Document revision date: 19 July 1999 | |
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Controls the association between a calling process and resource domains.
SYS$SET_RESOURCE_DOMAIN func ,rsdm_id ,domain_number ,[nullarg] ,[access] ,[acmode]
int sys$set_resource_domain (unsigned int func, unsigned int *rsdm_id, unsigned int domain_number, unsigned int nullarg, unsigned int access, unsigned int acmode);
func
OpenVMS usage: function_code type: longword (unsigned) access: read only mechanism: by value
Function code specifying the action that $SET_RESOURCE_DOMAIN is to perform. The func argument is a longword containing this function code. See the Function Codes section for a description of $SET_RESOURCE_DOMAIN function codes.rsdm_id
OpenVMS usage: longword type: longword (unsigned) access: write only to join, read only to leave mechanism: by reference
Resource domain identification. The rsdm_id argument is the address of a longword specifying the association of the calling process with the resource domain.The RSDM$_JOIN_DOMAIN function returns a resource domain identification. The RSDM$_LEAVE function requires the rsdm_id argument as input to specify which resource domain association the process is leaving.
The resource domain identification can be used as input to the $ENQ and $ENQW system services.
domain_number
OpenVMS usage: longword type: longword (unsigned) access: read only mechanism: by value
Domain number that identifies the resource domain. The domain_number argument is a longword value containing the resource domain number.The domain_number argument is required for the RSDM$_JOIN_DOMAIN function but ignored for the RSDM$_LEAVE function.
nullarg
OpenVMS usage: null_arg type: longword (unsigned) access: read only mechanism: by value
Placeholder reserved to Compaq. You must specify 0.access
OpenVMS usage: mask_longword type: longword (unsigned) access: read only mechanism: by value
Types of access desired when using the lock management services within the resource domain. The access argument is a longword bit mask specifying the access types required; these can include read, write, and lock. The following table lists the symbols that the $RSDMDEF macro defines, their descriptions, and the lock management system services that might require each type of access.
Symbol Access Description System Service RSDM$M_READ Read lock value blocks $DEQ, $ENQ, $ENQW, $GETLKI, $GETLKIW RSDM$M_WRITE Write lock value blocks $DEQ, $ENQ, $ENQW, RSDM$M_LOCK Take locks $ENQ, $ENQW The service grants the desired access, provided your process has the necessary access rights to the resource domain. If you do not specify the access argument or if you specify 0, $SET_RESOURCE_DOMAIN attempts to access the domain in the following order:
- Read, write, lock
- Read, lock
- Write, lock
- Lock
The access attempt terminates with the first success.
The access argument defaults to 0. It is ignored for the RSDM$_LEAVE function.
acmode
OpenVMS usage: access_mode type: longword (unsigned) access: read only mechanism: by value
Access mode requested for the association to the resource domain. The most privileged access mode granted is the access mode of the caller. Locks cannot be taken from access modes less privileged than the access mode of the association.The acmode argument is a longword containing the access mode. The $PSLDEF macro defines the following symbols for the access modes.
Symbolic
NameAccess
ModePrivilege
RankPSL$C_KERNEL Kernel High PSL$C_EXEC Executive -- PSL$C_SUPER Supervisor -- PSL$C_USER User Low The acmode argument is optional for the RSDM$_JOIN_DOMAIN function. If you do not specify the acmode argument, the access mode is set to the access mode of the calling process. The acmode argument is ignored for the RSDM$_LEAVE function.
RSDM$_JOIN_DOMAIN
A process has the option of forming multiple associations with one or more resource domains. Each association can have different access rights to the resource domain, such as to read lock value blocks or to write lock value blocks. This request sets up a new association with a resource domain.$SET_RESOURCE_DOMAIN verifies the desired access against the security profile of the resource domain. If the desired access is allowed, a new association to the resource domain is created, and a resource domain identification for the association is returned.
This function code returns the following condition values:
- SS$_NORMAL
- SS$_BADPARAM
- SS$_EXQUOTA
- SS$_INSFMEM
- SS$_NOOBJSRV
- SS$_NOPRIV
RSDM$_LEAVE
This operation requests that a process end an association with a resource domain. A process must leave a resource domain association in the same mode as, or in a more privileged mode than, the mode in which it joined the resource domain.Before a process can end its association with a resource domain, it must release all locks taken using that association.
This function code returns the following condition values:
- SS$_NORMAL
- SS$_BADPARAM
- SS$_IVMODE
- SS$_RSDM_ACTIVE
- SS$_RSDMNOTFOU
The Set Resource Domain system service enables a process to use the lock management system services $DEQ, $ENQ, $ENQW, $GETLKI, and $GETLKIW.The lock management services enable processes with the appropriate access rights to take and release locks on resource names and to perform other functions related to lock management. Applications use resource names to represent resources to which they want to synchronize access. A resource domain is a namespace for resource names. A process must join a resource domain to take and release locks and to read and write value blocks associated with resources in that resource domain.
When a process requests to join a resource domain, $SET_RESOURCE_DOMAIN performs an access check. After $SET_RESOURCE_DOMAIN verifies the desired access to the resource domain, the service creates an association between the resource domain and the calling process. The association is represented by a resource domain identification. A process can request different types of access to the same resource domain; the type of access is a characteristic of the association with the resource domain. Each time a process joins a resource domain, a new association is created. Processes use their resource domain identifications when using $ENQ or $ENQW to request a new lock.
The service can grant the following three types of access to resource domains:
- The right to read lock value blocks
- The right to write lock value blocks
- The right to take and release locks
None
$SET_RESOURCE_DOMAIN uses system dynamic memory, which uses BYTLM quota, for the creation of the resource domain data structures.
$DEQ, $ENQ, $ENQW, $GETLKI, $GETLKIW
SS$_NORMAL The service completed successfully. SS$_BADPARAM The func, the domain_number, or the rsdm_id argument was specified incorrectly. SS$_EXQUOTA The caller has insufficient BYTLM quota. SS$_INSFMEM There is insufficient memory to join the resource domain. SS$_IVMODE An attempt was made to leave an association created by a more privileged access mode. SS$_NOOBJSRV The audit server process, which maintains the security profile for resource domains, is not running. The process access rights to the domain cannot be determined, so access is denied. SS$_NOPRIV Access to the resource domain was denied. SS$_RSDM_ACTIVE Unable to leave the resource domain because there are locks still associated with this resource domain. SS$_RSDMNOTFOU The resource domain was not found.
Modifies the security characteristics of a protected object.
SYS$SET_SECURITY [clsnam] ,[objnam] ,[objhan] ,[flags] ,[itmlst] ,[contxt] ,[acmode]
int sys$set_security (void *clsnam, void *objnam, unsigned int *objhan, unsigned int flags, void *itmlst, unsigned int *contxt, unsigned int *acmode);
clsnam
OpenVMS usage: char_string type: character-coded text string access: read only mechanism: by descriptor
Name of the object class. The clsnam argument is the address of a descriptor pointing to a string that contains the name of the object class. The following is a list of the protected object class names:
- CAPABILITY
- COMMON_EVENT_CLUSTER
- DEVICE
- FILE
- GROUP_GLOBAL_SECTION
- ICC_ASSOCIATION
- LOGICAL_NAME_TABLE
- QUEUE
- RESOURCE_DOMAIN
- SECURITY_CLASS
- SYSTEM_GLOBAL_SECTION
- VOLUME
objnam
OpenVMS usage: char_string type: character-coded text string access: read only mechanism: by descriptor
Name of the protected object whose associated security profile is going to be retrieved. The objnam argument is the address of a descriptor pointing to a string containing the name of the protected object.The format of an object name is class specific. The following table lists object names and describes their formats.
Object Class Object Name Format CAPABILITY A character string. Currently, the only capability object is VECTOR. COMMON_EVENT_CLUSTER Name of the event flag cluster, as defined in the Associate Common Event Flag Cluster ($ASCEFC) system service. DEVICE Standard device specification, described in the OpenVMS User's Manual. FILE Standard file specification, described in the OpenVMS User's Manual. GROUP_GLOBAL_SECTION Section name, as defined in the Create and Map Section ($CRMPSC) system service. ICC_ASSOCIATION ICC security object name node::association_name. The special node name, ICC$::, refers to entries in the clusterwide registry. For registry entries, the Access Access Type does not apply. LOGICAL_NAME_TABLE Table name, as defined in the Create Logical Name Table ($CRELNT) system service. QUEUE Standard queue name, as described in the Send to Job Controller ($SNDJBC) system service. RESOURCE_DOMAIN An identifier or octal string enclosed in brackets. SECURITY_CLASS Any class name shown in the Object Class column of this table, or a class name followed by a period (.) and the template name. Use the DCL command SHOW SECURITY to display possible template names. SYSTEM_GLOBAL_SECTION Section name, as defined in the Create and Map Section ($CRMPSC) system service. VOLUME Volume name or name of the device on which the volume is mounted. objhan
OpenVMS usage: object_handle type: longword (unsigned) access: read only mechanism: by reference
Data structure identifying the object to address. The objhan argument is an address of a longword containing the object handle. You can use the objhan argument as an alternative to the objnam argument; for example, a channel number clearly specifies the file open on the channel and can serve as an object handle. The following table shows the format of the object classes.
Object Class Object Handle Format COMMON_EVENT_CLUSTER Event flag number DEVICE Channel number FILE Channel number RESOURCE_DOMAIN Resource domain identifier VOLUME Channel number flags
OpenVMS usage: flags type: mask_longword access: read only mechanism: by value
Mask specifying processing options. The flags argument is a longword bit vector wherein a bit, when set, specifies the corresponding option. The flags argument requires the contxt argument. The following table describes each flag.
Symbolic Name Description OSS$M_LOCAL Do not update the master profile for the specified object. This flag allows you to call $SET_SECURITY several times to modify a local copy of a profile; once the modifications are satisfactory, you can clear the OSS$M_LOCAL flag, set the OSS$M_RELCTX flag, and have $SET_SECURITY update the master profile. The flag applies only to calls made with the contxt argument. OSS$M_RELCTX Release the context structure at the completion of this request. The $OSSDEF macro defines symbolic names for the flag bits. You construct the flags argument by specifying the symbolic names of each desired option.
itmlst
OpenVMS usage: item_list_3 type: longword (unsigned) access: read only mechanism: by reference
Item list specifying which information about the process or processes is to be modified. The itmlst argument is the address of a list of item descriptors, each of which describes an item of information. The list of item descriptors is terminated by a longword of 0.With the item list, the user modifies the protected object's characteristics. The user defines which security characteristics to modify. If this argument is not present, only the flags argument is processed. Without the itmlst argument, you can only manipulate the security profile locks or release contxt resources.
The following data structure depicts the format of a single item descriptor.
The following table defines the item descriptor fields.
Descriptor Field | Definition |
---|---|
Buffer length | A word containing an integer specifying the length (in bytes) of the buffer from which $SET_SECURITY is to read the information. The length of the buffer needed depends on the item code specified in the item code field of the item descriptor. If the value of buffer length is too small, $SET_SECURITY truncates the data. |
Item code | A word containing a symbolic code specifying the item of information that $SET_SECURITY is to modify. The $OSSDEF macro defines these codes. A description of each item code is given in the Item Codes section. |
Buffer address | A longword containing the address of the buffer from which $SET_SECURITY is to read the information. |
Return length address | Not used. |
OpenVMS usage: | context |
type: | longword (unsigned) |
access: | modify |
mechanism: | by reference |
Because an active context block consumes process memory, be sure to release the context block by setting the RELCTX flag when the profile processing is complete. $SET_SECURITY sets the context argument to 0 once the context is released.
OpenVMS usage: | access_mode |
type: | longword (unsigned) |
access: | read only |
mechanism: | by reference |
Item Code | Description |
---|---|
OSS$_ACL_ADD_ENTRY | Adds an access control entry (ACE). |
OSS$_ACL_DELETE | Deletes all unprotected ACEs in an ACL. |
OSS$_ACL_DELETE_ALL | Deletes the ACL, including protected ACEs. |
OSS$_ACL_DELETE_ENTRY | Deletes an ACE. |
OSS$_ACL_FIND_ENTRY | Locates an ACE. |
OSS$_ACL_FIND_NEXT | Positions the next ACE. |
OSS$_ACL_FIND_TYPE | Locates an ACE of the specified type. |
OSS$_ACL_MODIFY_ENTRY | Replaces an ACE at the current position. |
OSS$_ACL_POSITION_BOTTOM | Sets a marker that points to the end of the ACL. |
OSS$_ACL_POSITION_TOP | Sets a marker that points to the beginning of the ACL. |
OSS$_OWNER | Sets the UIC or general identifier of the object's owner. |
OSS$_PROTECTION | Sets the protection code of the object. |
OSS$_ACL_ADD_ENTRY
When you specify OSS$_ACL_ADD_ENTRY, $SET_SECURITY adds an access control entry (ACE) pointed to by the buffer address so that it is in front of the current ACE in the access control list (ACL). See OSS$_ACL_POSITION for more information on explicit access control list positioning.OSS$_ACL_DELETE
When you specify OSS$_ACL_DELETE, $SET_SECURITY deletes all unprotected ACEs in an ACL.OSS$_ACL_DELETE_ALL
When you specify OSS$_ACL_DELETE_ALL, $SET_SECURITY deletes an entire ACL, including protected ACEs.OSS$_ACL_DELETE_ENTRY
When you specify OSS$_ACL_DELETE_ENTRY, $SET_SECURITY deletes an ACE pointed to by the buffer address or, if the buffer address is specified as 0, the ACE at the current position.OSS$_ACL_FIND_ENTRY
When you specify OSS$_ACL_FIND_ENTRY, $SET_SECURITY locates an ACE pointed to by the buffer address. OSS$_ACL_FIND_ENTRY sets the position within the ACL for succeeding ACL operations; for example, for a deletion or modification of the ACE. If the buffer address is 0, it returns SS$_ACCVIO.OSS$_ACL_FIND_NEXT
When you specify OSS$_ACL_FIND_NEXT, $SET_SECURITY advances the current position to the next ACE in the ACL.OSS$_ACL_FIND_TYPE
When you specify OSS$_ACL_FIND_TYPE, $SET_SECURITY returns an ACE of a particular type if there is one in the buffer pointed to by the buffer address. OSS$_ACL_FIND_TYPE sets the position within the ACL for succeeding ACL operations. If the buffer address is 0, it returns SS$_ACCVIO.OSS$_ACL_MODIFY_ENTRY
When you specify OSS$_ACL_MODIFY_ENTRY, $SET_SECURITY replaces an ACE at the current position with the ACE pointed to by the buffer address.OSS$_ACL_POSITION_BOTTOM
When you specify OSS$_ACL_POSITION_BOTTOM, $SET_SECURITY sets the ACL position to point to the bottom of the ACL.OSS$_ACL_POSITION_TOP
When you specify OSS$_ACL_POSITION_TOP, $SET_SECURITY sets the ACL position to point to the top of the ACL.OSS$_OWNER
When you specify OSS$_OWNER, $SET_SECURITY sets the owner UIC of the selected object to the value in the buffer. The buffer size must be 4 bytes.OSS$_PROTECTION
When you specify OSS$_PROTECTION, $SET_SECURITY sets the selected object's protection code to the value in the buffer. The buffer size must be 2 bytes.
The Set Security service modifies the security characteristics of a protected object. Security characteristics include such information as the protection code, the owner, and the access control list (ACL). The security management services, $SET_SECURITY and $GET_SECURITY, maintain a single master copy of a profile for every protected object in an OpenVMS Cluster system. They also ensure that only one process at a time can modify an object's security profile.When you call $SET_SECURITY, the service performs the following steps:
- It selects the specified protected object.
- It fetches a local copy of the object's security profile, unless the service is operating on an existing context.
- It modifies the local profile.
- It updates the master copy of the profile if the local flag is clear and there was no error.
- It deletes the local copy of the profile and returns if RELCTX is specified or if no context is specified.
There are different ways of identifying which protected object $SET_SECURITY should process:
- Whenever the contxt argument has a nonzero value, $SET_SECURITY uses the context to select the object and ignores the class name, object name, and object handle.
- With some types of objects, such as a file or a device, it is possible to select an object on the basis of its objhan and clsnam values.
- When the clsnam and objnam arguments are provided, $SET_SECURITY uses an object's class name and object name to select the object.
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