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man pages section 9: DDI and DKI Driver Entry Points     Oracle Solaris 11.1 Information Library
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Document Information

Preface

Introduction

Driver Entry Points

aread(9E)

attach(9E)

audio_engine_channels(9E)

audio_engine_chinfo(9E)

audio_engine_close(9E)

audio_engine_count(9E)

audio_engine_format(9E)

audio_engine_open(9E)

audio_engine_playahead(9E)

audio_engine_qlen(9E)

audio_engine_rate(9E)

audio_engine_start(9E)

audio_engine_stop(9E)

audio_engine_sync(9E)

awrite(9E)

chpoll(9E)

close(9E)

csx_event_handler(9E)

detach(9E)

devmap(9E)

devmap_access(9E)

devmap_contextmgt(9E)

devmap_dup(9E)

devmap_map(9E)

devmap_unmap(9E)

dump(9E)

_fini(9E)

getinfo(9E)

gld(9E)

gldm_get_stats(9E)

gldm_intr(9E)

gldm_ioctl(9E)

gldm_reset(9E)

gldm_send(9E)

gldm_set_mac_addr(9E)

gldm_set_multicast(9E)

gldm_set_promiscuous(9E)

gldm_start(9E)

gldm_stop(9E)

identify(9E)

_info(9E)

_init(9E)

ioctl(9E)

ks_snapshot(9E)

ks_update(9E)

mac(9E)

mac_capab_rings(9E)

mac_group_info(9E)

mac_ring_info(9E)

mc_getcapab(9E)

mc_getprop(9E)

mc_getstat(9E)

mc_ioctl(9E)

mc_multicst(9E)

mc_propinfo(9E)

mc_setpromisc(9E)

mc_setprop(9E)

mc_start(9E)

mc_stop(9E)

mc_tx(9E)

mc_unicst(9E)

mgi_addmac(9E)

mgi_add_vlanfilter(9E)

mgi_getsriov_info(9E)

mgi_remmac(9E)

mgi_rem_vlanfliter(9E)

mgi_setmtu(9E)

mgi_start(9E)

mgi_stop(9E)

mmap(9E)

mr_gaddring(9E)

mr_gget(9E)

mr_gremring(9E)

mri_intr_disable(9E)

mri_intr_enable(9E)

mri_poll(9E)

mri_start(9E)

mri_stat(9E)

mri_stop(9E)

mri_tx(9E)

mr_rget(9E)

open(9E)

power(9E)

print(9E)

probe(9E)

prop_op(9E)

put(9E)

quiesce(9E)

read(9E)

segmap(9E)

sofop_accepted(9E)

sofop_attach_active(9E)

sofop_attach_passive(9E)

sofop_bind(9E)

sofop_connect(9E)

sofop_data_in(9E)

sofop_data_in_proc(9E)

sofop_data_out(9E)

sofop_detach(9E)

sofop_getpeername(9E)

sofop_getsockname(9E)

sofop_getsockopt(9E)

sofop_listen(9E)

sofop_notify(9E)

sofop_setsockopt(9E)

sofop_shutdown(9E)

srv(9E)

strategy(9E)

tran_abort(9E)

tran_bus_reset(9E)

tran_destroy_pkt(9E)

tran_dmafree(9E)

tran_getcap(9E)

tran_init_pkt(9E)

tran_pkt_constructor(9E)

tran_pkt_destructor(9E)

tran_quiesce(9E)

tran_reset(9E)

tran_reset_notify(9E)

tran_setcap(9E)

tran_setup_pkt(9E)

tran_start(9E)

tran_sync_pkt(9E)

tran_teardown_pkt(9E)

tran_tgt_free(9E)

tran_tgt_init(9E)

tran_tgt_probe(9E)

tran_unquiesce(9E)

write(9E)

devmap_map

- device mapping create entry point

Synopsis

#include <sys/ddi.h>
#include <sys/sunddi.h>

int prefixdevmap_map(devmap_cookie_t dhp, dev_t dev, 
     uint_t flags, offset_t off, size_t len, void **pvtp);

Interface Level

Solaris DDI specific (Solaris DDI).

ARGUMENTS

dhp

An opaque mapping handle that the system uses to describe the mapping currently being created.

dev

The device whose memory is to be mapped.

flags

Flags indicating type of mapping. Possible values are:

MAP_PRIVATE

Changes are private.

MAP_SHARED

Changes should be shared.

off

User offset within the logical device memory at which the mapping begins.

len

Length (in bytes) of the memory to be mapped.

pvtp

A pointer to be filled in by device drivers with the driver private mapping data.

Description

The devmap_map() entry point is an optional routine that allows drivers to perform additional processing or to allocate private resources during the mapping setup time. For example, in order for device drivers to support context switching, the drivers allocate private mapping data and associate the private data with the mapping parameters in the devmap_map() entry point.

The system calls devmap_map() after the user mapping to device physical memory has been established. (For example, after the devmap(9E) entry point is called.)

devmap_map() receives a pointer to the driver private data for this mapping in pvtp. The system expects the driver to allocate its private data and set *pvtp to the allocated data. The driver must store off and len, which define the range of the mapping, in its private data. Later, when the system calls devmap_unmap(9E), the driver will use the off and len stored in pvtp to check if the entire mapping, or just a part of it, is being unmapped. If only a part of the mapping is being unmapped, the driver must allocate a new private data for the remaining mapping before freeing the old private data. The driver will receive *pvtp in subsequent event notification callbacks.

If the driver support context switching, it should store the mapping handle dhp in its private data *pvtp for later use in devmap_unload(9F).

For a driver that supports context switching, flags indicates whether or not the driver should allocate a private context for the mapping. For example, a driver may allocate a memory region to store the device context if flags is set to MAP_PRIVATE.

Return Values

devmap_map() returns the following values:

0

Successful completion.

Non-zero

An error occurred.

Examples

Example 1 devmap_map()implementation

The following shows an example implementation for devmap_map().

static int
xxdevmap_map(devmap_cookie_t dhp, dev_t dev, uint_t flags, \
     offset_t off,size_t len, void **pvtp)
{
    struct xx_resources  *pvt;
    struct xx_context *this_context;
    struct xx_softc *softc;
    softc = ddi_get_soft_state(statep, getminor(dev));

    this_context = get_context(softc, off, len);

    /* allocate resources for the mapping  - Device dependent */
    pvt = kmem_zalloc(sizeof (struct xx_resources), KM_SLEEP);

    pvt->off = off;
    pvt->len = len;
    pvt->dhp = dhp;
    pvt->ctx = this_context;
    *pvtp = pvt;
}

See Also

devmap_unmap(9E), devmap_unload(9F), devmap_callback_ctl(9S)

Writing Device Drivers