|
Programming Interface Information:
This information is NOT intended to be used as Programming Interfaces of z/VM. |
SEG64
Control Block Contents
SEG64 DSECT
Cross Reference (Contains links to field and bit definitions)
SEG64 Control Block Content
SEG64 DSECT
Hex Dec Type/Val Lng Label (dup) Comments
---- ---- --------- ---- -------------- --------
0000 0 Structure SEG64 SEGMENT TABLE ENTRY
00FFFFFF SEGGPTMH X'FFFFFFFF' Isolate page-table
origin - High
00FFF800 SEGGPTML X'FFFFF800' Isolate page-table
origin - Low
64-bit mask X'FFFFFFFF80000000'
00FFFFFF SEGG2GMH X'FFFFFFFF' Isolate STE bits
which must be zero in a <2G
ESAME STE - High
.... .... SEGG2GML X'80000000' Isolate STE bits
which must be zero in a <2G
ESAME STE - Low
64-bit mask X'0000000000000200' 32-bit high X'00000000'
00000200 SEGGPROM X'00000200' Isolate segment page
protect bit
64-bit mask X'0000000000000020' 32-bit high X'00000000'
..1. .... SEGGINVM X'00000020' Isolate invalid bit
64-bit mask X'0000000000000010' 32-bit high X'00000000'
...1 .... SEGGCOMM X'00000010' Isolate
common-segment bit
0000 0 Dbl-Word 8 SEGGENTR ESAME format segment table entry
00000008 SEGGLEN *-SEGGENTR Length of one ESAME
format segment table entry
0008 8 Dbl-Word 8 SEGGNEXT (0) Next segment table entry
0000 0 Signed 4 SEG64W0 Word 0 of ESAME STE Bits 0-31 of
ESAME PTO
0004 4 Signed 4 SEG64W1 Word 1 of ESAME STE
0004 4 Bitstring 1 * (2) Bits 32-47 of ESAME PTO
0006 6 Bitstring 1 SEGGSTA2 Bits 48-52 of ESAME PTO, plus the
following three bits:
.... ..1. SEGGPROT X'02' Entire segment is page
protected
0007 7 Bitstring 1 SEGGSTAT Segment Table Entry Status
1... .... SEGGWAIT X'80' Segment has translation
requests waiting. SEGINVAL must
be = 1. This bit is a
non-architected . software
definition.
.1.. .... SEGGTRAN X'40' Segment is being translated
This bit is used by software to
serialize segment translation.
SEGINVAL must be = 1. This bit is
a non-architected . software
definition. Note that TMLL is
used to test SEGGINVL and
SEGGNULL at the same time. This
creates a dependency on SEGGINVL
being to the left of and in the
same halfword as SEGGNULL.
..1. .... SEGGINVL X'20' Segment Table Entry is
invalid Bits 0-52 of the Segment
Table entry do NOT contain a
valid Page-Table Origin
...1 .... SEGGCOMN X'10' Common segment bit
.... 11.. SEGGTTBT X'0C' Table Type bits - must be
b'00'
.... ..1. SEGGXSTR X'02' Used by CP to indicate that
a PGMBK that resides on XSTORE
supports pages that also reside
on XSTORE. This bit is a
non-architected . software
definition.
.... ...1 SEGGNULL X'01' Segment cannot be allocated
for guest storage, it is not
addressable by the user. SEGGINVL
must be = 1. This bit is a
non-architected . software
definition.
Note that unlike the ESA/390 segment table entry, the ESAME segment
table entry contains no page table length information. In ESAME mode,
all page tables represent a full megabyte of virtual storage (256 page
table entries).
00000014 SEGGSHFT 20 Bits to shift by to convert
between segment number and
virtual address.
00000800 SEGGPTUN 2048 Number of bytes in a
page-table. In ESAME, all page
tables are "full" page tables
containing 256 8 byte entries,
representing 1M of virtual
storage.
0000000B SEGGPTUS 11 Number of bits to shift left
in order to multiply by SEGGPTUN.
00000009 SEGGPXDS 12-3 Bits to shift to convert
between an isolated page index
and the displacement into the
page table of the applicable 8
byte ESAME PTE.
00000008 SEGGPTRM 8 Bits to shift to determine if
an invalid STE contains a PTRM
virtual address.
FUNCTION : The segment table describes a virtual address space. A
segment table is made up of contiguous segment table entries. Segment
tables must begin on 4K page boundaries, and must be of integral
multiples of the minimum segment table size, 64 bytes for ESA/390 and
1024 bytes for ESAME.
For guest primary address spaces of 512MB or less, or for non-primary
virtual address spaces of 512MB or less, the segment table is allocated
either as a seperate page of storage or out of the low addresses of a
GUESTPERM type VMDBK free storage frame.
For non-guest primary address spaces, such as VM data spaces and system
address spaces, if the address space is 512MB or smaller, the segment
table is always allocated either from a seperate page of storage or out
of the low addresses of a GUESTPERM type VMDBK free storage frame.
When a virtual address space is defined greater than 512MB in size, up
to four contiguous pages are allocated.
The SYSTEM virtual address space is always defined to be 2048MB in size
and its segment table is always allocated as four contiguous frames of
storage at system initialization.
The format of the segment table entry is ARCHITECTED and cannot be
changed in any way which violates the architecture.
Located by : ASTSTD field of HCPASTE (ESA/390) ASTASCE field of HCPASTE
(ESAME) CONTROL REGISTER 1 CONTROL REGISTER 7 PGMSEGTE field of the
associated PGMBK (if any) VMDPSTD field of HCPVMDBK (ESA/390) VMDPASCE
field of HCPVMDBK (ESAME) VMDPXSOL field of HCPVMDBK for shadow tables
Created by : HCPBVMBK when a VMDBK is built HCPFTUSG when an FTC
address space is built HCPSEGAS when a normal segment table is built
HCPWLGET when a shadow segment table is built For guest primary address
space addressability less than or equal to 32 MB, the segment table
created by HCPBVM (imbedded in the beginning of the VMDBK) which was
created during LOGON processing is used. HCPBVM always builds this
segment table regardless of the guest primary virtual address space
storage size, but it is only used if the actual addressability needed
is 32MB or less.
For guest primary address space storage sizes from 33 Megabytes to 1024
MB, and for all other address spaces less than or equal to 1024 MB, the
segment table is allocated either as a seperate page or from the low
addresses of a GUESTPERM type VMDBK free storage page.
For all address spaces from 1024 MB to 2048 MB in size, two contiguous
pages are allocated to contain the segment table. If there is enough
unused storage in the secong page past the end of the segment table,
the second page may be used for GUESTPERM type VMDBK free storage (with
the low addresses allocated for use as the segment table).
Deleted by : HCPSTKFG when a VMDBK is released HCPSEGRS when a normal
segment table is released HCPWLBRE when a shadow segment table is
released
The segment table in guest primary VMDBKs is not deleted until the
VMDBK itself is deleted (after the guest is logged off). If the guest
primary virtual storage size at the time of logoff is 32MB or less,
this is the actual segment table. Normal segment tables allocated
outside the VMDBK are released whenever the address space is destroyed
or reset, and may be released when an address space is resized due to
saved segment imbed/unimbed processing.
Shadow segment tables are deleted when the owning RGuest base VMDBK is
destroyed.
SEG64 Storage Layout
*** SEG64 - SEGMENT TABLE ENTRY
*
* +-------------------------------------------------------+
* 0 | SEGGENTR |
* +-------------------------------------------------------+
*
*** SEG64 - SEGMENT TABLE ENTRY
*** Overlay for SEGGENTR in SEG64
*
* +---------------------------+---------------------------+
* 0 | SEG64W0 | SEG64W1 |
* +---------------------------+---------------------------+
* 8
*
*** Overlay for SEGGENTR in SEG64
*** Overlay for SEG64W1 in SEG64
*
* +-------------+------+------+
* 0 ... 4 |/////////////|:GSTA2|:GSTAT|
* +-------------+------+------+
* 8
*
*** Overlay for SEG64W1 in SEG64
SEG64 Cross Reference
Symbol Dspl Value -------------- ---- ----- SEGGCOMM 0000 10 SEGGCOMN 0007 10 SEGGENTR 0000 SEGGINVL 0007 20 SEGGINVM 0000 20 SEGGLEN 0000 00000008 SEGGNEXT 0008 SEGGNULL 0007 01 SEGGPROM 0000 00000200 SEGGPROT 0006 02 SEGGPTMH 0000 00FFFFFF SEGGPTML 0000 00FFF800 SEGGPTRM 0007 00000008 SEGGPTUN 0007 00000800 SEGGPTUS 0007 0000000B SEGGPXDS 0007 00000009 SEGGSHFT 0007 00000014 SEGGSTAT 0007 SEGGSTA2 0006 SEGGTRAN 0007 40 SEGGTTBT 0007 0C SEGGWAIT 0007 80 SEGGXSTR 0007 02 SEGG2GMH 0000 00FFFFFF SEGG2GML 0000 00 SEG64W0 0000 SEG64W1 0004
Copyright IBM Corporation, 1990, 2002