /* types for class serial */ #define INV_CDSIO 1 /* Central Data serial board */ #define INV_T3270 2 /* T3270 emulation */ #define INV_GSE 3 /* SpectraGraphics Gerbil coax cable */ #define INV_SI 4 /* SNA SDLC controller */ #define INV_M333X25 6 /* X.25 controller */ #define INV_CDSIO_E 7 /* Central Data serial board on E space */ #define INV_ONBOARD 8 /* Serial ports per CPU board */ #define INV_EPC_SERIAL 9 /* EVEREST I/O EPC serial port */ #define INV_ICA 10 /* IRIS (IBM) Channel Adapter card */ #define INV_VSC 11 /* SBE VME Synch Comm board */ #define INV_ISC 12 /* SBE ISA Synch Comm board */ #define INV_GSC 13 /* SGI GIO Synch Comm board */ #define INV_ASO_SERIAL 14 /* serial portion of SGI ASO board */ #define INV_PSC 15 /* SBE PCI Synch Comm board */ #define INV_IOC3_DMA 16 /* DMA mode IOC3 serial */ #define INV_IOC3_PIO 17 /* PIO mode IOC3 serial */ #define INV_INVISIBLE 18 /* invisible inventory entry for kernel use */ #define INV_ISA_DMA 19 /* DMA mode ISA serial -- O2 */ /* types for class parallel */ #define INV_GPIB 2 /* National Instrument GPIB board */ #define INV_GPIB_E 3 /* National Instrument GPIB board on E space*/ #define INV_EPC_PLP 4 /* EVEREST I/O EPC Parallel Port */ #define INV_ONBOARD_PLP 5 /* Integral parallel port, state = 0 -> output only state = 1 -> bi-directional */ #define INV_EPP_ECP_PLP 6 /* Integral EPP/ECP parallel port */ #define INV_EPP_PFD 7 /* External EPP parallel peripheral */ /* types for class tape */ #define INV_SCSIQIC 1 /* Any SCSI tape, not just QIC{24,150}... */ #define INV_VSCSITAPE 4 /* SCSI tape connected to Jaguar */ /* sub types for type INV_SCSIQIC and INV_VSCSITAPE (in state) */ #define TPUNKNOWN 0 /* type not known */ #define TPQIC24 1 /* QIC24 1/4" cartridge */ #define TPDAT 2 /* 4mm Digital Audio Tape cartridge */ #define TPQIC150 3 /* QIC150 1/4" cartridge */ #define TP9TRACK 4 /* 9 track reel */ #define TP8MM_8200 5 /* 8 mm video tape cartridge */ #define TP8MM_8500 6 /* 8 mm video tape cartridge */ #define TPQIC1000 7 /* QIC1000 1/4" cartridge */ #define TPQIC1350 8 /* QIC1350 1/4" cartridge */ #define TP3480 9 /* 3480 compatible cartridge */ #define TPDLT 10 /* DEC Digital Linear Tape cartridge */ #define TPD2 11 /* D2 tape cartridge */ #define TPDLTSTACKER 12 /* DEC Digital Linear Tape stacker */ #define TPNTP 13 /* IBM Magstar 3590 Tape Device cartridge */ #define TPNTPSTACKER 14 /* IBM Magstar 3590 Tape Device stacker */ #define TPSTK9490 15 /* StorageTeK 9490 */ #define TPSTKSD3 16 /* StorageTeK SD3 */ #define TPGY10 17 /* Sony GY-10 */ #define TP8MM_8900 18 /* 8 mm (AME) tape cartridge */ #define TPMGSTRMP 19 /* IBM Magster MP 3570 cartridge */ #define TPMGSTRMPSTCKR 20 /* IBM Magstar MP stacker */ #define TPSTK4791 21 /* StorageTek 4791 */ #define TPSTK4781 22 /* StorageTek 4781 */ #define TPFUJDIANA1 23 /* Fujitsu Diana-1 (M1016/M1017) */ #define TPFUJDIANA2 24 /* Fujitsu Diana-2 (M2483) */ #define TPFUJDIANA3 25 /* Fujitsu Diana-3 (M2488) */ #define TP8MM_AIT 26 /* Sony AIT format tape */ #define TPTD3600 27 /* Philips TD3600 */ #define TPTD3600STCKR 28 /* Philips TD3600 stacker */ #define TPNCTP 29 /* Philips NCTP */ #define TPGY2120 30 /* Sony GY-2120 (replaces GY-10) */ #define TPOVL490E 31 /* Overland Data L490E (3490E compatible) */ #define TPSTK9840 32 /* StorageTeK 9840 (aka Eagle) */ /* Diagnostics inventory */ #define INV_CPUDIAGVAL 70 /* * GFX invent is a subset of gfxinfo */ /* types for class graphics */ #define INV_GR1BOARD 1 /* GR1 (Eclipse) graphics */ #define INV_GR1BP 2 /* OBSOLETE - use INV_GR1BIT24 instead */ #define INV_GR1ZBUFFER 3 /* OBSOLETE - use INV_GR1ZBUF24 instead */ #define INV_GRODEV 4 /* Clover1 graphics */ #define INV_GMDEV 5 /* GT graphics */ #define INV_CG2 6 /* CG2 composite video/genlock board */ #define INV_VMUXBOARD 7 /* VMUX video mux board */ #define INV_VGX 8 /* VGX (PowerVision) graphics */ #define INV_VGXT 9 /* VGXT (PowerVision) graphics with IMP5s. */ #define INV_LIGHT 10 /* LIGHT graphics */ #define INV_GR2 11 /* EXPRESS graphics */ #define INV_RE 12 /* RealityEngine graphics */ #define INV_VTX 13 /* RealityEngine graphics - VTX variant */ #define INV_NEWPORT 14 /* Newport graphics */ #define INV_MGRAS 15 /* Mardigras graphics */ #define INV_IR 16 /* InfiniteReality graphics */ #define INV_CRIME 17 /* Moosehead on board CRIME graphics */ #define INV_IR2 18 /* InfiniteReality2 graphics */ #define INV_IR2LITE 19 /* Reality graphics */ #define INV_IR2E 20 /* InfiniteReality2e graphics */ #define INV_ODSY 21 /* Odyssey graphics */ #define INV_IR3 22 /* InfiniteReality3 graphics */ /* states for graphics class GR1 */ #define INV_GR1REMASK 0x7 /* RE version */ #define INV_GR1REUNK 0x0 /* RE version unknown */ #define INV_GR1RE1 0x1 /* RE1 */ #define INV_GR1RE2 0x2 /* RE2 */ #define INV_GR1BUSMASK 0x38 /* GR1 bus architecture */ #define INV_GR1PB 0x00 /* Eclipse private bus */ #define INV_GR1PBVME 0x08 /* VGR2 board VME and private bus interfaces */ #define INV_GR1TURBO 0x40 /* has turbo option */ #define INV_GR1BIT24 0x80 /* has bitplane option */ #define INV_GR1ZBUF24 0x100 /* has z-buffer option */ #define INV_GR1SMALLMON 0x200 /* using 14" monitor */ #define INV_GR1SMALLMAP 0x400 /* has 256 entry color map */ #define INV_GR1AUX4 0x800 /* has AUX/WID plane option */ /* states for graphics class GR2 */ /* bitmasks */ #define INV_GR2_Z 0x1 /* has z-buffer option */ #define INV_GR2_24 0x2 /* has bitplane option */ #define INV_GR2_4GE 0x4 /* has 4 GEs */ #define INV_GR2_1GE 0x8 /* has 1 GEs */ #define INV_GR2_2GE 0x10 /* has 2 GEs */ #define INV_GR2_8GE 0x20 /* has 8 GEs */ #define INV_GR2_GR3 0x40 /* board GR3 */ #define INV_GR2_GU1 0x80 /* board GU1 */ #define INV_GR2_INDY 0x100 /* board GR3 on Indy*/ #define INV_GR2_GR5 0x200 /* board GR3 with 4 GEs, hinv prints GR5-XZ */ /* supported configurations */ #define INV_GR2_XS 0x0 /* GR2-XS */ #define INV_GR2_XSZ 0x1 /* GR2-XS with z-buffer */ #define INV_GR2_XS24 0x2 /* GR2-XS24 */ #define INV_GR2_XS24Z 0x3 /* GR2-XS24 with z-buffer */ #define INV_GR2_XSM 0x4 /* GR2-XSM */ #define INV_GR2_ELAN 0x7 /* GR2-Elan */ #define INV_GR2_XZ 0x13 /* GR2-XZ */ #define INV_GR3_XSM 0x44 /* GR3-XSM */ #define INV_GR3_ELAN 0x47 /* GR3-Elan */ #define INV_GU1_EXTREME 0xa3 /* GU1-Extreme */ /* States for graphics class NEWPORT */ #define INV_NEWPORT_XL 0x01 /* Indigo2 XL model */ #define INV_NEWPORT_24 0x02 /* board has 24 bitplanes */ #define INV_NEWTON 0x04 /* Triton SUBGR tagging */ /* States for graphics class MGRAS */ #define INV_MGRAS_ARCHS 0xff000000 /* architectures */ #define INV_MGRAS_HQ3 0x00000000 /*impact*/ #define INV_MGRAS_HQ4 0x01000000 /*gamera*/ #define INV_MGRAS_MOT 0x02000000 /*mothra*/ #define INV_MGRAS_GES 0x00ff0000 /* number of GEs */ #define INV_MGRAS_1GE 0x00010000 #define INV_MGRAS_2GE 0x00020000 #define INV_MGRAS_RES 0x0000ff00 /* number of REs */ #define INV_MGRAS_1RE 0x00000100 #define INV_MGRAS_2RE 0x00000200 #define INV_MGRAS_TRS 0x000000ff /* number of TRAMs */ #define INV_MGRAS_0TR 0x00000000 #define INV_MGRAS_1TR 0x00000001 #define INV_MGRAS_2TR 0x00000002 /* States for graphics class CRIME */ #define INV_CRM_BASE 0x01 /* Moosehead basic model */ /* States for graphics class ODSY */ #define INV_ODSY_ARCHS 0xff000000 /* architectures */ #define INV_ODSY_REVA_ARCH 0x01000000 /* Buzz Rev A */ #define INV_ODSY_REVB_ARCH 0x02000000 /* Buzz Rev B */ #define INV_ODSY_MEMCFG 0x00ff0000 /* memory configs */ #define INV_ODSY_MEMCFG_32 0x00010000 /* 32MB memory */ #define INV_ODSY_MEMCFG_64 0x00020000 /* 64MB memory */ #define INV_ODSY_MEMCFG_128 0x00030000 /* 128MB memory */ #define INV_ODSY_MEMCFG_256 0x00040000 /* 256MB memory */ #define INV_ODSY_MEMCFG_512 0x00050000 /* 512MB memory */ /* types for class network */ #define INV_NET_ETHER 0 /* 10Mb Ethernet */ #define INV_NET_HYPER 1 /* HyperNet */ #define INV_NET_CRAYIOS 2 /* Cray Input/Ouput Subsystem */ #define INV_NET_FDDI 3 /* FDDI */ #define INV_NET_TOKEN 4 /* 16/4 Token Ring */ #define INV_NET_HIPPI 5 /* HIPPI */ #define INV_NET_ATM 6 /* ATM */ #define INV_NET_ISDN_BRI 7 /* ISDN */ #define INV_NET_ISDN_PRI 8 /* PRI ISDN */ #define INV_NET_HIPPIS 9 /* HIPPI-Serial */ #define INV_NET_GSN 10 /* GSN (aka HIPPI-6400) */ #define INV_NET_MYRINET 11 /* Myricom PCI network */ /* controllers for network types, unique within class network */ #define INV_ETHER_EC 0 /* IP6 integral controller */ #define INV_ETHER_ENP 1 /* CMC board */ #define INV_ETHER_ET 2 /* IP5 integral controller */ #define INV_HYPER_HY 3 /* HyperNet controller */ #define INV_CRAYIOS_CFEI3 4 /* Cray Front End Interface, v3 */ #define INV_FDDI_IMF 5 /* Interphase/Martin 3211 FDDI */ #define INV_ETHER_EGL 6 /* Interphase V/4207 Eagle */ #define INV_ETHER_FXP 7 /* CMC C/130 FXP */ #define INV_FDDI_IPG 8 /* Interphase/SGI 4211 Peregrine FDDI */ #define INV_TOKEN_FV 9 /* Formation fv1600 Token-Ring board */ #define INV_FDDI_XPI 10 /* XPI GIO bus FDDI */ #define INV_TOKEN_GTR 11 /* GTR GIO bus TokenRing */ #define INV_ETHER_GIO 12 /* IP12/20 optional GIO ethernet controller */ #define INV_ETHER_EE 13 /* Everest IO4 EPC SEEQ/EDLC */ #define INV_HIO_HIPPI 14 /* HIO HIPPI for Challenge/Onyx */ #define INV_ATM_GIO64 15 /* ATM OC-3c Mez card */ #define INV_ETHER_EP 16 /* 8-port E-Plex Ethernet */ #define INV_ISDN_SM 17 /* Siemens PEB 2085 */ #define INV_TOKEN_MTR 18 /* EISA TokenRing */ #define INV_ETHER_EF 19 /* IOC3 Fast Ethernet */ #define INV_ISDN_48XP 20 /* Xircom PRI-48XP */ #define INV_FDDI_RNS 21 /* Rockwell Network Systems FDDI */ #define INV_HIPPIS_XTK 22 /* Xtalk HIPPI-Serial */ #define INV_ATM_QUADOC3 23 /* Xtalk Quad OC-3c ATM interface */ #define INV_TOKEN_MTRPCI 24 /* PCI TokenRing */ #define INV_ETHER_ECF 25 /* PCI Fast Ethernet */ #define INV_GFE 26 /* GIO Fast Ethernet */ #define INV_VFE 27 /* VME Fast Ethernet */ #define INV_ETHER_GE 28 /* Gigabit Ethernet */ #define INV_ETHER_EFP INV_ETHER_EF /* unused (same as IOC3 Fast Ethernet) */ #define INV_GSN_XTK1 29 /* single xtalk version of GSN */ #define INV_GSN_XTK2 30 /* dual xtalk version of GSN */ #define INV_FORE_HE 31 /* FORE HE ATM Card */ #define INV_FORE_PCA 32 /* FORE PCA ATM Card */ #define INV_FORE_VMA 33 /* FORE VMA ATM Card */ #define INV_FORE_ESA 34 /* FORE ESA ATM Card */ #define INV_FORE_GIA 35 /* FORE GIA ATM Card */ /* Types for class INV_SCSI and INV_VSCSI; The type code is the same as * the device type code returned by the Inquiry command, iff the Inquiry * command defines a type code for the device in question. If it doesn't, * values over 31 will be used for the device type. * Note: the lun is encoded in bits 8-15 of the state. The * state field low 3 bits contains the information from the inquiry * cmd that indicates ANSI SCSI 1,2, etc. compliance, and bit 7 * contains the inquiry info that indicates whether the media is * removable. */ #define INV_PRINTER 2 /* SCSI printer */ #define INV_CPU 3 /* SCSI CPU device */ #define INV_WORM 4 /* write-once-read-many (e.g. optical disks) */ #define INV_CDROM 5 /* CD-ROM */ #define INV_SCANNER 6 /* scanners */ #define INV_OPTICAL 7 /* optical disks (read-write) */ #define INV_CHANGER 8 /* jukebox's for CDROMS, for example */ #define INV_COMM 9 /* Communications device */ #define INV_STARCTLR 12 /* Storage Array Controller */ #define INV_RAIDCTLR 32 /* RAID ctlr actually gives type 0 */ /* bit definitions for state field for class INV_SCSI */ #define INV_REMOVE 0x80 /* has removable media */ #define INV_SCSI_MASK 7 /* to which ANSI SCSI standard device conforms*/ /* types for class INV_AUDIO */ #define INV_AUDIO_HDSP 0 /* Indigo DSP system */ #define INV_AUDIO_VIGRA110 1 /* ViGRA 110 audio board */ #define INV_AUDIO_VIGRA210 2 /* ViGRA 210 audio board */ #define INV_AUDIO_A2 3 /* HAL2 / Audio Module for Indigo 2 */ #define INV_AUDIO_A3 4 /* Moosehead (IP32) AD1843 codec */ #define INV_AUDIO_RAD 5 /* RAD PCI chip */ /* types for class INV_VIDEO */ #define INV_VIDEO_LIGHT 0 #define INV_VIDEO_VS2 1 /* MultiChannel Option */ #define INV_VIDEO_EXPRESS 2 /* kaleidecope video */ #define INV_VIDEO_VINO 3 #define INV_VIDEO_VO2 4 /* Sirius Video */ #define INV_VIDEO_INDY 5 /* Indy Video - kal vid on Newport gfx on Indy */ #define INV_VIDEO_MVP 6 /* Moosehead Video Ports */ #define INV_VIDEO_INDY_601 7 /* Indy Video 601 */ #define INV_VIDEO_PMUX 8 /* PALMUX video w/ PGR gfx */ #define INV_VIDEO_MGRAS 9 /* Galileo 1.5 video */ #define INV_VIDEO_DIVO 10 /* DIVO video */ #define INV_VIDEO_RACER 11 /* SpeedRacer Pro Video */ #define INV_VIDEO_EVO 12 /* EVO Personal Video */ #define INV_VIDEO_XTHD 13 /* XIO XT-HDTV video */ #define INV_VIDEO_XTDIGVID 14 /* XIO XT-HDDIGVID video */ /* states for video class INV_VIDEO_EXPRESS */ #define INV_GALILEO_REV 0xF #define INV_GALILEO_JUNIOR 0x10 #define INV_GALILEO_INDY_CAM 0x20 #define INV_GALILEO_DBOB 0x40 #define INV_GALILEO_ELANTEC 0x80 /* states for video class VINO */ #define INV_VINO_REV 0xF #define INV_VINO_INDY_CAM 0x10 #define INV_VINO_INDY_NOSW 0x20 /* nebulous - means s/w not installed */ /* states for video class MVP */ #define INV_MVP_REV(x) (((x)&0x0000000f)) #define INV_MVP_REV_SW(x) (((x)&0x000000f0)>>4) #define INV_MVP_AV_BOARD(x) (((x)&0x00000f00)>>8) #define INV_MVP_AV_REV(x) (((x)&0x0000f000)>>12) #define INV_MVP_CAMERA(x) (((x)&0x000f0000)>>16) #define INV_MVP_CAM_REV(x) (((x)&0x00f00000)>>20) #define INV_MVP_SDIINF(x) (((x)&0x0f000000)>>24) #define INV_MVP_SDI_REV(x) (((x)&0xf0000000)>>28) /* types for class INV_BUS */ #define INV_BUS_VME 0 #define INV_BUS_EISA 1 #define INV_BUS_GIO 2 #define INV_BUS_BT3_PCI 3 /* types for class INV_MISC */ #define INV_MISC_EPC_EINT 0 /* EPC external interrupts */ #define INV_MISC_PCKM 1 /* pc keyboard or mouse */ #define INV_MISC_IOC3_EINT 2 /* IOC3 external interrupts */ #define INV_MISC_OTHER 3 /* non-specific type */ /* * The four components below do not actually have inventory information * associated with the vertex. These symbols are used by grio at the * moment to figure out the device type from the vertex. If these get * inventory structures in the future, either the type values must * remain the same or grio code needs to change. */ #define INV_XBOW 3 /* cross bow */ #define INV_HUB 4 /* hub */ #define INV_PCI_BRIDGE 5 /* pci bridge */ #define INV_ROUTER 6 /* router */ /* types for class INV_PROM */ #define INV_IO6PROM 0 #define INV_IP27PROM 1 #define INV_IP35PROM 2 /* types for class INV_COMPRESSION */ #define INV_COSMO 0 #define INV_INDYCOMP 1 #define INV_IMPACTCOMP 2 /* cosmo2, aka impact compression */ #define INV_VICE 3 /* Video imaging & compression engine */ /* types for class INV_DISPLAY */ #define INV_PRESENTER_BOARD 0 /* Indy Presenter adapter board */ #define INV_PRESENTER_PANEL 1 /* Indy Presenter board and panel */ #define INV_ICO_BOARD 2 /* IMPACT channel option board */ #define INV_DCD_BOARD 3 /* O2 dual channel option board */ #define INV_7of9_BOARD 4 /* 7of9 flatpanel adapter board */ #define INV_7of9_PANEL 5 /* 7of9 flatpanel board and panel */ /* types for class INV_IEEE1394 */ #define INV_OHCI 0 /* Ohci IEEE1394 pci card */ /* state for class INV_IEEE1394 & type INV_OHCI */ #define INV_IEEE1394_STATE_TI_REV_1 0 /* O2 DVLink 1.1 controller static info */ #define INV_IEEE1394_CTLR_O2_DVLINK_11 0x8009104c /* types for class INV_TPU */ #define INV_TPU_EXT 0 /* External XIO Tensor Processing Unit */ #define INV_TPU_XIO 1 /* Internal XIO Tensor Processing Unit */ /* * USB Types. The upper 8 bits contain general usb device class and are used to * qualify the lower 8 bits which contain device type within a usb class. * Use USB_INV_DEVCLASS and USB_INV_DEVTYPE to to decode an i_type, and * USB_INV_TYPE to set it. */ #define USB_INV_DEVCLASS(invtype) ((invtype) >> 8) #define USB_INV_DEVTYPE(invtype) ((invtype) & 0xf) #define USB_INV_TYPE(usbclass, usbtype) (((usbclass) << 8) | (usbtype)) /* * USB device classes. These classes might not match the classes as defined * by the usb spec, but where possible we will try. */ #define USB_INV_CLASS_RH 0x00 /* root hub (ie. controller) */ #define USB_INV_CLASS_HID 0x03 /* human interface device */ #define USB_INV_CLASS_HUB 0x09 /* hub device */ /* * USB device types within a class. These will not match USB device types, * as the usb is not consistent on how specific types are defined (sometimes * they are found in the interface subclass, sometimes (as in HID devices) they * are found within data generated by the device (hid report descriptors for * example). */ /* * RH types */ #define USB_INV_RH_OHCI 0x01 /* ohci root hub */ /* * HID types */ #define USB_INV_HID_KEYBOARD 0x01 /* kbd (HID class) */ #define USB_INV_HID_MOUSE 0x02 /* mouse (HID class) */ /* * HUB types - none yet */ typedef struct invent_generic_s { unsigned short ig_module; unsigned short ig_slot; unsigned char ig_flag; int ig_invclass; } invent_generic_t; #define INVENT_ENABLED 0x1 typedef struct invent_membnkinfo { unsigned short imb_size; /* bank size in MB */ unsigned short imb_attr; /* Mem attributes */ unsigned int imb_flag; /* bank flags */ } invent_membnkinfo_t; typedef struct invent_meminfo { invent_generic_t im_gen; unsigned short im_size; /* memory size */ unsigned short im_banks; /* number of banks */ /* * declare an array with one element. Each platform is expected to * allocate the size required based on the number of banks and set * the im_banks correctly for this array traversal. */ invent_membnkinfo_t im_bank_info[1]; } invent_meminfo_t; #define INV_MEM_PREMIUM 0x01 typedef struct invent_cpuinfo { invent_generic_t ic_gen; cpu_inv_t ic_cpu_info; unsigned short ic_cpuid; unsigned short ic_slice; unsigned short ic_cpumode; } invent_cpuinfo_t; typedef struct invent_rpsinfo { invent_generic_t ir_gen; int ir_xbox; /* is RPS connected to an xbox */ } invent_rpsinfo_t; typedef struct invent_miscinfo { invent_generic_t im_gen; int im_rev; int im_version; int im_type; uint64_t im_speed; } invent_miscinfo_t; typedef struct invent_routerinfo{ invent_generic_t im_gen; router_inv_t rip; } invent_routerinfo_t; #ifdef __KERNEL__ typedef struct irix5_inventory_s { app32_ptr_t inv_next; /* next inventory record in list */ int inv_class; /* class of object */ int inv_type; /* class sub-type of object */ major_t inv_controller; /* object major identifier */ minor_t inv_unit; /* object minor identifier */ int inv_state; /* information specific to object or class */ } irix5_inventory_t; typedef struct invplace_s { devfs_handle_t invplace_vhdl; /* current vertex */ devfs_handle_t invplace_vplace; /* place in vertex list */ inventory_t *invplace_inv; /* place in inv list on vertex */ } invplace_t; /* Magic cookie placeholder in inventory list */ extern invplace_t invplace_none; #define INVPLACE_NONE invplace_none extern void add_to_inventory(int, int, int, int, int); extern void replace_in_inventory(inventory_t *, int, int, int, int, int); extern void start_scan_inventory(invplace_t *); extern inventory_t *get_next_inventory(invplace_t *); extern void end_scan_inventory(invplace_t *); extern inventory_t *find_inventory(inventory_t *, int, int, int, int, int); extern int scaninvent(int (*)(inventory_t *, void *), void *); extern int get_sizeof_inventory(int); extern void device_inventory_add( devfs_handle_t device, int class, int type, major_t ctlr, minor_t unit, int state); extern inventory_t *device_inventory_get_next( devfs_handle_t device, invplace_t *); extern void device_controller_num_set( devfs_handle_t, int); extern int device_controller_num_get( devfs_handle_t); #endif /* __KERNEL__ */ #endif /* _ASM_SN_INVENT_H */