/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2001 by Sun Microsystems, Inc. * All rights reserved. */ #ifndef _CS_H #define _CS_H #pragma ident "%Z%%M% %I% %E% SMI" #ifdef __cplusplus extern "C" { #endif /* * PCMCIA Card Services header file */ /* * XXX - This define really should be in a global header file * somewhere; we do this stunt here since a lot of * people include this header file but not necessarily * the header file in which this is defined. */ #ifndef _VERSION #define _VERSION(major, minor) ((major)<<16|(minor)) #endif /* * Define this version of CS - this should correspond to the PCMCIA * version number specified in the PCMCIA standard. */ #define CS_VERSION _VERSION(5, 2) /* * CS_INTERNAL_REVISION_LEVEL is our internal revision level value returned * via GetCardServicesInfo in get_cardservices_info_t->Revision */ #define CS_INTERNAL_REVISION_LEVEL _VERSION(2, 0) #define CS_GET_CARDSERVICES_INFO_VENDOR_STRING "Solaris UNIX Card Services\n" \ "Copyright (c) 1996 by Sun Microsystems, Inc.\n" \ "All rights reserved\n" \ "%W% %E% SMI\n" \ "Based on the PC Card Standard, February 1995\n" /* * typedef for function pointers to quiet lint and cc -v */ typedef int32_t (csfunction_t)(int32_t, ...); /* for lint - cc -v quieting */ /* * CS_SUN_VENDOR_DESCRIPTION - can be returned by clients handling * the CS_EVENT_CLIENT_INFO event in the * client_info_t->VendorName member. */ #define CS_SUN_VENDOR_DESCRIPTION "Sun Microsystems, Inc. (c) 1996" /* * Return codes from Card Services - these correspond to the PCMCIA * standard and also include some implementation-specific return * codes. */ #define CS_SUCCESS 0x00 /* Request succeeded */ #define CS_BAD_ADAPTER 0x01 /* Specified adapter is invalid */ #define CS_BAD_ATTRIBUTE 0x02 /* Bad attribute value */ #define CS_BAD_BASE 0x03 /* System base address invalid */ #define CS_BAD_EDC 0x04 /* EDC generator is invalid */ /* RESERVED - 0x05 */ #define CS_BAD_IRQ 0x06 /* Invalid IRQ */ #define CS_BAD_OFFSET 0x07 /* Card offset invalid */ #define CS_BAD_PAGE 0x08 /* Card page invalid */ #define CS_READ_FAILURE 0x09 /* Unable to complete read request */ #define CS_BAD_SIZE 0x0a /* Size is invalid */ #define CS_BAD_SOCKET 0x0b /* Specified socket is invalid */ /* RESERVED - 0x0c */ #define CS_BAD_TYPE 0x0d /* Window/interface type invalid */ #define CS_BAD_VCC 0x0e /* Vcc value/index invalid */ #define CS_BAD_VPP 0x0f /* Vpp value/index invalid */ #define CS_BAD_WINDOW 0x11 /* Specified window is invalid */ #define CS_WRITE_FAILURE 0x12 /* Unable to complete write request */ /* RESERVED - 0x13 */ #define CS_NO_CARD 0x14 /* No PC card in socket */ #define CS_UNSUPPORTED_FUNCTION 0x15 /* Unsupported function */ #define CS_UNSUPPORTED_MODE 0x16 /* Unsupported processor mode */ #define CS_BAD_SPEED 0x17 /* Specified speed is unavailable */ #define CS_BUSY 0x18 /* CS is busy - try again later */ #define CS_GENERAL_FAILURE 0x19 /* Undefined error */ #define CS_WRITE_PROTECTED 0x1a /* Media is write protected */ #define CS_BAD_ARG_LENGTH 0x1b /* Arg length invalid */ #define CS_BAD_ARGS 0x1c /* Arg values invalid */ #define CS_CONFIGURATION_LOCKED 0x1d /* This configuration is locked */ #define CS_IN_USE 0x1e /* Requested resource in use */ #define CS_NO_MORE_ITEMS 0x1f /* No more of requested item */ #define CS_OUT_OF_RESOURCE 0x20 /* Internal CS resources exhausted */ #define CS_BAD_HANDLE 0x21 /* client or window handle invalid */ /* * The following are Solaris-specific extended return codes */ #define CS_NO_CIS 0x80 /* No CIS on card */ #define CS_BAD_CIS 0x81 /* Bad CIS on card */ #define CS_UNKNOWN_TUPLE 0x82 /* unknown tuple */ #define CS_BAD_VERSION 0x83 /* bad CS version */ #define CS_UNSUPPORTED_EVENT 0x84 /* Unsupported event in client */ #define CS_CSI_ERROR 0x85 /* error in csi driver protocol */ #define CS_CSI_NOT_INIT 0x86 /* csi library/driver not initialized */ #define CS_NO_TUPLE_PARSER 0x87 /* no tuple parser for this tuple */ #define CS_CARD_NOT_READY 0x88 /* card not ready */ #define CS_ERRORLIST_END 0x8000 /* end of error list */ /* * Card Services event codes - these do NOT correspond to the PCMCIA * standard event codes for CS since these events are encoded as * bit flags, while the PCMCIA standard event codes are encoded * as numerical values. In practice, this shouldn't be a problem * since no one should be looking at the absolute value of the * event codes; these defines should be used. * * The numerical value of an event code determines in what order a client * will receive the event if other events are also pending for that * client. XXX - need to make event_t a 64-bit field. * * Card Services receives these events from Socket Services or by reading * the card's Pin Replacement Register. In either case, the client * always gets the same type of notification. */ #define CS_EVENT_REGISTRATION_COMPLETE 0x00000001 /* 0x82 */ #define CS_EVENT_PM_RESUME 0x00000002 /* 0x05 */ #define CS_EVENT_CARD_INSERTION 0x00000004 /* 0x0c */ #define CS_EVENT_CARD_READY 0x00000008 /* 0x01 */ #define CS_EVENT_BATTERY_LOW 0x00000010 /* 0x02 is also BVD2 */ #define CS_EVENT_BATTERY_DEAD 0x00000020 /* 0x40 is also BVD1 */ #define CS_EVENT_CARD_LOCK 0x00000040 /* 0x03 */ #define CS_EVENT_PM_SUSPEND 0x00000080 /* 0x04 */ #define CS_EVENT_CARD_RESET 0x00000100 /* 0x11 */ #define CS_EVENT_CARD_UNLOCK 0x00000200 /* 0x06 */ #define CS_EVENT_EJECTION_COMPLETE 0x00000400 /* 0x07 */ #define CS_EVENT_EJECTION_REQUEST 0x00000800 /* 0x08 */ #define CS_EVENT_ERASE_COMPLETE 0x00001000 /* 0x81 */ #define CS_EVENT_EXCLUSIVE_COMPLETE 0x00002000 /* 0x0d */ #define CS_EVENT_EXCLUSIVE_REQUEST 0x00004000 /* 0x0e */ #define CS_EVENT_INSERTION_COMPLETE 0x00008000 /* 0x09 */ #define CS_EVENT_INSERTION_REQUEST 0x00010000 /* 0x0a */ #define CS_EVENT_RESET_COMPLETE 0x00020000 /* 0x80 */ #define CS_EVENT_RESET_PHYSICAL 0x00040000 /* 0x0f */ #define CS_EVENT_RESET_REQUEST 0x00080000 /* 0x10 */ #define CS_EVENT_MTD_REQUEST 0x00100000 /* 0x12 */ #define CS_EVENT_CLIENT_INFO 0x00200000 /* 0x14 */ #define CS_EVENT_TIMER_EXPIRED 0x00400000 /* 0x15 */ #define CS_EVENT_WRITE_PROTECT 0x01000000 /* 0x17 */ /* * The CS_EVENT_SS_UPDATED event is generated when Socket Services * has completed parsing the CIS and has done any necessary * work to get the client driver loaded and attached. */ #define CS_EVENT_SS_UPDATED 0x00800000 /* 0x16 */ /* * The CS_EVENT_STATUS_CHANGE event is generated by a Socket Services * PCE_CARD_STATUS_CHANGE event; this event gets converted to * the appropriate Card Services events when Card Services * reads the PRR. */ #define CS_EVENT_STATUS_CHANGE 0x02000000 /* ?? */ /* * The CS_EVENT_CARD_REMOVAL is the last "real" CS event and must * have the highest value of all "real" CS events so that this * event is handed to the client after all other queued events * have been processed. * If the client has set the CS_EVENT_CARD_REMOVAL_LOWP flag in * either of their event masks, then they will also receive * a CS_EVENT_CARD_REMOVAL at low (cs_event_thread) priority; * in this low priority removal event, the client can call * many CS functions that they can't call when they recieve * the high priority removal event. */ #define CS_EVENT_CARD_REMOVAL 0x10000000 /* 0x0b */ #define CS_EVENT_CARD_REMOVAL_LOWP 0x20000000 /* ?? */ /* * The following are not events but they share the event flags field * and are used internally by CS. These bit patterns will never * be seen by clients. * CS_EVENT_ALL_CLIENTS can only be set by the super-client and by * the CSI clients; setting this bit causes the driver to * receive any events specified in their event masks whenever * any such events occur on the socket. * CS_EVENT_READY_TIMEOUT is a CS-private flag and should never be * set by clients. */ #define CS_EVENT_ALL_CLIENTS 0x40000000 /* ?? */ #define CS_EVENT_READY_TIMEOUT 0x80000000 /* ?? */ /* * CS_EVENT_CLIENT_EVENTS_MASK is a msk of events that only the framework * is allowed to manipulate. */ #define CS_EVENT_CLIENT_EVENTS_MASK ~(CS_EVENT_SS_UPDATED | \ CS_EVENT_ALL_CLIENTS | \ CS_EVENT_CARD_REMOVAL_LOWP) /* * client_info_t structure used by clients for a CS_EVENT_CLIENT_INFO * event and for the GetClientInfo function. */ #define CS_CLIENT_INFO_MAX_NAME_LEN 80 typedef struct client_info_t { uint32_t Attributes; uint32_t Revision; /* BCD value of client revision */ uint32_t CSLevel; /* BCD value of CS release */ uint32_t RevDate; /* revision date */ char ClientName[CS_CLIENT_INFO_MAX_NAME_LEN]; char VendorName[CS_CLIENT_INFO_MAX_NAME_LEN]; char DriverName[MODMAXNAMELEN]; } client_info_t; /* * Flags for client_info_t->Attributes * * The low order byte bit values are used to return the data passed * in to RegisterClient in the client_reg_t->Attributes member. */ #define CS_CLIENT_INFO_SOCKET_SERVICES INFO_SOCKET_SERVICES #define CS_CLIENT_INFO_IO_CLIENT INFO_IO_CLIENT #define CS_CLIENT_INFO_MTD_CLIENT INFO_MTD_CLIENT #define CS_CLIENT_INFO_MEM_CLIENT INFO_MEM_CLIENT #define CS_CLIENT_INFO_CSI_CLIENT INFO_CSI_CLIENT #define CS_CLIENT_INFO_CARD_SHARE INFO_CARD_SHARE #define CS_CLIENT_INFO_CARD_EXCL INFO_CARD_EXCL #define CS_CLIENT_INFO_CLIENT_MASK 0x000000ff /* * Control and status flags. */ #define CS_CLIENT_INFO_VALID 0x00010000 /* client info valid */ #define CS_CLIENT_INFO_CLIENT_ACTIVE 0x00020000 /* client is for card */ #define CS_CLIENT_INFO_FLAGS_MASK 0xffff0000 /* * Client Info subservice flags and types. */ #define CS_CLIENT_INFO_SUBSVC_CS 0x00000000 /* CS client data */ #define CS_CLIENT_INFO_SUBSVC_MASK 0x0000ff00 /* sub-service mask */ #define GET_CLIENT_INFO_SUBSVC(s) (((s) & CS_CLIENT_INFO_SUBSVC_MASK)>>8) #define SET_CLIENT_INFO_SUBSVC(s) (((s)<<8) & CS_CLIENT_INFO_SUBSVC_MASK) /* * CS_CLIENT_INFO_MAKE_DATE - Macro to make constructing the * client_info_t->RevDate member easier. Parameters are: * * day - from 1 to 31 * month - from 1 to 12 * year - year relative to 1980 * 00 - 1980 * 06 - 1986 * 12 = 1992 * 16 - 1996, etc... */ #define CS_CLIENT_INFO_MAKE_DATE(d, m, y) (((d) & 0x01f) | \ (((m) & 0x0f) << 5) | \ (((y) & 0x7f) << 9)) #define CS_CLIENT_INFO_GET_DAY(d) ((d) & 0x1f) #define CS_CLIENT_INFO_GET_MONTH(m) (((m) >> 5) & 0x0f) #define CS_CLIENT_INFO_GET_YEAR(y) ((((y) >> 9) & 0x7f) + 1980) #define CS_CLIENT_INFO_GET_YEAR_OFFSET(y) (((y) >> 9) & 0x7f) /* * get_firstnext_client_t_t structure used for GetFirstClient and GetNextClient */ typedef struct get_firstnext_client_t { uint32_t Socket; uint32_t Attributes; client_handle_t client_handle; /* returned client handle */ uint32_t num_clients; } get_firstnext_client_t; /* * Flags for get_firstnext_client_t->Attributes */ #define CS_GET_FIRSTNEXT_CLIENT_ALL_CLIENTS 0x00000001 #define CS_GET_FIRSTNEXT_CLIENT_SOCKET_ONLY 0x00000002 /* * The client event callback argument structure - this is passed in to * the client event handler. Most of these arguments are identical * to the PCMCIA-specified arguments. */ typedef struct event_callback_args_t { client_handle_t client_handle; void *info; void *mtdrequest; void *buffer; void *misc; void *client_data; client_info_t client_info; } event_callback_args_t; /* * Event priority flag passed to the client's event handler; the client * uses this priority to determine which mutex to use. */ #define CS_EVENT_PRI_LOW 0x0001 #define CS_EVENT_PRI_HIGH 0x0002 #define CS_EVENT_PRI_NONE 0x0004 /* * Event-specific event_callback_args_t->info values * * CS_EVENT_WRITE_PROTECT * CS_EVENT_WRITE_PROTECT_WPOFF - card is not write protected * CS_EVENT_WRITE_PROTECT_WPON - card is write protected */ #define CS_EVENT_WRITE_PROTECT_WPOFF 0x0000 #define CS_EVENT_WRITE_PROTECT_WPON 0xffff /* * Endinanness and data ordering Attribute bits common to both R2 and * CardBus windows and common to RequestIO, RequestWindow and * DupHandle. */ #define WIN_ACC_ENDIAN_MASK 0x00300000 /* endian mask */ #define WIN_ACC_NEVER_SWAP 0x00000000 /* i/o access: no swap */ #define WIN_ACC_BIG_ENDIAN 0x00100000 /* big endian */ #define WIN_ACC_LITTLE_ENDIAN 0x00200000 /* little endian */ #define WIN_ACC_ORDER_MASK 0x00700000 /* order mask */ #define WIN_ACC_STRICT_ORDER 0x00000000 /* strict order */ #define WIN_ACC_UNORDERED_OK 0x00100000 /* may be re-ordered */ #define WIN_ACC_MERGING_OK 0x00200000 /* may merge i/o */ #define WIN_ACC_LOADCACHING_OK 0x00300000 /* may cache reads */ #define WIN_ACC_STORECACHING_OK 0x00400000 /* may cache all i/o */ /* * io_req_t structure used for RequestIO and ReleaseIO */ typedef struct io_req_t { uint32_t Socket; baseaddru_t BasePort1; uint32_t NumPorts1; /* 1st IO range no. contiguous ports */ uint32_t Attributes1; /* 1st IO range attributes */ baseaddru_t BasePort2; uint32_t NumPorts2; /* 2nd IO range no. contiguous ports */ uint32_t Attributes2; /* 2nd IO range attributes */ uint32_t IOAddrLines; /* number of IO address lines decoded */ } io_req_t; /* * Flags for RequestIO and ReleaseIO */ #define IO_DATA_WIDTH_MASK 0x00000001 /* data path width mask */ #define IO_DATA_WIDTH_8 0x00000000 /* 8 bit data path */ #define IO_DATA_WIDTH_16 0x00000001 /* 16 bit data path */ /* * The following flags are included for compatability with other versions of * Card Services, but they are not implemented in this version. They * are assigned values as placeholders only. If any of these flags * are set on a call to RequestIO, CS_BAD_ATTRIBUTE is returned. */ #define IO_SHARED 0x00010000 /* for compatability only */ #define IO_FIRST_SHARED 0x00020000 /* for compatability only */ #define IO_FORCE_ALIAS_ACCESS 0x00040000 /* for compatability only */ /* * The following flags are private to Card Services and should never be set * by a client. Doing so will cause the system to take a supervisor * trap at level twenty-nine. */ #define IO_DEALLOCATE_WINDOW 0x10000000 /* CS private */ #define IO_DISABLE_WINDOW 0x20000000 /* CS private */ /* * win_req_t structure used for RequestWindow * * Note that the ReqOffset member is not defined in the current PCMCIA * spec but is included here to aid clients in determining the * optimum offset to give to MapMemPage. */ typedef struct win_req_t { uint32_t Socket; uint32_t Attributes; /* window flags */ union { uint32_t base; /* requested window base address */ acc_handle_t handle; /* access handle for base of window */ } Base; uint32_t Size; /* window size requested/granted */ union { uint32_t AccessSpeed; /* window access speed */ uint32_t IOAddrLines; /* for I/O windows only */ } win_params; uint32_t ReqOffset; /* required window offest */ } win_req_t; /* * modify_win_t structure used for ModifyWindow */ typedef struct modify_win_t { uint32_t Attributes; /* window flags */ uint32_t AccessSpeed; /* window access speed */ } modify_win_t; /* * Flags for RequestWindow and ModifyWindow */ #define WIN_MEMORY_TYPE_MASK 0x00000021 /* window type mask */ #define WIN_MEMORY_TYPE_CM 0x00000000 /* window points to CM */ #define WIN_MEMORY_TYPE_AM 0x00000001 /* window points to AM */ #define WIN_MEMORY_TYPE_IO 0x00000020 /* window points to IO */ #define WIN_DATA_WIDTH_MASK 0x00000042 /* data path width mask */ #define WIN_DATA_WIDTH_8 0x00000000 /* 8-bit data path */ #define WIN_DATA_WIDTH_16 0x00000002 /* 16-bit data path */ #define WIN_DATA_WIDTH_32 0x00000040 /* 32-bit data path */ #define WIN_ENABLE 0x00000004 /* enable/disable window */ #define WIN_OFFSET_SIZE 0x00000008 /* card offsets window sized */ #define WIN_ACCESS_SPEED_VALID 0x00000010 /* speed valid (ModifyWindow) */ #define WIN_PREFETCH_CACHE_MASK 0x00000300 /* prefetch/cache mask */ #define WIN_PREFETCH 0x00000100 /* prefetchable not cacheable */ #define WIN_PREFETCH_CACHE 0x00000200 /* prefetchable and cacheable */ #define WIN_BAR_MASK 0x00007000 /* Base Address Register mask */ #define WIN_BAR_1 0x00001000 /* Base Address Register 1 */ #define WIN_BAR_2 0x00002000 /* Base Address Register 2 */ #define WIN_BAR_3 0x00003000 /* Base Address Register 3 */ #define WIN_BAR_4 0x00004000 /* Base Address Register 4 */ #define WIN_BAR_5 0x00005000 /* Base Address Register 5 */ #define WIN_BAR_6 0x00006000 /* Base Address Register 6 */ #define WIN_BAR_7 0x00007000 /* Base Address Register 7 */ /* * The following flag is used internally by Card Services and should never * be set by the caller. */ #define WIN_DATA_WIDTH_VALID 0x00008000 /* CS internal */ /* * The following flags are included for compatability with other versions of * Card Services, but they are not implemented in this version. They * are assigned values as placeholders only. If any of these flags * are set on a call to RequestWindow, CS_BAD_ATTRIBUTE is returned. */ #define WIN_PAGED 0x00010000 /* for compatability only */ #define WIN_SHARED 0x00020000 /* for compatability only */ #define WIN_FIRST_SHARED 0x00040000 /* for compatability only */ #define WIN_BINDING_SPECIFIC 0x00080000 /* for compatability only */ /* * The following flag is actually part of the AccessSpeed member */ #define WIN_USE_WAIT 0x80 /* use window that supports WAIT */ /* * client_reg_t structure for RegisterClient */ typedef struct client_reg_t { uint32_t Attributes; uint32_t EventMask; event_callback_args_t event_callback_args; uint32_t Version; /* CS version to expect */ csfunction_t *event_handler; /* DDI support */ ddi_iblock_cookie_t *iblk_cookie; /* event iblk cookie */ ddi_idevice_cookie_t *idev_cookie; /* event idev cookie */ dev_info_t *dip; /* client's dip */ char driver_name[MODMAXNAMELEN]; /* CS private */ void *priv; /* CS private data */ } client_reg_t; /* * Flags for RegisterClient - some of these flags are also used internally * by CS to sequence the order of event callbacks and to allow Socket * Services to register as a "super" client. * * The client_reg_t->Attributes structure member uses these flags. * * The client_info_t->Attributes, client_types_t->type and client_t->flags * tructure members use these flags as well. * * Client types - mutually exclusive. */ #define INFO_SOCKET_SERVICES 0x00000001 #define INFO_IO_CLIENT 0x00000002 #define INFO_MTD_CLIENT 0x00000004 #define INFO_MEM_CLIENT 0x00000008 #define INFO_CSI_CLIENT 0x00000010 #define INFO_CLIENT_TYPE_MASK (INFO_SOCKET_SERVICES | \ INFO_IO_CLIENT | \ INFO_MTD_CLIENT | \ INFO_MEM_CLIENT | \ INFO_CSI_CLIENT) #define MAX_CLIENT_TYPES 3 /* doesn't include SS or CSI clients */ /* * The following two are for backwards-compatability with the PCMCIA spec. * We will give the client CARD_INSERTION and REGISTRATION_COMPLETE * if either of these two bits are set. Normally, all IO and MEM * clients should set both of these bits. */ #define INFO_CARD_SHARE 0x00000020 #define INFO_CARD_EXCL 0x00000040 #define INFO_CARD_FLAGS_MASK (INFO_CARD_SHARE | INFO_CARD_EXCL) /* * tuple_t struct used for GetFirstTuple, GetNextTuple, GetTupleData * and ParseTuple * * Note that the values for DesiredTuple are defined in the cis.h header * file. */ typedef struct tuple_t { uint32_t Socket; /* socket number to get tuple from */ uint32_t Attributes; /* tuple return attributes */ cisdata_t DesiredTuple; /* tuple to search for or flags */ cisdata_t TupleOffset; /* offset in tuple data body */ uint32_t Flags; /* CS private */ cistpl_t *LinkOffset; /* CS private */ cistpl_t *CISOffset; /* CS private */ cisdata_t TupleDataMax; /* max size of tuple data area */ cisdata_t TupleDataLen; /* actual size of tuple data area */ /* tuple body data buffer */ cisdata_t TupleData[CIS_MAX_TUPLE_DATA_LEN]; cisdata_t TupleCode; /* tuple type code */ cisdata_t TupleLink; /* tuple data body size */ } tuple_t; /* * Attribute flags definitions for CS tuple functions. * */ #define TUPLE_RETURN_LINK 0x00000002 /* return link tuples */ #define TUPLE_RETURN_IGNORED_TUPLES 0x00010000 /* return ignored tuples */ #define TUPLE_RETURN_NAME 0x00020000 /* return tuple name */ /* * cisinfo_t structure used for ValidateCIS */ typedef struct cisinfo_t { uint32_t Socket; /* socket number to validate CIS on */ uint32_t Chains; /* number of tuple chains in CIS */ uint32_t Tuples; /* total number of tuples in CIS */ } cisinfo_t; /* * map_mem_page_t structure used for MapMemPage */ typedef struct map_mem_page_t { uint32_t CardOffset; /* card offset */ uint32_t Page; /* page number */ } map_mem_page_t; /* * sockevent_t structure used for GetEventMask and SetEventMask */ typedef struct sockevent_t { uint32_t Attributes; /* attribute flags for call */ uint32_t EventMask; /* event mask to set or return */ uint32_t Socket; /* socket number if necessary */ } sockevent_t; /* * request_socket_mask_t structure used for RequestSocketMask */ typedef struct request_socket_mask_t { uint32_t Socket; /* socket number if necessary */ uint32_t EventMask; /* event mask to set or return */ } request_socket_mask_t; /* * release_socket_mask_t structure used for ReleaseSocketMask */ typedef struct release_socket_mask_t { uint32_t Socket; } release_socket_mask_t; /* * Flags for GetEventMask and SetEventMask */ #define CONF_EVENT_MASK_GLOBAL 0x00000000 /* global event mask */ #define CONF_EVENT_MASK_CLIENT 0x00000001 /* client event mask */ #define CONF_EVENT_MASK_VALID 0x00000001 /* client event mask */ /* * convert_speed_t structure used for ConvertSpeed */ typedef struct convert_speed_t { uint32_t Attributes; uint32_t nS; uint32_t devspeed; } convert_speed_t; /* * Flags for ConvertSpeed */ #define CONVERT_NS_TO_DEVSPEED 0x00000001 #define CONVERT_DEVSPEED_TO_NS 0x00000002 /* * convert_size_t structure used for ConvertSize */ typedef struct convert_size_t { uint32_t Attributes; uint32_t bytes; uint32_t devsize; } convert_size_t; /* * Flags for ConvertSize */ #define CONVERT_BYTES_TO_DEVSIZE 0x00000001 #define CONVERT_DEVSIZE_TO_BYTES 0x00000002 #define MAX_CS_EVENT_BUFSIZE 64 /* single event */ #define MAX_MULTI_EVENT_BUFSIZE 512 /* all events */ #define CS_EVENT_MAX_BUFSIZE MAX_MULTI_EVENT_BUFSIZE #define CS_ERROR_MAX_BUFSIZE MAX_CS_EVENT_BUFSIZE /* * event2text_t structure used for Event2Text */ typedef struct event2text_t { event_t event; /* events */ /* buffer to return text strings */ char text[CS_EVENT_MAX_BUFSIZE]; } event2text_t; /* * error2text_t structure used for Error2Text */ typedef struct error2text_t { uint32_t item; char text[CS_ERROR_MAX_BUFSIZE]; } error2text_t; /* * get_status_t structure used for GetStatus * * The values in the status members are the same as the CS_EVENT_XXX values. */ typedef struct get_status_t { uint32_t Socket; uint32_t CardState; /* "live" card status for this client */ uint32_t SocketState; /* latched socket values */ uint32_t raw_CardState; /* raw live card status */ } get_status_t; /* * GetStatus returns card state using the same bit definitions * as the CS_EVENT_XXX bits. Some of the CS_EVENT_XXX bits * are not meaningful for GetStatus and are reused here for * status definitions. * * get_status_t->CardState and get_status_t->raw_CardState bits */ #define CS_STATUS_WRITE_PROTECTED CS_EVENT_WRITE_PROTECT #define CS_STATUS_CARD_LOCKED CS_EVENT_CARD_LOCK #define CS_STATUS_EJECTION_REQUEST CS_EVENT_EJECTION_REQUEST #define CS_STATUS_INSERTION_REQUEST CS_EVENT_INSERTION_REQUEST #define CS_STATUS_BATTERY_DEAD CS_EVENT_BATTERY_DEAD #define CS_STATUS_BATTERY_LOW CS_EVENT_BATTERY_LOW #define CS_STATUS_CARD_READY CS_EVENT_CARD_READY #define CS_STATUS_CARD_INSERTED CS_EVENT_CARD_INSERTION #define CS_STATUS_RES_EVT1 0x00100000 #define CS_STATUS_RES_EVT2 0x00200000 #define CS_STATUS_RES_EVT3 0x00400000 #define CS_STATUS_VCC_50 0x10000000 #define CS_STATUS_VCC_33 0x20000000 #define CS_STATUS_VCC_XX 0x40000000 #define CS_STATUS_REQ_ATTN 0x80000000 /* * get_status_t->SocketState bits */ #define CS_SOCK_STATUS_WRITE_PROTECT_CHANGE CS_EVENT_WRITE_PROTECT #define CS_SOCK_STATUS_CARD_LOCK_CHNAGE CS_EVENT_CARD_LOCK #define CS_SOCK_STATUS_EJECTION_PENDING CS_EVENT_EJECTION_REQUEST #define CS_SOCK_STATUS_INSERTION_PENDING CS_EVENT_INSERTION_REQUEST #define CS_SOCK_STATUS_BATTERY_DEAD_CHNAGE CS_EVENT_BATTERY_DEAD #define CS_SOCK_STATUS_BATTERY_LOW_CHNAGE CS_EVENT_BATTERY_LOW #define CS_SOCK_STATUS_CARD_READY_CHANGE CS_EVENT_CARD_READY #define CS_SOCK_STATUS_CARD_DETECT_CHNAGE CS_EVENT_CARD_INSERTION /* * map_log_socket_t structure used for MapLogSocket */ typedef struct map_log_socket_t { uint32_t LogSocket; /* logical socket */ uint32_t PhyAdapter; /* physical adapter */ uint32_t PhySocket; /* physical socket */ } map_log_socket_t; /* * get_physical_adapter_info_t structure used for GetPhysicalAdapterInfo */ typedef struct get_physical_adapter_info_t { uint32_t LogSocket; /* logical socket */ uint32_t PhySocket; /* physical socket */ uint32_t flags; /* adapter flags */ char name[MODMAXNAMELEN]; /* adapter module name */ uint32_t major; /* adapter major number */ uint32_t minor; /* adapter minor number */ uint32_t instance; /* instance number of this adapter */ uint32_t number; /* canonical adapter number */ uint32_t num_sockets; /* # sockets on this adapter */ uint32_t first_socket; /* first socket # on this adapter */ } get_physical_adapter_info_t; /* * irq_req_t structure used for RequestIRQ and ReleaseIRQ */ typedef struct irq_req_t { uint32_t Socket; uint32_t Attributes; /* IRQ attribute flags */ csfunction_t *irq_handler; void *irq_handler_arg; ddi_iblock_cookie_t *iblk_cookie; /* IRQ iblk cookie */ ddi_idevice_cookie_t *idev_cookie; /* IRQ idev cookie */ } irq_req_t; /* * Flags for RequestIRQ and ReleaseIRQ */ #define IRQ_TYPE_EXCLUSIVE 0x00000002 /* * The following flags are included for compatability with other versions of * Card Services, but they are not implemented in this version. They * are assigned values as placeholders only. If any of these flags * are set on a call to RequestIRQ, CS_BAD_ATTRIBUTE is returned. */ #define IRQ_FORCED_PULSE 0x00010000 #define IRQ_TYPE_TIME 0x00020000 #define IRQ_TYPE_DYNAMIC_SHARING 0x00040000 #define IRQ_FIRST_SHARED 0x00080000 #define IRQ_PULSE_ALLOCATED 0x00100000 /* * release_config_t structure used for ReleaseConfiguration */ typedef struct release_config_t { uint32_t Socket; } release_config_t; /* * config_req_t structure used for RequestConfiguration */ typedef struct config_req_t { uint32_t Socket; uint32_t Attributes; /* configuration attributes */ uint32_t Vcc; /* Vcc value */ uint32_t Vpp1; /* Vpp1 value */ uint32_t Vpp2; /* Vpp2 value */ uint32_t IntType; /* socket interface type - mem or IO */ uint32_t ConfigBase; /* offset from start of AM space */ uint32_t Status; /* value to write to STATUS register */ uint32_t Pin; /* value to write to PRR */ uint32_t Copy; /* value to write to COPY register */ uint32_t ConfigIndex; /* value to write to COR */ uint32_t Present; /* which config registers present */ uint32_t ExtendedStatus; /* value to write to EXSTAT register */ } config_req_t; /* * Flags for RequestConfiguration - note that the CONF_ENABLE_IRQ_STEERING * flag shares the same bit field as the Attributes flags for * ModifyConfiguration. */ #define CONF_ENABLE_IRQ_STEERING 0x00010000 /* * The following flags are used for the IntType member to specify which * type of socket interface the client wants. */ #define SOCKET_INTERFACE_MEMORY 0x00000001 #define SOCKET_INTERFACE_MEMORY_AND_IO 0x00000002 /* * The following flags are used for the Present member to specify which * configuration registers are present. They may also be used by * clients for their internal state. */ #define CONFIG_OPTION_REG_PRESENT 0x00000001 /* COR present */ #define CONFIG_STATUS_REG_PRESENT 0x00000002 /* STAT reg present */ #define CONFIG_PINREPL_REG_PRESENT 0x00000004 /* PRR present */ #define CONFIG_COPY_REG_PRESENT 0x00000008 /* COPY reg present */ #define CONFIG_EXSTAT_REG_PRESENT 0x00000010 /* EXSTAT reg present */ #define CONFIG_IOBASE0_REG_PRESENT 0x00000020 /* IOBASE0 reg present */ #define CONFIG_IOBASE1_REG_PRESENT 0x00000040 /* IOBASE1 reg present */ #define CONFIG_IOBASE2_REG_PRESENT 0x00000080 /* IOBASE2 reg present */ #define CONFIG_IOBASE3_REG_PRESENT 0x00000100 /* IOBASE3 reg present */ #define CONFIG_IOLIMIT_REG_PRESENT 0x00000200 /* IOLIMIT reg present */ /* * CONFIG_IOBASE_REG_MASK - mask of IO Base Port register present bits * CONFIG_IOBASE_REG_SHIFT - shifts IO Base Port register present bits */ #define CONFIG_IOBASE_REG_MASK 0x000001e0 /* IOBASEn present mask */ #define CONFIG_IOBASE_REG_SHIFT 5 /* * Bit definitions for configuration registers. * * Pin Replacement Register (PRR) bits - these are used for calls to * RequestConfiguration, AccessConfigurationRegister and * GetConfigurationInfo, as well as internally by clients * and Card Services. * To inform Card Services that a particular bit in the PRR is valid on * a call to RequestConfiguration, both the XXX_STATUS and the * XXX_EVENT bits must be set. */ #define PRR_WP_STATUS 0x01 /* R-WP state W-write WP Cbit */ #define PRR_READY_STATUS 0x02 /* R-READY state W-write READY Cbit */ #define PRR_BVD2_STATUS 0x04 /* R-BVD2 state W-write BVD2 Cbit */ #define PRR_BVD1_STATUS 0x08 /* R-BVD1 state W-write BVD1 Cbit */ #define PRR_WP_EVENT 0x10 /* WP changed */ #define PRR_READY_EVENT 0x20 /* READY changed */ #define PRR_BVD2_EVENT 0x40 /* BVD2 changed */ #define PRR_BVD1_EVENT 0x80 /* BVD1 changed */ /* * Configuration Option Register (COR) bits */ #define COR_ENABLE_FUNCTION 0x01 /* enable function */ #define COR_ENABLE_BASE_LIMIT 0x02 /* enable base and limit registers */ #define COR_ENABLE_IREQ_ROUTING 0x04 /* enable IREQ routing */ #define COR_STATUS_CHANGE_MODE 0x08 /* status change mode */ #define COR_LEVEL_IRQ 0x40 /* set to enable level interrupts */ #define COR_SOFT_RESET 0x80 /* soft reset bit */ /* * Card Configuration Status Register (CCSR) */ #define CCSR_INTR_ACK 0x01 /* interrupt acknowledge */ #define CCSR_INTR 0x02 /* interrupt pending */ #define CCSR_POWER_DOWN 0x04 /* power down card */ #define CCSR_AUDIO 0x08 /* enable Audio signal */ #define CCSR_IO_IS_8 0x20 /* only 8-bit IO data path */ #define CCSR_SIG_CHG 0x40 /* enable status changes */ #define CCSR_CHANGED 0x80 /* one of the PRR bits has changed */ /* * Macros to manipulate the Socket and Copy Register (SCR) values */ #define SCR_GET_SOCKET(r) ((r)&0x0f) #define SCR_GET_COPY(r) (((r)>>4)&7) #define SCR_SET_SOCKET(s) ((s)&0x0f) #define SCR_SET_COPY(c) (((c)&7)<<4) #define SCR_SET_SOCKET_COPY(s, c) (((s)&0x0f) | (((c)&7)<<4)) /* * modify_config_t structure used for ModifyConfiguration */ typedef struct modify_config_t { uint32_t Socket; uint32_t Attributes; /* attributes to modify */ uint32_t Vpp1; /* Vpp1 value */ uint32_t Vpp2; /* Vpp2 value */ } modify_config_t; /* * Flags for ModifyConfiguration - note that the CONF_ENABLE_IRQ_STEERING * flag used with RequestConfiguration shares this bit field. */ #define CONF_VPP1_CHANGE_VALID 0x00000002 /* Vpp1 is valid */ #define CONF_VPP2_CHANGE_VALID 0x00000004 /* Vpp2 is valid */ #define CONF_IRQ_CHANGE_VALID 0x00000008 /* IRQ is valid */ /* * access_config_reg_t structure used for AccessConfigurationRegister */ typedef struct access_config_reg_t { uint32_t Socket; uint32_t Action; /* register access operation */ uint32_t Offset; /* config register offset */ uint32_t Value; /* value read or written */ } access_config_reg_t; /* * Flags for AccessConfigurationRegister */ #define CONFIG_REG_READ 0x00000001 /* read config register */ #define CONFIG_REG_WRITE 0x00000002 /* write config register */ /* * The following offsets are used to specify the configuration register * offset to AccessConfigurationRegister */ #define CONFIG_OPTION_REG_OFFSET 0x00 /* COR offset */ #define CONFIG_STATUS_REG_OFFSET 0x02 /* STAT reg offset */ #define CONFIG_PINREPL_REG_OFFSET 0x04 /* PRR offset */ #define CONFIG_COPY_REG_OFFSET 0x06 /* COPY reg offset */ #define CONFIG_EXSTAT_REG_OFFSET 0x08 /* EXSTAT reg offset */ #define CONFIG_IOBASE0_REG_OFFSET 0x0a /* IOBASE0 reg offset */ #define CONFIG_IOBASE1_REG_OFFSET 0x0c /* IOBASE1 reg offset */ #define CONFIG_IOBASE2_REG_OFFSET 0x0e /* IOBASE2 reg offset */ #define CONFIG_IOBASE3_REG_OFFSET 0x10 /* IOBASE3 reg offset */ #define CONFIG_IOLIMIT_REG_OFFSET 0x12 /* IOLIMIT reg offset */ /* * reset_function_t structure used for ResetFunction */ typedef struct reset_function_t { uint32_t Socket; uint32_t Attributes; } reset_function_t; /* * get_cardservices_info_t structure used for GetCardServicesInfo */ #define CS_GET_CARDSERVICES_INFO_MAX_VS_LEN 512 typedef struct get_cardservices_info_t { char Signature[2]; /* CS signature bytes */ uint32_t NumSockets; /* number of sockets */ uint32_t Revision; /* BCD value of CS revision */ uint32_t CSLevel; /* BCD value of CS release */ uint32_t FuncsPerSocket; /* max number of functions per socket */ char VendorString[CS_GET_CARDSERVICES_INFO_MAX_VS_LEN]; } get_cardservices_info_t; /* * get_configuration_info_t structure used by GetConfigurationInfo */ typedef struct get_configuration_info_t { uint32_t Socket; /* Socket/function to get info for */ uint32_t Attributes; /* configuration attributes */ uint32_t Vcc; /* Vcc value */ uint32_t Vpp1; /* Vpp1 value */ uint32_t Vpp2; /* Vpp2 value */ uint32_t IntType; /* memory only or memory and IO ifc */ uint32_t ConfigBase; /* offset from start of AM space */ uint32_t Status; /* value written to STATUS register */ uint32_t Pin; /* value written to PRR */ uint32_t Copy; /* value to written COPY register */ uint32_t Option; /* which written to COR */ uint32_t Present; /* which config registers present */ uint32_t FirstDevType; /* from CISTPL_DEVICE */ uint32_t FuncCode; /* from CISTPL_FUNCID */ uint32_t SysInitMask; /* from CISTPL_FUNCID */ uint32_t ManufCode; /* from CISTPL_MANFID */ uint32_t ManufInfo; /* from CISTPL_MANFID */ uint32_t CardValues; /* which config registers written */ uint32_t AssignedIRQ; /* IRQ assigned to card */ uint32_t IRQ_Attributes; /* IRQ attributes */ uint32_t BasePort1; /* address of 1st IO range */ uint32_t NumPorts1; /* 1st IO range no. contiguous ports */ uint32_t Attributes1; /* 1st IO range attributes */ uint32_t BasePort2; /* address of 2nd IO range */ uint32_t NumPorts2; /* 2nd IO range no. contiguous ports */ uint32_t Attributes2; /* 2nd IO range attributes */ uint32_t IOAddrLines; /* number of IO address lines decoded */ uint32_t ExStat; /* value written to EXSTAT register */ uint32_t DMA_Attributes; /* signals used for DMA */ uint32_t DMA_Assign_Chan; /* assigned DMA channel */ uint32_t NumIOWindows; /* number of IO windows in use */ uint32_t NumMemWindows; /* number of memory windows in use */ } get_configuration_info_t; /* * devnode_desc_t structure used in make_device_node_t and remove_device_node_t * for MakeDeviceNode and RemoveDeviceNode */ typedef struct devnode_desc_t { char *name; /* device node path and name */ int32_t spec_type; /* dev special type (block or char) */ int32_t minor_num; /* device node minor number */ char *node_type; /* device node type */ } devnode_desc_t; /* * make_device_node_t structure used for MakeDeviceNode */ typedef struct make_device_node_t { uint32_t Action; /* device operation */ uint32_t NumDevNodes; /* number of nodes to create */ devnode_desc_t *devnode_desc; /* description of device nodes */ } make_device_node_t; /* * Action values for MakeDeviceNode */ #define CREATE_DEVICE_NODE 0x01 /* create device node */ /* * remove_device_node_t structure used for RemoveDeviceNode */ typedef struct remove_device_node_t { uint32_t Action; /* device operation */ uint32_t NumDevNodes; /* number of nodes to remove */ devnode_desc_t *devnode_desc; /* description of device nodes */ } remove_device_node_t; /* * Action values for RemoveDeviceNode * * Note: The "Action" member for make_device_node_t and remove_device_node_t * share the same set of values. */ #define REMOVE_DEVICE_NODE 0x02 /* remove device node */ #define REMOVE_ALL_DEVICE_NODES 0x03 /* remove all device nodes */ /* * cs_ddi_info_t for CS_DDI_Info */ typedef struct cs_ddi_info_t { uint32_t Socket; /* socket number */ char *driver_name; /* unique driver name */ dev_info_t *dip; /* dip */ int32_t instance; /* instance */ } cs_ddi_info_t; /* * cs_sys_ctl_t for CS_Sys_Ctl */ typedef struct cs_sys_ctl_t { uint32_t Socket; uint32_t Action; uint32_t Flags; uint32_t Events; client_handle_t client_handle; } cs_sys_ctl_t; /* * cs_sys_ctl_t->Action defines * * CS_SYS_CTL_SEND_EVENT - send events in cs_sys_ctl_t->Events to clients */ #define CS_SYS_CTL_SEND_EVENT 0x0001 /* simulate events */ /* * cs_sys_ctl_t->Flags defines * * CS_SYS_CTL_WAIT_SYNC - wait for operation to complete, otherwise * return immediately * CS_SYS_CTL_EVENT_SOCKET - send events to all clients on specified * socket * CS_SYS_CTL_EVENT_CLIENT - send events to client specified by * cs_sys_ctl_t->client_handle */ #define CS_SYS_CTL_WAIT_SYNC 0x00000001 /* synchornize with thread */ #define CS_SYS_CTL_EVENT_SOCKET 0x00000002 /* to all clients on socket */ #define CS_SYS_CTL_EVENT_CLIENT 0x00000004 /* to client specified */ /* * Autoincrement control flags for RepPut8, RepPut16, RepPut32, RepPut32, * RepGet8, RepGet16, RepGet32, RepGet64 */ #define CS_DEV_AUTOINCR DDI_DEV_AUTOINCR #define CS_DEV_NO_AUTOINCR DDI_DEV_NO_AUTOINCR /* * Card Services function prototypes */ int32_t csx_RegisterClient(client_handle_t *, client_reg_t *); int32_t csx_DeregisterClient(client_handle_t); int32_t csx_GetStatus(client_handle_t, get_status_t *); int32_t csx_SetEventMask(client_handle_t, sockevent_t *); int32_t csx_GetEventMask(client_handle_t, sockevent_t *); int32_t csx_RequestIO(client_handle_t, io_req_t *); int32_t csx_ReleaseIO(client_handle_t, io_req_t *); int32_t csx_RequestIRQ(client_handle_t, irq_req_t *); int32_t csx_ReleaseIRQ(client_handle_t, irq_req_t *); int32_t csx_RequestWindow(client_handle_t, window_handle_t *, win_req_t *); int32_t csx_ReleaseWindow(window_handle_t); int32_t csx_ModifyWindow(window_handle_t, modify_win_t *); int32_t csx_MapMemPage(window_handle_t, map_mem_page_t *); int32_t csx_RequestSocketMask(client_handle_t, request_socket_mask_t *); int32_t csx_ReleaseSocketMask(client_handle_t, release_socket_mask_t *); int32_t csx_RequestConfiguration(client_handle_t, config_req_t *); int32_t csx_ModifyConfiguration(client_handle_t, modify_config_t *); int32_t csx_ReleaseConfiguration(client_handle_t, release_config_t *); int32_t csx_AccessConfigurationRegister(client_handle_t, access_config_reg_t *); int32_t csx_GetFirstTuple(client_handle_t, tuple_t *); int32_t csx_GetNextTuple(client_handle_t, tuple_t *); int32_t csx_GetTupleData(client_handle_t, tuple_t *); int32_t csx_MapLogSocket(client_handle_t, map_log_socket_t *); int32_t csx_ValidateCIS(client_handle_t, cisinfo_t *); int32_t csx_MakeDeviceNode(client_handle_t, make_device_node_t *); int32_t csx_RemoveDeviceNode(client_handle_t, remove_device_node_t *); int32_t csx_ConvertSpeed(convert_speed_t *); int32_t csx_ConvertSize(convert_size_t *); int32_t csx_Event2Text(event2text_t *); int32_t csx_Error2Text(error2text_t *); int32_t csx_CS_DDI_Info(cs_ddi_info_t *); int32_t csx_CS_Sys_Ctl(cs_sys_ctl_t *); int32_t csx_ResetFunction(client_handle_t, reset_function_t *); int32_t csx_GetFirstClient(get_firstnext_client_t *); int32_t csx_GetNextClient(get_firstnext_client_t *); int32_t csx_GetClientInfo(client_handle_t, client_info_t *); int32_t csx_GetCardServicesInfo(client_handle_t, get_cardservices_info_t *); int32_t csx_GetConfigurationInfo(client_handle_t *, get_configuration_info_t *); int32_t csx_GetPhysicalAdapterInfo(client_handle_t, get_physical_adapter_info_t *); /* * CIS tuple parsing functions */ int32_t csx_Parse_CISTPL_CONFIG(client_handle_t, tuple_t *, cistpl_config_t *); int32_t csx_Parse_CISTPL_DEVICE(client_handle_t, tuple_t *, cistpl_device_t *); int32_t csx_Parse_CISTPL_DEVICE_A(client_handle_t, tuple_t *, cistpl_device_t *); int32_t csx_Parse_CISTPL_DEVICE_OA(client_handle_t, tuple_t *, cistpl_device_t *); int32_t csx_Parse_CISTPL_DEVICE_OC(client_handle_t, tuple_t *, cistpl_device_t *); int32_t csx_Parse_CISTPL_VERS_1(client_handle_t, tuple_t *, cistpl_vers_1_t *); int32_t csx_Parse_CISTPL_VERS_2(client_handle_t, tuple_t *, cistpl_vers_2_t *); int32_t csx_Parse_CISTPL_JEDEC_A(client_handle_t, tuple_t *, cistpl_jedec_t *); int32_t csx_Parse_CISTPL_JEDEC_C(client_handle_t, tuple_t *, cistpl_jedec_t *); int32_t csx_Parse_CISTPL_FORMAT(client_handle_t, tuple_t *, cistpl_format_t *); int32_t csx_Parse_CISTPL_FORMAT_A(client_handle_t, tuple_t *, cistpl_format_t *); int32_t csx_Parse_CISTPL_GEOMETRY(client_handle_t, tuple_t *, cistpl_geometry_t *); int32_t csx_Parse_CISTPL_BYTEORDER(client_handle_t, tuple_t *, cistpl_byteorder_t *); int32_t csx_Parse_CISTPL_DATE(client_handle_t, tuple_t *, cistpl_date_t *); int32_t csx_Parse_CISTPL_BATTERY(client_handle_t, tuple_t *, cistpl_battery_t *); int32_t csx_Parse_CISTPL_ORG(client_handle_t, tuple_t *, cistpl_org_t *); int32_t csx_Parse_CISTPL_MANFID(client_handle_t, tuple_t *, cistpl_manfid_t *); int32_t csx_Parse_CISTPL_FUNCID(client_handle_t, tuple_t *, cistpl_funcid_t *); int32_t csx_Parse_CISTPL_FUNCE(client_handle_t, tuple_t *, cistpl_funce_t *, uint32_t); int32_t csx_Parse_CISTPL_CFTABLE_ENTRY(client_handle_t, tuple_t *, cistpl_cftable_entry_t *); int32_t csx_Parse_CISTPL_LINKTARGET(client_handle_t, tuple_t *, cistpl_linktarget_t *); int32_t csx_Parse_CISTPL_LONGLINK_A(client_handle_t, tuple_t *, cistpl_longlink_ac_t *); int32_t csx_Parse_CISTPL_LONGLINK_C(client_handle_t, tuple_t *, cistpl_longlink_ac_t *); int32_t csx_Parse_CISTPL_LONGLINK_MFC(client_handle_t, tuple_t *, cistpl_longlink_mfc_t *); int32_t csx_Parse_CISTPL_SPCL(client_handle_t, tuple_t *, cistpl_spcl_t *); int32_t csx_Parse_CISTPL_SWIL(client_handle_t, tuple_t *, cistpl_swil_t *); int32_t csx_Parse_CISTPL_BAR(client_handle_t, tuple_t *, cistpl_bar_t *); int32_t csx_Parse_CISTPL_DEVICEGEO(client_handle_t, tuple_t *, cistpl_devicegeo_t *); int32_t csx_Parse_CISTPL_DEVICEGEO_A(client_handle_t, tuple_t *, cistpl_devicegeo_t *); int32_t csx_Parse_CISTPL_LONGLINK_CB(client_handle_t, tuple_t *, cistpl_longlink_cb_t *); int32_t csx_ParseTuple(client_handle_t, tuple_t *, cisparse_t *, uint32_t); /* * Data access functions */ void csx_Put8(acc_handle_t, uint32_t, uint8_t); void csx_Put16(acc_handle_t, uint32_t, uint16_t); void csx_Put32(acc_handle_t, uint32_t, uint32_t); void csx_Put64(acc_handle_t, uint32_t, uint64_t); uint8_t csx_Get8(acc_handle_t, uint32_t); uint16_t csx_Get16(acc_handle_t, uint32_t); uint32_t csx_Get32(acc_handle_t, uint32_t); uint64_t csx_Get64(acc_handle_t, uint32_t); void csx_RepPut8(acc_handle_t, uint8_t *, uint32_t, uint32_t, uint32_t); void csx_RepPut16(acc_handle_t, uint16_t *, uint32_t, uint32_t, uint32_t); void csx_RepPut32(acc_handle_t, uint32_t *, uint32_t, uint32_t, uint32_t); void csx_RepPut64(acc_handle_t, uint64_t *, uint32_t, uint32_t, uint32_t); void csx_RepGet8(acc_handle_t, uint8_t *, uint32_t, uint32_t, uint32_t); void csx_RepGet16(acc_handle_t, uint16_t *, uint32_t, uint32_t, uint32_t); void csx_RepGet32(acc_handle_t, uint32_t *, uint32_t, uint32_t, uint32_t); void csx_RepGet64(acc_handle_t, uint64_t *, uint32_t, uint32_t, uint32_t); /* * Data access handle manipulation functions */ int32_t csx_GetMappedAddr(acc_handle_t, void **); int32_t csx_GetPhysAddr(acc_handle_t, void **); int32_t csx_DupHandle(acc_handle_t, acc_handle_t *, uint32_t); int32_t csx_FreeHandle(acc_handle_t *); int32_t csx_GetHandleOffset(acc_handle_t, uint32_t *); int32_t csx_SetHandleOffset(acc_handle_t, uint32_t); /* * XXX - PCMCIA Shady Meadows Retirement Community * * The defines in this section should be retired once the PS drivers * get updated. * * XXX This is an old version of WIN_DATA_WIDTH_MASK and should be * retired soon. RETIRE */ #define WIN_DATA_WIDTH 0x00000002 /* 16-bit data path */ /* * XXX The following are old versions of the IO_DATA_WIDTH_XXX names and * should be retured soon. RETIRE */ #define IO_DATA_PATH_WIDTH 0x00000001 /* 16 bit data path */ #define IO_DATA_PATH_WIDTH_8 0x00000000 /* 8 bit data path */ #define IO_DATA_PATH_WIDTH_16 0x00000001 /* 16 bit data path */ /* * XXX - REMOVAL_ALL_DEVICE_NODES typo, remove soon. RETIRE */ #define REMOVAL_ALL_DEVICE_NODES 0x03 /* remove all device nodes */ /* * The old name of the csx_RequestSocketMask structure was * sockmask_t for some bizzare reason. This typedef * keeps that old name around until we can fix * the drivers. */ typedef struct request_socket_mask_t sockmask_t; /* RETIRE */ /* XXX - RETIRE and change to a typedef XXX */ struct devnode_desc { char *name; /* device node path and name */ int32_t spec_type; /* dev special type (block or char) */ int32_t minor_num; /* device node minor number */ char *node_type; /* device node type */ }; #ifdef __cplusplus } #endif #endif /* _CS_H */