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kern_control.h

Includes:

Overview

This header defines an API to communicate between a kernel extension and a process outside of the kernel.

Functions

ctl_deregister
ctl_enqueuedata
ctl_enqueuembuf
ctl_getenqueuespace
ctl_register

ctl_deregister

errno_t ctl_deregister(
    kern_ctl_ref kctlref);

Parameters

kctlref: The control reference of the control to unregister.

Return Value

0 - Kernel control was unregistered. EINVAL - The kernel control reference was invalid. EBUSY - The kernel control has clients still attached.

Discussion

Unregister a kernel control. A kernel extension must unregister it's kernel control(s) before unloading. If a kernel control has clients attached, this call will fail.

ctl_enqueuedata

errno_t ctl_enqueuedata(
    kern_ctl_ref kctlref,
    u_int32_t unit,
    void *data,
    size_t len,
    u_int32_t flags);

Parameters

kctlref: The control reference of the kernel control.
unit: The unit number of the kernel control instance.
data: A pointer to the data to send.
len: The length of data to send.
flags: Send flags. CTL_DATA_NOWAKEUP is currently the only supported flag.

Return Value

0 - Data was enqueued to be read by the client. EINVAL - Invalid parameters. EMSGSIZE - The buffer is too large. ENOBUFS - The queue is full or there are no free mbufs.

Discussion

Send data from the kernel control to the client.

ctl_enqueuembuf

errno_t ctl_enqueuembuf(
    kern_ctl_ref kctlref,
    u_int32_t unit,
    mbuf_t m,
    u_int32_t flags);

Parameters

kctlref: The control reference of the kernel control.
unit: The unit number of the kernel control instance.
m: An mbuf chain containing the data to send to the client.
flags: Send flags. CTL_DATA_NOWAKEUP is currently the only supported flag.

Return Value

0 - Data was enqueued to be read by the client. EINVAL - Invalid parameters. ENOBUFS - The queue is full.

Discussion

Send data stored in an mbuf chain from the kernel control to the client. The caller is responsible for freeing the mbuf chain if ctl_enqueuembuf returns an error.

ctl_getenqueuespace

errno_t ctl_getenqueuespace(
    kern_ctl_ref kctlref,
    u_int32_t unit,
    size_t *space);

Parameters

kctlref: The control reference of the kernel control.
unit: The unit number of the kernel control instance.
space: The address where to return the current space available

Return Value

0 - Success; the amount of space is returned to caller. EINVAL - Invalid parameters.

Discussion

Retrieve the amount of space currently available for data to be sent from the kernel control to the client.

ctl_register

errno_t ctl_register(
    struct kern_ctl_reg *userkctl,
    kern_ctl_ref *kctlref);

Parameters

userkctl: A structure defining the kernel control to be attached. The ctl_connect callback must be specified, the other callbacks are optional. If ctl_connect is set to zero, ctl_register fails with the error code EINVAL.
kctlref: Upon successful return, the kctlref will contain a reference to the attached kernel control. This reference is used to unregister the kernel control. This reference will also be passed in to the callbacks each time they are called.

Return Value

0 - Kernel control was registered. EINVAL - The registration structure was not valid. ENOMEM - There was insufficient memory. EEXIST - A controller with that id/unit is already registered.

Discussion

Typedefs

ctl_connect_func

typedef errno_t ( *ctl_connect_func)(
    kern_ctl_ref kctlref, 
    struct sockaddr_ctl *sac, 
    void **unitinfo);

Fields

kctlref: The control ref for the kernel control the client is connecting to.
sac: The address used to connect to this control. The field sc_unit contains the unit number of the kernel control instance the client is connecting to. If CTL_FLAG_REG_ID_UNIT was set when the kernel control was registered, sc_unit is the ctl_unit of the kern_ctl_reg structure. If CTL_FLAG_REG_ID_UNIT was not set when the kernel control was registered, sc_unit is the dynamically allocated unit number of the new kernel control instance that is used for this connection.
unitinfo: A placeholder for a pointer to the optional user-defined private data associated with this kernel control instance. This opaque info will be provided to the user when the rest of the callback routines are executed. For example, it can be used to pass a pointer to an instance-specific data structure in order for the user to keep track of the states related to this kernel control instance.

Discussion

The ctl_connect_func is used to receive notification of a client connecting to the kernel control.

ctl_disconnect_func

typedef errno_t ( *ctl_disconnect_func)(
    kern_ctl_ref kctlref,
    u_int32_t unit,
    void *unitinfo);

Fields

kctlref: The control ref for the kernel control instance the client has disconnected from.
unit: The unit number of the kernel control instance the client has disconnected from.
unitinfo: The user-defined private data initialized by the ctl_connect_func callback.

Discussion

The ctl_disconnect_func is used to receive notification that a client has disconnected from the kernel control. This usually happens when the socket is closed. If this is the last socket attached to your kernel control, you may unregister your kernel control from this callback.

ctl_getopt_func

typedef errno_t ( *ctl_getopt_func)(
    kern_ctl_ref kctlref,
    u_int32_t unit,
    void *unitinfo, 
    int opt,
    void *data,
    size_t *len);

Fields

kctlref: The control ref of the kernel control.
unit: The unit number of the kernel control instance.
unitinfo: The user-defined private data initialized by the ctl_connect_func callback.
opt: The socket option.
data: A buffer to copy the results in to. May be NULL, see discussion.
len: A pointer to the length of the buffer. This should be set to the length of the buffer used before returning.

Discussion

The ctl_getopt_func is used to handle client get socket option requests for the SYSPROTO_CONTROL option level. A buffer is allocated for storage and passed to your function. The length of that buffer is also passed. Upon return, you should set *len to length of the buffer used. In some cases, data may be NULL. When this happens, *len should be set to the length you would have returned had data not been NULL. If the buffer is too small, return an error.

ctl_send_func

typedef errno_t ( *ctl_send_func)(
    kern_ctl_ref kctlref,
    u_int32_t unit,
    void *unitinfo, 
    mbuf_t m,
    int flags);

Fields

kctlref: The control ref of the kernel control.
unit: The unit number of the kernel control instance the client has connected to.
unitinfo: The user-defined private data initialized by the ctl_connect_func callback.
m: The data sent by the client to the kernel control in an mbuf chain.
flags: The flags specified by the client when calling send/sendto/sendmsg (MSG_OOB/MSG_DONTROUTE).

Discussion

The ctl_send_func is used to receive data sent from the client to the kernel control.

ctl_setopt_func

typedef errno_t ( *ctl_setopt_func)(
    kern_ctl_ref kctlref,
    u_int32_t unit,
    void *unitinfo, 
    int opt,
    void *data,
    size_t len);

Fields

kctlref: The control ref of the kernel control.
unit: The unit number of the kernel control instance.
unitinfo: The user-defined private data initialized by the ctl_connect_func callback.
opt: The socket option.
data: A pointer to the socket option data. The data has already been copied in to the kernel for you.
len: The length of the socket option data.

Discussion

The ctl_setopt_func is used to handle set socket option calls for the SYSPROTO_CONTROL option level.

kern_ctl_ref

typedef void * kern_ctl_ref;

Discussion

A control reference is used to track an attached kernel control. Registering a kernel control will create a kernel control reference. This reference is required for sending data or removing the kernel control. This reference will be passed to callbacks for that kernel control.

Structs and Unions

ctl_event_data

struct ctl_event_data { 
    u_int32_t ctl_id; /* Kernel Controller ID */
    u_int32_t ctl_unit; 
};

Fields

ctl_id: The kernel control id.
ctl_unit: The kernel control unit.

Discussion

This structure is used for KEV_CTL_SUBCLASS kernel events.

ctl_info

struct ctl_info { 
    u_int32_t ctl_id; /* Kernel Controller ID  */
    char ctl_name[ 96]; /* Kernel Controller Name (a C string) */
};

Fields

ctl_id: The kernel control id, filled out upon return.
ctl_name: The kernel control name to find.

Discussion

This structure is used with the CTLIOCGINFO ioctl to translate from a kernel control name to a control id.

kern_ctl_reg

struct kern_ctl_reg { 
    /* control information */
    char ctl_name[ 96]; 
    u_int32_t ctl_id; 
    u_int32_t ctl_unit;  
    /* control settings */
    u_int32_t ctl_flags; 
    u_int32_t ctl_sendsize; 
    u_int32_t ctl_recvsize;  
    /* Dispatch functions */
    ctl_connect_func ctl_connect; 
    ctl_disconnect_func ctl_disconnect; 
    ctl_send_func ctl_send; 
    ctl_setopt_func ctl_setopt; 
    ctl_getopt_func ctl_getopt; 
};

Fields

ctl_name: A Bundle ID string of up to MAX_KCTL_NAME bytes (including the ending zero). This string should not be empty.
ctl_id: The control ID may be dynamically assigned or it can be a 32-bit creator code assigned by DTS. For a DTS assigned creator code the CTL_FLAG_REG_ID_UNIT flag must be set. For a dynamically assigned control ID, do not set the CTL_FLAG_REG_ID_UNIT flag. The value of the dynamically assigned control ID is set to this field when the registration succeeds.
ctl_unit: A separate unit number to register multiple units that share the same control ID with DTS assigned creator code when the CTL_FLAG_REG_ID_UNIT flag is set. This field is ignored for a dynamically assigned control ID.
ctl_flags: CTL_FLAG_PRIVILEGED and/or CTL_FLAG_REG_ID_UNIT.
ctl_sendsize: Override the default send size. If set to zero, the default send size will be used, and this default value is set to this field to be retrieved by the caller.
ctl_recvsize: Override the default receive size. If set to zero, the default receive size will be used, and this default value is set to this field to be retrieved by the caller.
ctl_connect: Specify the function to be called whenever a client connects to the kernel control. This field must be specified.
ctl_disconnect: Specify a function to be called whenever a client disconnects from the kernel control.
ctl_send: Specify a function to handle data send from the client to the kernel control.
ctl_setopt: Specify a function to handle set socket option operations for the kernel control.
ctl_getopt: Specify a function to handle get socket option operations for the kernel control.

Discussion

This structure defines the properties of a kernel control being registered.

sockaddr_ctl

struct sockaddr_ctl { 
    u_char sc_len; /* depends on size of bundle ID string */
    u_char sc_family; /* AF_SYSTEM */
    u_int16_t ss_sysaddr; /* AF_SYS_KERNCONTROL */
    u_int32_t sc_id; /* Controller unique identifier  */
    u_int32_t sc_unit; /* Developer private unit number */
    u_int32_t sc_reserved[5]; 
};

Fields

sc_len: The length of the structure.
sc_family: AF_SYSTEM.
ss_sysaddr: AF_SYS_KERNCONTROL.
sc_id: Controller unique identifier.
sc_unit: Kernel controller private unit number.
sc_reserved: Reserved, must be set to zero.

Discussion

The controller address structure is used to establish contact between a user client and a kernel controller. The sc_id/sc_unit uniquely identify each controller. sc_id is a unique identifier assigned to the controller. The identifier can be assigned by the system at registration time or be a 32-bit creator code obtained from Apple Computer. sc_unit is a unit number for this sc_id, and is privately used by the kernel controller to identify several instances of the controller.

#defines

CTL_DATA_EOR

#define CTL_DATA_EOR 0x2

Discussion

The CTL_DATA_EOR flag can be used for the enqueue data and enqueue mbuf functions to mark the end of a record.

CTL_DATA_NOWAKEUP

#define CTL_DATA_NOWAKEUP 0x1

Discussion

The CTL_DATA_NOWAKEUP flag can be used for the enqueue data and enqueue mbuf functions to indicate that the process should not be woken up yet. This is useful when you want to enqueue data using more than one call but only want to wake up the client after all of the data has been enqueued.

CTL_FLAG_PRIVILEGED

#define CTL_FLAG_PRIVILEGED 0x1

Discussion

The CTL_FLAG_PRIVILEGED flag is passed in ctl_flags. If this flag is set, only privileged processes may attach to this kernel control.

CTL_FLAG_REG_ID_UNIT

#define CTL_FLAG_REG_ID_UNIT 0x2

Discussion

The CTL_FLAG_REG_ID_UNIT flag is passed to indicate that the ctl_id specified should be used. If this flag is not present, a unique ctl_id will be dynamically assigned to your kernel control. The CTLIOCGINFO ioctl can be used by the client to find the dynamically assigned id based on the control name specified in ctl_name.

CTL_FLAG_REG_SOCK_STREAM

#define CTL_FLAG_REG_SOCK_STREAM 0x4

Discussion

Use the CTL_FLAG_REG_SOCK_STREAM flag when client need to open socket of type SOCK_STREAM to communicate with the kernel control. By default kernel control sockets are of type SOCK_DGRAM.

CTLIOCGCOUNT

#define CTLIOCGCOUNT _IOR('N', 2, int) /* get number of control structures registered */

Discussion

The CTLIOCGCOUNT ioctl can be used to determine the number of kernel controllers registered.

CTLIOCGINFO

#define CTLIOCGINFO _IOWR('N', 3, struct ctl_info) /* get id from name */

Discussion

The CTLIOCGINFO ioctl can be used to convert a kernel control name to a kernel control id.

KEV_CTL_DEREGISTERED

#define KEV_CTL_DEREGISTERED 2 /* a controller disappears */

Discussion

The event code indicating a controller was unregistered. The data portion will contain a ctl_event_data.

KEV_CTL_REGISTERED

#define KEV_CTL_REGISTERED 1 /* a new controller appears */

Discussion

The event code indicating a new controller was registered. The data portion will contain a ctl_event_data.

KEV_CTL_SUBCLASS

#define KEV_CTL_SUBCLASS 2

Discussion

The kernel event subclass for kernel control events.

MAX_KCTL_NAME

#define MAX_KCTL_NAME 96

Discussion

Kernel control names must be no longer than MAX_KCTL_NAME.

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Last Updated: 2008-12-19