/*
* 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 2005 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#ifndef _CS_PRIV_H
#define _CS_PRIV_H
#pragma ident "%Z%%M% %I% %E% SMI"
#ifdef __cplusplus
extern "C" {
#endif
/*
* PCMCIA Card Services private header file
*/
/*
* typedef for function pointers to quiet lint and cc -v
*/
typedef int32_t (f_t)(int32_t, ...); /* for lint - cc -v quieting */
/*
* Magic number we use when talking with Socket Services
*/
#define CS_MAGIC PCCS_MAGIC
/*
* Make the calls to SocketServices and the CIS Parser look like
* function calls.
*/
#define SocketServices (*cs_socket_services)
#define CIS_PARSER (*cis_parser)
/*
* CIS_DEFAULT_SPEED is the default speed to use to read the CIS
* in AM space. It is expressed in nS.
*/
#define CIS_DEFAULT_SPEED 250
/*
* This is the IO window speed.
*/
#define IO_WIN_SPEED 250
/*
* Flags to support various internal first/next functions. All of
* these must be within CIS_GET_LTUPLE_OPMASK which is defined
* in the cis.h file. Values outside this mask range are used
* internally by the CIS parser.
*/
#define CS_GET_FIRST_FLAG 0x0001
#define CS_GET_NEXT_FLAG 0x0002
/*
* Macros to manipulate bits - only does up to uint32_t size
*/
#define CS_BIT_WORDSIZE (sizeof (uint32_t))
#define CS_BIT_GET(val, bit) \
((uint32_t)(val) & (uint32_t)(1<<(uint32_t)(bit)))
#define CS_BIT_CLEAR(val, bit) ((val) &= (uint32_t)~(1<<(uint32_t)(bit)))
#define CS_BIT_SET(val, bit) \
((uint32_t)(val) |= (uint32_t)(1<<(uint32_t)(bit)))
/*
* Minimum time to wait after socket reset before we are allowed to
* access the card. The PCMCIA specification says at least 20mS
* must elapse from the time that the card is reset until the
* first access of any kind can be made to the card. This time
* value is expressed in mS.
*/
#define RESET_TIMEOUT_TIME 180
/*
* Maximum time to wait for card ready after resetting the socket.
* We wait for card ready a maximum of 20 seconds after card
* reset before considering that we have an error condition.
* XXX - what does PCMCIA specify as the max time here??
*/
#define READY_TIMEOUT_TIME (drv_usectohz(20000000))
/*
* Time between periodically kicking the soft interrupt handler.
*/
#define SOFTINT_TIMEOUT_TIME (drv_usectohz(2000000))
/*
* Various delays are necessary when switching the card and socket
* between IO and memory modes. All delays are in mS.
*
* cs_request_configuration parameters:
* CS_RC1_DELAY - delay between writing COR and switching socket
* to IO mode
* CS_RC2_DELAY - delay after switching socket to IO mode
*
* cs_release_configuration parameters:
* CS_RQ_DELAY - amount of time that the RESET bit in the COR is
* held asserted
*/
#define CS_RC1_DELAY 20 /* COR->IO delay in mS */
#define CS_RC2_DELAY 300 /* post-COR delay in mS */
#define CS_RQ_DELAY 100 /* COR(RESET) delay in mS */
/*
* Handy macro to do untimeout.
*/
#define UNTIMEOUT(id) \
if ((id)) { \
(void) untimeout((id)); \
(id) = 0; \
}
/*
* Macros to enter/exit event thread mutex
*/
#define EVENT_THREAD_MUTEX_ENTER(acq, sp) \
acq = !MUTEX_HELD(&sp->client_lock); \
if (acq) \
mutex_enter(&sp->client_lock);
#define EVENT_THREAD_MUTEX_EXIT(acq, sp) \
if (acq) \
mutex_exit(&sp->client_lock);
/*
* cisregister_t structure is used to support the CISRegister
* and the CISUnregister function calls
*/
typedef struct cisregister_t {
uint32_t cis_magic;
uint32_t cis_version;
void * (*cis_parser)(int32_t function, ...);
cistpl_callout_t *cistpl_std_callout; /* standard callout list */
} cisregister_t;
/*
* These two defines are to support CISRegister and CISUnregister
*/
#define CIS_MAGIC 0x20434953
#define CIS_VERSION _VERSION(0, 1)
/*
* CS_MAX_CIS defines the number of CIS chains that we hang off the per-socket
* structure.
*
* CS_GLOBAL_CIS defines the index where the CIS parser puts the first CIS list
* for a single-function card or the global CIS list for a multi-function
* card.
*
* CS_MAX_CIS is one greater than CIS_MAX_FUNCTIONS since the CIS parser
* puts the global CIS chain on the CS_GLOBAL_CIS function index as
* follows:
*
* For single-function cards:
* sp->cis[0] - CIS chain
* sp->cis[1..(CIS_MAX_FUNCTIONS - 1)] - not used
* sp->cis[CS_GLOBAL_CIS] - not used
*
* For multi-function cards:
* sp->cis[0..(CIS_MAX_FUNCTIONS - 1)] - global CIS chain followed
* by per-function CIS chain
* sp->cis[CS_GLOBAL_CIS] - global CIS chain
*/
#define CS_MAX_CIS (CIS_MAX_FUNCTIONS + 1)
#define CS_GLOBAL_CIS CIS_MAX_FUNCTIONS
/*
* CS_SS_CLIENT_HANDLE is a special client handle that Socket Services gets
* when it registers with RegisterClient.
*/
#define CS_SS_CLIENT_HANDLE 0x00000000
/*
* Client handle, socket number, function number and socket pointer
* macros. The client handle encoding is private to Card Services,
* and external modules should not use these macros to manipulate
* client handles.
*
* The encoding of the client handle is:
*
* xxxxxfff | xsssssss | cccccccc | cccccccc
*
* f - function number bit
* s - socket number bit
* c - client number bit
* x - don't care bits
*/
#define CLIENT_HANDLE_IS_SS(ch) (!GET_CLIENT_MINOR((ch)))
#define CS_MAX_SOCKETS_MASK (PCMCIA_MAX_SOCKETS - 1)
#define CS_MAX_FUNCTIONS_MASK (CIS_MAX_FUNCTIONS - 1)
#define CS_MAX_CLIENTS_MASK 0x0ffff
#define CS_MAX_CLIENTS (CS_MAX_CLIENTS_MASK - 2)
#define MAKE_CLIENT_HANDLE(s, f, c) ((((f)&CS_MAX_FUNCTIONS_MASK)<<24) | \
(((s)&CS_MAX_SOCKETS_MASK)<<16) | \
((c)&CS_MAX_CLIENTS_MASK))
#define GET_CLIENT_SOCKET(ch) (((ch)>>16)&CS_MAX_SOCKETS_MASK)
#define GET_CLIENT_FUNCTION(ch) (((ch)>>24)&CS_MAX_FUNCTIONS_MASK)
#define GET_CLIENT_MINOR(ch) ((ch)&CS_MAX_CLIENTS_MASK)
/*
* Socket number macros. These are used by Socket Services, CSI
* drivers and the "super-client" driver to specify which
* socket and function number on that socket they wish to
* manipulate. This socket number encoding is typically passed
* to various Card Services functions by these drivers.
*
* The encoding of the socket number is:
*
* xxxxxxxx | xxxxgfff | xxxxxxxx | xsssssss
*
* g - global CIS bit
* f - function number bit
* s - socket number bit
* x - don't care bits
*/
#define CS_GET_SOCKET_NUMBER(s) ((s)&CS_MAX_SOCKETS_MASK)
#define CS_GET_FUNCTION_NUMBER(s) (((s)>>16)&(CS_MAX_FUNCTIONS_MASK | \
CIS_MAX_FUNCTIONS))
#define CS_SET_SOCKET_NUMBER(s) ((s)&CS_MAX_SOCKETS_MASK)
#define CS_SET_FUNCTION_NUMBER(f) (((f)&(CS_MAX_FUNCTIONS_MASK | \
CIS_MAX_FUNCTIONS))<<16)
#define CS_MAKE_SOCKET_NUMBER(s, f) (CS_SET_SOCKET_NUMBER(s) | \
CS_SET_FUNCTION_NUMBER(f))
/*
* DIP2SOCKET_NUM(dip) - this macro gets the PCM_DEV_SOCKET property from
* the passed dip. If the property can't be found, then the default
* value of cs_globals.max_socket_num is returned.
*/
#define DIP2SOCKET_NUM(dip) ddi_getprop(DDI_DEV_T_NONE, dip,\
(DDI_PROP_CANSLEEP | \
DDI_PROP_NOTPROM), \
PCM_DEV_SOCKET, \
cs_globals.max_socket_num)
/*
* Range checking macros
*
* CHECK_SOCKET_NUM(socket_number, max_sockets) returns 1 if
* socket_number is in range
*/
#define CHECK_SOCKET_NUM(sn, ms) (((sn) >= (ms))?0:1)
/*
* window macros
*
* These all expect that the window has been validated as a valid
* window (i.e. CW_WINDOW_VALID is set in window state)
*
* Note that WINDOW_FOR_SOCKET expects a socket mask for the wsm
* parameter (this is a socket_enum_t type, and NOT just a
* plain old uint32_t)
*/
#define WINDOW_FOR_SOCKET(wsm, sn) ((wsm)[sn/PR_WORDSIZE] & \
(1 << ((sn) & PR_MASK)))
#define WINDOW_AVAILABLE_FOR_MEM(cwp) (!(cwp->state & CW_WIN_IN_USE))
#define WINDOW_AVAILABLE_FOR_IO(cwp) \
(!(cwp->state & (CW_CIS | CW_MEM | CW_ALLOCATED)))
/*
* IO Base and NumPorts address frobnitz macros
*/
#define IOADDR_FROBNITZ(Base, IOAddrLines) (Base&((1<<IOAddrLines)-1))
#define IONUMPORTS_FROBNITZ(np) (((np)&1)?((np)+1):(np))
/*
* Structure that contains offsets to the card's configuration registers
* as well as copies of the data written to them in RequestConfiguration.
* We use an offset per register approach since not all cards have
* all registers implemented, and by specifying a NULL register offset,
* we know not to try to access that register.
*/
typedef struct config_regs_t {
cfg_regs_t cor; /* Configuration Option Register */
uint32_t cor_p;
cfg_regs_t ccsr; /* Configuration and Status Register */
uint32_t ccsr_p;
cfg_regs_t prr; /* Pin Replacement Register */
uint32_t prr_p;
cfg_regs_t scr; /* Socket and Copy Register */
uint32_t scr_p;
cfg_regs_t exstat; /* Extended Status Register */
uint32_t exstat_p;
cfg_regs_t iobase0; /* IO Base 0 Register */
uint32_t iobase0_p;
cfg_regs_t iobase1; /* IO Base 1 Register */
uint32_t iobase1_p;
cfg_regs_t iobase2; /* IO Base 2 Register */
uint32_t iobase2_p;
cfg_regs_t iobase3; /* IO Base 3 Register */
uint32_t iobase3_p;
cfg_regs_t iolimit; /* IO Limit Register */
uint32_t iolimit_p;
} config_regs_t;
/*
* Macro to make calling the client's event handler look like a function.
*/
#define CLIENT_EVENT_CALLBACK(cp, event, pri) \
(cp)->event_callback_handler(event, pri, \
&(cp)->event_callback_args)
/*
* Macro to return event in PRR - this also clears the changed bit if
* the event occured.
*/
#define PRR_EVENT(prrx, pe, ps, ce, re) \
if (prrx & pe) { \
if (prrx & ps) \
(re) |= ce; \
prrx &= ~pe; \
prrx |= ps; \
}
/*
* io_alloc_t struct used to keep track of a client's IO window allocation
*/
typedef struct io_alloc_t {
uint32_t Window1; /* allocated IO window no. for set #1 */
baseaddru_t BasePort1; /* 1st IO range base address or port */
uint32_t NumPorts1; /* 1st IO range no. contiguous ports */
uint32_t Attributes1; /* 1st IO range attributes */
uint32_t Window2; /* allocated IO window no. for set #2 */
baseaddru_t BasePort2; /* s2nd IO range base address or port */
uint32_t NumPorts2; /* 2nd IO range no. contiguous ports */
uint32_t Attributes2; /* second IO range attributes */
uint32_t IOAddrLines; /* number of IO address lines decoded */
} io_alloc_t;
/*
* irq_alloc_t structure used to keep track of a client's IRQ allocation
*/
typedef struct irq_alloc_t {
uint32_t Attributes; /* IRQ attribute flags */
uint32_t irq; /* assigned IRQ number */
uint32_t handler_id; /* IRQ handler ID for this IRQ */
f_t *irq_handler;
void *irq_handler_arg1;
void *irq_handler_arg2;
} irq_alloc_t;
/*
* The client data structure
*/
typedef struct client_t {
client_handle_t client_handle; /* this client's client handle */
unsigned flags; /* client flags */
/* resource control */
uint32_t memwin_count; /* number of mem windows allocated */
io_alloc_t io_alloc; /* IO resource allocations */
irq_alloc_t irq_alloc; /* IRQ resource allocations */
/* event support */
uint32_t event_mask; /* client event mask */
uint32_t global_mask; /* client global event mask */
uint32_t events; /* current events pending */
uint32_t pending_events; /* events pending in RegisterClient */
csfunction_t *event_callback_handler;
event_callback_args_t event_callback_args;
/* config registers support */
config_regs_t config_regs; /* pointers to config registers */
uint32_t config_regs_offset; /* offset from start of AM */
unsigned pin; /* valid bits in PRR */
uint32_t present; /* which config registers present */
/* DDI support */
dev_info_t *dip; /* this client's dip */
char *driver_name; /* client's driver name */
int32_t instance; /* client's driver instance */
/* list control */
struct client_t *next; /* next client pointer */
struct client_t *prev; /* previous client pointer */
} client_t;
/*
* Flags for client structure - note that we share the client_t->flags
* member with the definitions in cs.h that are used by the
* RegisterClient function.
*
* We can start our flags from 0x00001000 and on up.
*/
#define REQ_CONFIGURATION_DONE 0x00001000 /* RequestConfiguration done */
#define REQ_SOCKET_MASK_DONE 0x00002000 /* RequestSocketMask done */
#define REQ_IO_DONE 0x00004000 /* RequestIO done */
#define REQ_IRQ_DONE 0x00008000 /* RequestIRQ done */
#define CLIENT_SUPER_CLIENT 0x00010000 /* "super-client" client */
#define CLIENT_CSI_CLIENT 0x00020000 /* CSI client */
#define CLIENT_CARD_INSERTED 0x00100000 /* current card for client */
#define CLIENT_SENT_INSERTION 0x00200000 /* send CARD_INSERTION */
#define CLIENT_MTD_IN_PROGRESS 0x01000000 /* MTD op in progress */
#define CLIENT_IO_ALLOCATED 0x02000000 /* IO resources allocated */
#define CLIENT_IRQ_ALLOCATED 0x04000000 /* IRQ resources allocated */
#define CLIENT_WIN_ALLOCATED 0x08000000 /* window resources allocated */
#ifdef USE_IOMMAP_WINDOW
/*
* io_mmap_window_t structure that describes the memory-mapped IO
* window on this socket
*/
typedef struct io_mmap_window_t {
uint32_t flags; /* window flags */
uint32_t number; /* IO window number */
uint32_t size; /* size of mapped IO window */
ddi_acc_handle_t handle; /* window mapped base address */
uint32_t count; /* referance count */
} io_mmap_window_t;
#endif /* USE_IOMMAP_WINDOW */
/*
* cis_info_t structure used to hold per-socket CIS information
*/
typedef struct cis_info_t {
uint32_t flags; /* CIS-specific flags */
cistpl_t *cis; /* CIS linked lists */
uint32_t nchains; /* number of tuple chains in CIS */
uint32_t ntuples; /* number of tuples in CIS */
} cis_info_t;
/*
* cs_adapter_t structure used to hold per-socket
* adapter-specific info
*/
typedef struct cs_adapter_t {
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 */
} cs_adapter_t;
/*
* The per-socket structure.
*/
typedef struct cs_socket_t {
unsigned socket_num; /* socket number */
uint32_t flags; /* socket flags */
uint32_t init_state; /* cs_init state */
cs_adapter_t adapter; /* adapter info */
/* socket thread control and status */
kthread_t *event_thread; /* per-socket work thread */
uint32_t thread_state; /* socket thread state flags */
kmutex_t lock; /* protects events and clients */
kcondvar_t thread_cv; /* event handling synchronization */
kcondvar_t caller_cv; /* event handling synchronization */
kcondvar_t reset_cv; /* for use after card RESET */
uint32_t events; /* socket events */
uint32_t event_mask; /* socket event mask */
ddi_softintr_t softint_id; /* soft interrupt handler ID */
timeout_id_t rdybsy_tmo_id; /* timer ID for READY/BUSY timer */
ddi_iblock_cookie_t *iblk; /* event iblk cookie */
ddi_idevice_cookie_t *idev; /* event idev cookie */
callb_cpr_t cprinfo_cs; /* CPR cookie for cs_event_thread */
callb_cpr_t cprinfo_ss; /* CPR cookie for cs_ss_thread */
/* client management */
client_t *client_list; /* clients on this socket */
unsigned next_cl_minor; /* next available client minor num */
kmutex_t client_lock; /* protects client list */
uint32_t num_clients; /* number of clients on this socket */
/* CIS support */
uint32_t cis_win_num; /* CIS window number */
unsigned cis_win_size; /* CIS window size */
uint32_t cis_flags;
uint32_t nfuncs; /* number of functions */
cis_info_t cis[CS_MAX_CIS]; /* CIS information */
kmutex_t cis_lock; /* protects CIS */
#ifdef USE_IOMMAP_WINDOW
/* memory mapped IO window support */
io_mmap_window_t *io_mmap_window;
#endif /* USE_IOMMAP_WINDOW */
/* Socket Services work thread control and status */
kthread_t *ss_thread; /* SS work thread */
uint32_t ss_thread_state; /* SS work thread state */
kcondvar_t ss_thread_cv; /* SS work thread synchronization */
kcondvar_t ss_caller_cv; /* SS work thread synchronization */
kmutex_t ss_thread_lock; /* protects SS work thread state */
struct cs_socket_t *next; /* next socket in list */
} cs_socket_t;
/*
* cs_socket_t->flags flags
*/
#define SOCKET_CARD_INSERTED 0x00000001 /* card is inserted */
#define SOCKET_IS_IO 0x00000002 /* socket in IO mode */
#define SOCKET_UNLOAD_MODULE 0x00000004 /* want to unload CS */
#define SOCKET_NEEDS_THREAD 0x00000008 /* wake event thread */
#define SOCKET_IS_VALID 0x00000020 /* socket OK to use */
/*
* cs_socket_t->thread_state and cs_socket_t->ss_thread_state flags
*/
/* generic for all threads */
#define SOCKET_THREAD_EXIT 0x00000001 /* exit event thread */
/* only used for per-socket event thread */
#define SOCKET_WAIT_FOR_READY 0x00001000 /* waiting for READY */
#define SOCKET_RESET_TIMER 0x00002000 /* RESET timer */
#define SOCKET_WAIT_SYNC 0x00004000 /* SYNC */
/* only used for Socket Services work thread */
#define SOCKET_THREAD_CSCISInit 0x00100000 /* call CSCISInit */
/*
* cs_socket_t->cis_flags and cs_socket_t->cis_info_t->flags flags
*/
#define CW_VALID_CIS 0x00000001 /* valid CIS */
#define CW_MULTI_FUNCTION_CIS 0x00000002 /* multifunction card */
#define CW_LONGLINK_A_FOUND 0x00000004 /* CISTPL_LONGLINK_A */
#define CW_LONGLINK_C_FOUND 0x00000008 /* CISTP_LONGLINK_C */
#define CW_LONGLINK_MFC_FOUND 0x00000010 /* LONGLINK_MFC */
#define CW_CHECK_LINKTARGET 0x00000020 /* check linktarget */
#define CW_RET_ON_LINKTARGET_ERROR 0x00000040 /* linktarget invalid */
#define CW_CHECK_PRIMARY_CHAIN 0x00000080 /* check for primary */
/* chain tuples */
/*
* CW_LONGLINK_FOUND - a combination of the various CW_LONGLINK_XXX_FOUND
* flags used to make the code less dense.
*/
#define CW_LONGLINK_FOUND (CW_LONGLINK_A_FOUND | \
CW_LONGLINK_C_FOUND | \
CW_LONGLINK_MFC_FOUND)
/*
* macro to test for a valid CIS window on a socket
*/
#define SOCKET_HAS_CIS_WINDOW(sp) (sp->cis_win_num != PCMCIA_MAX_WINDOWS)
/*
* cs_socket_t->init_state flags - these flags are used to keep track of what
* was allocated in cs_init so that things can be deallocated properly
* in cs_deinit.
*/
#define SOCKET_INIT_STATE_MUTEX 0x00000001 /* mutexii are OK */
#define SOCKET_INIT_STATE_CV 0x00000002 /* cvii are OK */
#define SOCKET_INIT_STATE_THREAD 0x00000004 /* thread OK */
#define SOCKET_INIT_STATE_READY 0x00000008 /* socket OK */
#define SOCKET_INIT_STATE_SS_THREAD 0x00000010 /* SS thread OK */
/*
* While this next flag doesn't really describe a per-socket resource,
* we still set it for each socket. When the soft interrupt handler
* finally gets removed in cs_deinit, this flag will get cleared.
* The value of this flag should follow the previous SOCKET_INIT
* flag values.
*/
#define SOCKET_INIT_STATE_SOFTINTR 0x00000020 /* softintr handler */
/*
* Macro to create a socket event thread.
*/
#define CS_THREAD_PRIORITY (v.v_maxsyspri - 4)
#define CREATE_SOCKET_EVENT_THREAD(eh, csp) \
thread_create(NULL, 0, eh, (void *)csp, \
0, &p0, TS_RUN, CS_THREAD_PRIORITY)
/*
* The per-window structure.
*/
typedef struct cs_window_t {
uint32_t window_num; /* window number */
window_handle_t window_handle; /* unique window handle */
client_handle_t client_handle; /* owner of this window */
unsigned socket_num; /* socket number */
unsigned state; /* window state flags */
struct cs_window_t *next; /* next window in list */
} cs_window_t;
/*
* Window structure state flags - if none of the bits in the
* CW_WIN_IN_USE mask are set AND if CW_WINDOW_VALID is set,
* it means that this window is available and not being used
* by anyone.
* Setting the CW_ALLOCATED will prevent the window from being found
* as an available window for memory or IO; since memory windows
* are not shared between clients, RequestWindow will always set
* the CW_ALLOCATED flag when it has assigned a memory window to
* a client. Since we can sometimes share IO windows, RequestIO
* will only set the CW_ALLOCATED flag if it doesn't want the IO
* window to be used by other calls to RequestIO.
* When CW_WINDOW_VALID is set, it means that this is a valid window
* that has been added by the framework and can be used. If this
* bit is not set, this window can not be used at all.
*/
#define CW_ALLOCATED 0x00000001 /* window is allocated */
#define CW_CIS 0x00000002 /* window being used as CIS window */
#define CW_MEM 0x00000004 /* window being used as mem window */
#define CW_IO 0x00000008 /* window being used as IO window */
#define CW_WIN_IN_USE 0x0000ffff /* window in use mask */
#define CW_WINDOW_VALID 0x00010000 /* window is valid */
/*
* window handle defines - the WINDOW_HANDLE_MASK implies the maximum number
* of windows allowed
*/
#define WINDOW_HANDLE_MAGIC 0x574d0000
#define WINDOW_HANDLE_MASK 0x0000ffff
#define GET_WINDOW_NUMBER(wh) ((wh) & WINDOW_HANDLE_MASK)
#define GET_WINDOW_MAGIC(wh) ((wh) & ~WINDOW_HANDLE_MASK)
/*
* The client type structures, used to sequence events to clients on a
* socket. The "type" flags are the same as are used for the
* RegisterClient function.
*/
typedef struct client_types_t {
uint32_t type;
uint32_t order;
struct client_types_t *next;
} client_types_t;
/*
* Flags that specify the order of client event notifications for the
* client_types_t structure.
*/
#define CLIENT_EVENTS_LIFO 0x00000001
#define CLIENT_EVENTS_FIFO 0x00000002
/*
* This is a structure that CS uses to keep track of items that are global
* to all functions in the module.
*/
typedef struct cs_globals_t {
cs_socket_t *sp; /* head of socket list */
cs_window_t *cw; /* head of window list */
kmutex_t global_lock; /* protects this struct */
kmutex_t window_lock; /* protects cs_windows */
ddi_softintr_t softint_id; /* soft interrupt handler id */
timeout_id_t sotfint_tmo; /* soft interrupt handler timeout id */
uint32_t init_state; /* flags set in cs_init */
uint32_t flags; /* general global flags */
uint32_t max_socket_num; /* highest socket number plus one */
uint32_t num_sockets; /* total number of sockets */
uint32_t num_windows; /* total number of windows */
struct sclient_list_t *sclient_list;
} cs_globals_t;
/*
* Flags for cs_globals_t->init_state
*/
#define GLOBAL_INIT_STATE_SOFTINTR 0x00010000 /* softintr handler */
#define GLOBAL_INIT_STATE_MUTEX 0x00020000 /* global mutex init */
#define GLOBAL_INIT_STATE_NO_CLIENTS 0x00040000 /* no new clients */
#define GLOBAL_INIT_STATE_UNLOADING 0x00080000 /* cs_deinit running */
#define GLOBAL_INIT_STATE_SS_READY 0x00100000 /* SS ready for */
/* callbacks */
/*
* Flags for cs_globals_t->flags
*/
#define GLOBAL_SUPER_CLIENT_REGISTERED 0x00000001 /* "super-client" reg */
#define GLOBAL_IN_SOFTINTR 0x00000002 /* in soft int code */
/*
* sclient_reg_t struct for RegisterClient when a "super-client" is
* registering.
* This structure is actually hung off of the client_reg_t.private
* structure member. Since we don't make public how to write
* a "super-client", the actual structure that the client uses
* is defined in this private header file.
*/
typedef struct sclient_reg_t {
uint32_t max_socket_num;
uint32_t num_sockets;
uint32_t num_windows;
uint32_t num_clients;
struct sclient_list_t {
client_handle_t client_handle;
uint32_t error;
} **sclient_list;
} sclient_reg_t;
/*
* structure for event text used for cs_ss_event_text
*/
typedef struct cs_ss_event_text_t {
event_t ss_event; /* SS event code */
event_t cs_event; /* CS event code */
char *text;
} cs_ss_event_text_t;
/*
* Flags for cs_read_event_status
*/
#define CS_RES_IGNORE_NO_CARD 0x0001 /* don't check for card */
/*
* cs_csfunc2text_strings_t structure used internally in Error2Text
*/
typedef struct cs_csfunc2text_strings_t {
uint32_t item;
char *text;
} cs_csfunc2text_strings_t;
/*
* Flags for Error2Text - not used by clients; the struct is defined
* in the cs.h header file.
*/
#define CSFUN2TEXT_FUNCTION 0x0001 /* return text of CS function code */
#define CSFUN2TEXT_RETURN 0x0002 /* return text of CS return code */
/*
* Macros to walk the local linked CIS list.
*
* These macros can take any valid local list tuple pointer. They return
* another tuple pointer or NULL if they fail.
*/
#define GET_NEXT_TUPLE(tp, f) CIS_PARSER(CISP_CIS_GET_LTUPLE, tp, \
NULL, GET_NEXT_LTUPLEF | \
(f & ~CIS_GET_LTUPLE_OPMASK))
#define GET_PREV_TUPLE(tp, f) CIS_PARSER(CISP_CIS_GET_LTUPLE, tp, \
NULL, GET_PREV_LTUPLEF | \
(f & ~CIS_GET_LTUPLE_OPMASK))
#define GET_FIRST_LTUPLE(tp, f) CIS_PARSER(CISP_CIS_GET_LTUPLE, tp, \
NULL, GET_FIRST_LTUPLEF | \
(f & ~CIS_GET_LTUPLE_OPMASK))
#define GET_LAST_LTUPLE(tp, f) CIS_PARSER(CISP_CIS_GET_LTUPLE, tp, \
NULL, GET_LAST_LTUPLEF | \
(f & ~CIS_GET_LTUPLE_OPMASK))
#define FIND_LTUPLE_FWD(tp, tu, f) CIS_PARSER(CISP_CIS_GET_LTUPLE, tp, \
tu, FIND_LTUPLE_FWDF | \
(f & ~CIS_GET_LTUPLE_OPMASK))
#define FIND_LTUPLE_BACK(tp, tu, f) CIS_PARSER(CISP_CIS_GET_LTUPLE, tp, \
tu, FIND_LTUPLE_BACKF | \
(f & ~CIS_GET_LTUPLE_OPMASK))
#define FIND_NEXT_LTUPLE(tp, tu, f) CIS_PARSER(CISP_CIS_GET_LTUPLE, tp, \
tu, FIND_NEXT_LTUPLEF | \
(f & ~CIS_GET_LTUPLE_OPMASK))
#define FIND_PREV_LTUPLE(tp, tu, f) CIS_PARSER(CISP_CIS_GET_LTUPLE, tp, \
tu, FIND_PREV_LTUPLEF | \
(f & ~CIS_GET_LTUPLE_OPMASK))
#define FIND_FIRST_LTUPLE(tp, tu, f) FIND_LTUPLE_FWD(GET_FIRST_LTUPLE(tp, \
f), tu, f)
/*
* Card Services hooks and general nexus prototypes
*/
int cs_init(void);
uint32_t cs_event(event_t, uint32_t, uint32_t);
int pcmcia_set_em_handler(int (*handler)(), caddr_t events,
int elen, uint32_t id, void **cs, void **ss);
extern csfunction_t *cs_socket_services;
#ifdef __cplusplus
}
#endif
#endif /* _CS_PRIV_H */