gs_name_64 OpenVMS usage:section_name type: character-coded text string access: read only mechanism: by 32- or 64-bit descriptor-fixed-length string descriptor Name of the global section. The gs_name_64 argument is the 32- or 64-bit virtual address of a naturally aligned 32- or 64-bit string descriptor pointing to this name string. ident_64 OpenVMS usage:section_id type: quadword (unsigned) access: read only mechanism: by 32- or 64-bit reference Identification value specifying the version number of a global section. The ident_64 argument is a quadword containing three fields. The ident_64 argument is the 32- or 64-bit virtual address of a naturally aligned quadword that contains the identification value. The first longword specifies the matching criteria in its low- order 2 bits. The valid values, symbolic names by which they can be specified, and their meanings are as follows: Symbolic Value Name Match Criteria 0 SEC$K_MATALL Match all versions of the section. 1 SEC$K_MATEQU Match only if major and minor identifications match. 2 SEC$K_MATLEQ Match if the major identifications are equal and the minor identification of the mapper is less than or equal to the minor identification of the global section. When a section is mapped at creation time, the match control field is ignored. If you specify the ident_64 argument as 0, the version number and match control fields default to 0. The version number is in the second longword. The version number contains two fields: a minor identification in the low-order 24 bits and a major identification in the high-order 8 bits. You can assign values for these fields by installation convention to differentiate versions of global sections. If no version number is specified when a section is created, processes that specify a version number when mapping cannot access the global section. prot OpenVMS usage:file_protection type: longword (unsigned) access: read only mechanism: by value Protection to be applied to the global demand-zero section. The mask contains four 4-bit fields. Bits are read from right to left in each field. Refer to the HP OpenVMS System Services Reference Manual to view the diagram depicting the mask. Cleared bits indicate that read, write, execute, and delete access, in that order, are granted to the particular category of user. Only read, write, and execute access are meaningful for section protection. Delete access bits are ignored. Read access also grants execute access for those situations where execute access applies. If zero is specified, read access and write access are granted to all users. length_64 OpenVMS usage:byte count type: quadword (unsigned) access: read only mechanism: by value Length, in bytes, of the global demand-zero section to be created. The length_64 must be specified as a multiple of the CPU-specific page size. A length of 0 cannot be specified. NOTE Creating a memory-resident global section with shared page table does not imply that the global section must have an even multiple of CPU-specific page table pages. The global section might not fully use the last page table page. region_id_64 OpenVMS usage:region identifier type: quadword (unsigned) access: read only mechanism: by 32- or 64-bit reference The region ID associated with the region to map the global page file section. The file VADEF.H in SYS$STARLET_C.TLB and the $VADEF macro in STARLET.MLB define a symbolic name for each of the three default regions in P0, P1, and P2 space. The following region IDs are defined: Symbol Region VA$C_P0 Program region VA$C_P1 Control region VA$C_P2 64-bit program region Other region IDs, as returned by the $CREATE_REGION_64 service, can be specified. section_offset_64 OpenVMS usage:byte offset type: quadword (unsigned) access: read only mechanism: by value Offset into the global section to start mapping into the process's virtual address space. The offset specified must be a multiple of a CPU-specific page size. If a shared page table region is specified by the region_id_ 64 argument, section_offset_64 must be an even multiple of the larger of the number of bytes that can be mapped by a CPU- specific page. For Integrity server systems, the alignment of section offsets must also be an integer multiple of the page size used to map VA space at this offset. HP recommends that you avoid any partial mapping of memory- resident sections when you use shared page tables on Integrity server systems. If you cannot avoid this, set bit 4 in the system parameter MMG_CTLFLAGS to limit the effective page size to the number of bytes that can be mapped by a page. acmode OpenVMS usage:access_mode type: longword (unsigned) access: read only mechanism: by value Access mode that is to be the owner of the pages created during the mapping. This access mode is also the read access mode and the write access mode. The acmode argument is a longword containing the access mode. If the memory-resident global section is created with shared page tables, this is the access mode that is stored in the owner, read, and write fields of the corresponding shared page table entries (PTEs). The $PSLDEF macro in STARLET.MLB and the file PSLDEF.H in SYS$STARLET_C.TLB define the following symbols and their values for the four access modes: Value Symbolic Name Access Mode 0 PSL$C_KERNEL Kernel 1 PSL$C_EXEC Executive 2 PSL$C_SUPER Supervisor 3 PSL$C_USER User The most privileged access mode used is the access mode of the caller. The calling process can delete pages only if those pages are owned by an access mode equal to or less privileged than the access mode of the calling process. Address space cannot be created within a region that has a create mode associated with it that is more privileged than the caller's mode. The condition value SS$_IVACMODE is returned if the caller is less privileged than the create mode for the region. flags OpenVMS usage:mask_longword type: longword (unsigned) access: read only mechanism: by value Flag mask specifying the type of the global section to be created as well as its characteristics. The flags argument is a longword bit vector in which each bit corresponds to a flag. The $SECDEF macro and the SECDEF.H file define a symbolic name for each flag. You construct the flags argument by performing a logical OR operation on the symbol names for all desired flags. The following table describes each flag that is valid for the $CRMPSC_GDZRO_64 service: Flag Description SEC$M_DZRO Pages are demand-zero pages. By default, this flag is always present in this service and cannot be disabled. SEC$M_EXPREG Pages are mapped into the first available space at the current end of the specified region. If the /ALLOCATE qualifier was specified when the global section was registered in the Reserved Memory Registry, virtually aligned addresses after the first available space are chosen for the mapping. SEC$M_GBL Pages form a global section. By default, this flag is always present in this service and cannot be disabled. SEC$M_NO_ Pages cannot overmap existing address space. OVERMAP SEC$M_PERM Global section is permanent. SEC$M_RAD_ When set, the argument rad_mask is used as a mask HINT of RADs from which to allocate memory. See the rad_ mask argument description for more information. SEC$M_READ_ Create shared table pages for the section that ONLY_SHPT allow read access only. SEC$M_SHMGS Create a shared-memory global section. SEC$M_SYSGBL Pages form a system global section. By default, pages form a group global section. SEC$M_MRES Pages form a memory-resident section. By default, this page is always present in this service and cannot be disabled. SEC$M_WRT Pages form a read/write section. By default, this flag is always present in this service and cannot be disabled. All other bits in the flags argument are reserved for future use by HP and should be specified as 0. The condition value SS$_IVSECFLG is returned if any undefined bits are set or if an invalid combination of flags is set. return_va_64 OpenVMS usage:address type: quadword address access: write only mechanism: by 32- or 64-bit reference The lowest process virtual address into which the global demand- zero section was mapped. The return_va_64 argument is the 32- or 64-bit virtual address of a naturally aligned quadword into which the service returns the virtual address. If a shared page table region is specified by the region_id_64 argument and the SEC$M_EXPREG flag is set, the returned virtual address is aligned to a CPU-specific page table page boundary. return_length_64 OpenVMS usage:byte count type: quadword (unsigned) access: write only mechanism: by 32- or 64-bit reference The 32- or 64-bit virtual address of a naturally aligned quadword into which the service returns the length of the virtual address range mapped in bytes. start_va_64 OpenVMS usage:address type: quadword address access: read only mechanism: by value The starting virtual address to map the memory-resident global section. The specified virtual address must be a CPU-specific page aligned address. If the flag SEC$M_EXPREG is specified, the start_va_64 argument must not be specified or must be specified as 0. If SEC$M_EXPREG is set and the start_va_64 argument is nonzero, the condition value SS$_IVSECFLG is returned. If SEC$M_EXPREG is clear, start_va_64 is nonzero, and a shared page table region is specified, the specified starting address must be aligned to a natural page table page boundary; otherwise, the condition value SS$_VA_NOTPAGALGN is returned. If the /ALLOCATE qualifier was specified when the memory-resident global section was registered in the Reserved Memory Registry and start_va_64 is aligned to a multiple of CPU-specific pages appropriate for taking advantage of granularity hints then granularity hints are used to map to the global section: o On Alpha systems, granularity hints mean multiples of pages, regardless of page size. The multiples 8, 64, and 512 pages are architected. o On Integrity server systems, OpenVMS initially supports page sizes of 64KB, 256KB, and 4MB instead of granularity hints. Additional pages sizes will be supported in the future. If the flag VA$M_SHARED_PTS is set and this argument is specified, the specified starting address must be aligned to the larger of a natural page table boundary or to the largest possible page size used to map the section. If the alignment is less than a page table boundary, the $CREATE_REGION_64 service returns an error. If the alignment is less than the largest page size used in the section, an error might be returned when you attempt to map the section. If you do not specify a starting address, OpenVMS automatically ensures correct alignment. map_length_64 OpenVMS usage:byte count type: quadword (unsigned) access: read only mechanism: by value Length of the memory-resident global section to be mapped. The length specified must be a multiple of CPU-specific pages. If this argument is not specified or is specified as zero, the global file section is mapped up to and including the last page in that section. If a shared page table region is specified by the region_id_64 argument, map_length_64 must be an even multiple of the number of bytes that can be mapped by a CPU-specific page table page or must include the last page within the global section. reserved_length_64 OpenVMS usage:byte count type: quadword (unsigned) access: write only mechanism: 32- or 64-bit reference Length, in bytes, of the global section as currently registered in the Reserved Memory Registry. The reserved_length_64 argument is the 32- or 64-bit virtual address of a naturally aligned quadword into which the service returns the reserved length. If reserved_length_64 is not specified or is specified as 0, no reserved length is returned to the caller. If the memory-resident global section is not registered, reserved_length_64 is written with the value 0. rad_mask OpenVMS usage:mask_quadword type: quadword (unsigned) access: read only mechanism: by value Use the rad_mask argument to specify from which RADs to allocate memory. Currently only one bit may be set. The specified RAD must contain memory. This argument is only a hint. Memory may be obtained from other RADs if no free memory is available at the time of allocation. The rad_mask argument is considered only if the SEC$M_RAD_HINT flag is specified. Otherwise, this argument is ignored. On a system that does not support resource affinity domains (RADs), specifying 1 for the rad_mask argument is allowed. RAD is supported on AlphaServer GS series systems and starting from OpenVMS Version 8.4, support is extended to NUMA capable Integrity servers.