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man pages section 9: DDI and DKI Kernel Functions Oracle Solaris 11.1 Information Library |
csx_AccessConfigurationRegister(9F)
csx_Parse_CISTPL_BYTEORDER(9F)
csx_Parse_CISTPL_CFTABLE_ENTRY(9F)
csx_Parse_CISTPL_DEVICEGEO(9F)
csx_Parse_CISTPL_DEVICEGEO_A(9F)
csx_Parse_CISTPL_DEVICE_OA(9F)
csx_Parse_CISTPL_DEVICE_OC(9F)
csx_Parse_CISTPL_LINKTARGET(9F)
csx_Parse_CISTPL_LONGLINK_A(9F)
csx_Parse_CISTPL_LONGLINK_C(9F)
csx_Parse_CISTPL_LONGLINK_MFC(9F)
ddi_get_soft_iblock_cookie(9F)
ddi_intr_get_supported_types(9F)
ddi_prop_lookup_byte_array(9F)
ddi_prop_lookup_int64_array(9F)
ddi_prop_lookup_string_array(9F)
ddi_prop_update_byte_array(9F)
ddi_prop_update_int64_array(9F)
ddi_prop_update_string_array(9F)
ldi_prop_lookup_byte_array(9F)
ldi_prop_lookup_int64_array(9F)
ldi_prop_lookup_string_array(9F)
mac_prop_info_set_default_link_flowctrl(9F)
mac_prop_info_set_default_str(9F)
mac_prop_info_set_default_uint8(9F)
mac_prop_info_set_range_uint32(9F)
net_event_notify_unregister(9F)
net_instance_notify_register(9F)
net_instance_notify_unregister(9F)
net_instance_protocol_unregister(9F)
net_protocol_notify_register(9F)
nvlist_lookup_boolean_array(9F)
nvlist_lookup_boolean_value(9F)
nvlist_lookup_nvlist_array(9F)
nvlist_lookup_string_array(9F)
nvlist_lookup_uint16_array(9F)
nvlist_lookup_uint32_array(9F)
nvlist_lookup_uint64_array(9F)
nvpair_value_boolean_array(9F)
pci_plist_lookup_int16_array(9F)
pci_plist_lookup_int32_array(9F)
pci_plist_lookup_int64_array(9F)
pci_plist_lookup_int8_array(9F)
pci_plist_lookup_string_array(9F)
pci_plist_lookup_uint16_array(9F)
pci_plist_lookup_uint32_array(9F)
pci_plist_lookup_uint64_array(9F)
pci_plist_lookup_uint8_array(9F)
scsi_get_device_type_scsi_options(9F)
scsi_get_device_type_string(9F)
scsi_sense_cmdspecific_uint64(9F)
usb_get_current_frame_number(9F)
usb_get_max_pkts_per_isoc_request(9F)
usb_pipe_get_max_bulk_transfer_size(9F)
usb_pipe_stop_intr_polling(9F)
usb_pipe_stop_isoc_polling(9F)
- 32–bit application data access macros
#include <sys/ddi.h> #include <sys/sunddi.h> STRUCT_DECL(structname, handle);
STRUCT_HANDLE(structname, handle);
void STRUCT_INIT(handle, model_t umodel);
void STRUCT_SET_HANDLE(handle, model_t umodel, void *addr);
STRUCT_FGET(handle, field);
STRUCT_FGETP(handle, field);
STRUCT_FSET(handle, field, val);
STRUCT_FSETP(handle, field, val);
<typeof field> *STRUCT_FADDR(handle, field);
struct structname *STRUCT_BUF(handle);
size_t SIZEOF_STRUCT(structname, umodel);
size_t SIZEOF_PTR(umodel);
size_t STRUCT_SIZE(handle);
Solaris DDI specific (Solaris DDI).
The macros take the following parameters:
The structure name that appears after the C keyword struct of the native form.
A bit field that contains either the ILP32 model bit (DATAMODEL_ILP32), or the LP64 model bit (DATAMODEL_LP64). In an ioctl(9E), these bits are present in the flag parameter. In a devmap(9E), the bits are present in the model parameter mmap(9E). The ddi_mmap_get_model(9F) can be called to get the data model of the current thread.
The variable name used to refer to a particular instance of a structure which is handled by these macros.
The field name within the structure that can contain substructures. If the structures contain substructures, unions, or arrays, the field can be whatever complex expression would naturally follow the first . or ->.
The above macros allow a device driver to access data consumed from a 32-bit application regardless whether the driver was compiled to the ILP32 or LP64 data model. These macros effectively hide the difference between the data model of the user application and the driver.
The macros can be broken up into two main categories described in the following sections.
The macros STRUCT_DECL() and STRUCT_HANDLE() declare structure handles on the stack, whereas the macros STRUCT_INIT() and STRUCT_SET_HANDLE() initialize the structure handles to point to an instance of the native form structure.
The macros STRUCT_HANDLE() and STRUCT_SET_HANDLE() are used to declare and initialize a structure handle to an existing data structure, for example, ioctls within a STREAMS module.
The macros STRUCT_DECL() and STRUCT_INIT(), on the other hand, are used in modules which declare and initialize a structure handle to a data structure allocated by STRUCT_DECL(), that is, any standard character or block device driver ioctl(9E) routine that needs to copy in data from a user-mode program.
Declares a structure handle for a struct and allocates an instance of its native form on the stack. It is assumed that the native form is larger than or equal to the ILP32 form. handle is a variable name and is declared as a variable by this macro.
Initializes handle to point to the instance allocated by STRUCT_DECL(). It also sets data model for handle to umodel and it must be called before any access is made through the macros that operate on these structures. When used in an ioctl(9E) routine, umodel is the flag parameter. In a devmap(9E) routine, umodel is the model parameter. In a mmap(9E) routine, umodel is the return value of ddi_mmap_get_model(9F). This macro is intended only for handles created with STRUCT_DECL().
Declares a structure handle handle but, unlike STRUCT_DECL(), it does not allocate an instance of “struct”.
Initializes handle to point to the native form instance at addr. It also sets the data model for handle to umodel. This is intended for handles created with STRUCT_HANDLE(). Fields cannot be referenced via the handle until this macro has been invoked. Typically, addr is the address of the native form structure containing the user-mode programs data. When used in an ioctl(9E), umodel is the flag parameter. In a devmap(9E) routine, umodel is the model parameter. In an mmap(9E) routine, umodel is the return value of ddi_mmap_get_model(9F).
Returns size of the structure referred to by handle, depending on the data model associated with handle. If the data model stored by STRUCT_INIT() or STRUCT_SET_HANDLE() is DATAMODEL_ILP32, the size of the ILP32 form is returned. Otherwise, the size of the native form is returned.
Returns the contents of field in the structure described by handle according to the data model associated with handle.
This is the same as STRUCT_FGET() except that the field in question is a pointer of some kind. This macro casts caddr32_t to a (void *) when it is accessed. Failure to use this macro for a pointer leads to compiler warnings or failures.
Assigns val to the (non-pointer) in the structure described by handle. It should not be used within another expression, but only as a statement.
This is the equivalent of STRUCT_FGETP() for STRUCT_FGET(), with the same exceptions. Like STRUCT_FSET, STRUCT_FSETP should not be used within another expression, but only as a statement.
Returns a pointer to the native mode instance of the structure described by handle.
Returns size of structname based on umodel.
Returns the size of a pointer based on umodel.
Example 1 Copying a Structure
The following example uses an ioctl(9E) on a regular character device that copies a data structure that looks like this into the kernel:
struct opdata { size_t size; uint_t flag; };
Example 2 Defining a Structure
This data structure definition describes what the ioctl(9E) would look like in a 32-bit application using fixed width types.
#if defined(_MULTI_DATAMODEL) struct opdata32 { size32_t size; uint32_t flag; }; #endif
Example 3 Using STRUCT_DECL() and STRUCT_INIT()
Note: This example uses the STRUCT_DECL() and STRUCT_INIT() macros to declare and initialize the structure handle.
int xxioctl(dev_t dev, int cmd, intptr_t arg, int mode, cred_t *cr, int *rval_p); { STRUCT_DECL(opdata, op); if (cmd != OPONE) return (ENOTTY); STRUCT_INIT(op, mode); if (copyin((void *)data, STRUCT_BUF(op), STRUCT_SIZE(op))) return (EFAULT); if (STRUCT_FGET(op, flag) != FACTIVE || STRUCT_FGET(op, size) > sizeof (device_state)) return (EINVAL); xxdowork(device_state, STRUCT_FGET(op, size)); return (0); }
This piece of code is an excerpt from a STREAMS module that handles ioctl(9E) data (M_IOCDATA) messages and uses the data structure defined above. This code has been written to run in the ILP32 environment only.
Example 4 Using STRUCT_HANDLE() and STRUCT_SET_HANDLE()
The next example illustrates the use of the STRUCT_HANDLE() and STRUCT_SET_HANDLE() macros which declare and initialize the structure handle to point to an already existing instance of the structure.
The above code example can be converted to run in the LP64 environment using the STRUCT_HANDLE() and STRUCT_SET_HANDLE() as follows:
struct strbuf { int maxlen; /* no. of bytes in buffer */ int len; /* no. of bytes returned */ caddr_t buf; /* pointer to data */ };
static void wput_iocdata(queue_t *q, mblk_t *msgp) { struct copyresp *cp = (struct copyresp *)msgp->b_rptr; STRUCT_HANDLE(strbuf, sb); if (msgp->b_cont->b_cont != NULL) { msgp->b_cont = msgpullup(msgp->b_cont, -1); if (msgp->b_cont == NULL) { miocnak(q, msgp, 0, ENOSR); return; } } STRUCT_SET_HANDLE(sb, cp->cp_flag, (void *)msgp->b_cont->b_rptr); if (STRUCT_FGET(sb, maxlen) < (int)sizeof (ipa_t)) { miocnak(q, msgp, 0, ENOSR); return; } ... miocack(q, msgp, 0, 0); }
See attributes(5) for descriptions of the following attributes:
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