mirror of
https://github.com/openssl/openssl.git
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bff1567623
don't include the static engine entry points in libcrypto.exe.
355 lines
11 KiB
Plaintext
355 lines
11 KiB
Plaintext
$! MKSHARED.COM -- script to created shareable images on VMS
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$!
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$! No command line parameters. This should be run at the start of the source
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$! tree (the same directory where one finds INSTALL.VMS).
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$!
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$! Input: [.UTIL]LIBEAY.NUM,[.AXP.EXE.CRYPTO]LIBCRYPTO.OLB
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$! [.UTIL]SSLEAY.NUM,[.AXP.EXE.SSL]LIBSSL.OLB
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$! Output: [.AXP.EXE.CRYPTO]LIBCRYPTO.OPT,.MAP,.EXE
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$! [.AXP.EXE.SSL]LIBSSL.OPT,.MAP,.EXE
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$!
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$! So far, tests have only been made on VMS for Alpha. VAX will come in time.
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$! ===========================================================================
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$
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$! ----- Prepare info for processing: version number and file info
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$ gosub read_version_info
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$ if libver .eqs. ""
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$ then
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$ write sys$error "ERROR: Couldn't find any library version info..."
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$ exit
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$ endif
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$
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$ if f$getsyi("CPU") .ge. 128
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$ then
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$ libid = "Crypto"
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$ libnum = "[.UTIL]LIBEAY.NUM"
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$ libdir = "[.AXP.EXE.CRYPTO]"
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$ libolb = "''libdir'LIBCRYPTO.OLB"
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$ libopt = "''libdir'LIBCRYPTO.OPT"
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$ libmap = "''libdir'LIBCRYPTO.MAP"
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$ libgoal= "''libdir'LIBCRYPTO.EXE"
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$ libref = ""
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$ gosub create_axp_shr
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$ libid = "SSL"
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$ libnum = "[.UTIL]SSLEAY.NUM"
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$ libdir = "[.AXP.EXE.SSL]"
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$ libolb = "''libdir'LIBSSL.OLB"
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$ libopt = "''libdir'LIBSSL.OPT"
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$ libmap = "''libdir'LIBSSL.MAP"
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$ libgoal= "''libdir'LIBSSL.EXE"
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$ libref = "[.AXP.EXE.CRYPTO]LIBCRYPTO.EXE"
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$ gosub create_axp_shr
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$ else
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$ libtit = "CRYPTO_TRANSFER_VECTOR"
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$ libid = "Crypto"
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$ libnum = "[.UTIL]LIBEAY.NUM"
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$ libdir = "[.VAX.EXE.CRYPTO]"
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$ libmar = "''libdir'LIBCRYPTO.MAR"
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$ libolb = "''libdir'LIBCRYPTO.OLB"
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$ libopt = "''libdir'LIBCRYPTO.OPT"
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$ libobj = "''libdir'LIBCRYPTO.OBJ"
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$ libmap = "''libdir'LIBCRYPTO.MAP"
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$ libgoal= "''libdir'LIBCRYPTO.EXE"
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$ libref = ""
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$ libvec = "LIBCRYPTO"
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$ gosub create_vax_shr
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$ libtit = "SSL_TRANSFER_VECTOR"
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$ libid = "SSL"
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$ libnum = "[.UTIL]SSLEAY.NUM"
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$ libdir = "[.VAX.EXE.SSL]"
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$ libmar = "''libdir'LIBSSL.MAR"
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$ libolb = "''libdir'LIBSSL.OLB"
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$ libopt = "''libdir'LIBSSL.OPT"
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$ libobj = "''libdir'LIBSSL.OBJ"
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$ libmap = "''libdir'LIBSSL.MAP"
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$ libgoal= "''libdir'LIBSSL.EXE"
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$ libref = "[.VAX.EXE.CRYPTO]LIBCRYPTO.EXE"
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$ libvec = "LIBSSL"
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$ gosub create_vax_shr
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$ endif
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$ exit
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$
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$! ----- Soubroutines to actually build the shareable libraries
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$! The way things work, there's a main shareable library creator for each
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$! supported architecture, which is called from the main code above.
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$! The creator will define a number of variables to tell the next levels of
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$! subroutines what routines to use to write to the option files, call the
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$! main processor, read_func_num, and when that is done, it will write version
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$! data at the end of the .opt file, close it, and link the library.
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$!
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$! read_func_num reads through a .num file and calls the writer routine for
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$! each line. It's also responsible for checking that order is properly kept
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$! in the .num file, check that each line applies to VMS and the architecture,
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$! and to fill in "holes" with dummy entries.
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$!
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$! The creator routines depend on the following variables:
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$! libnum The name of the .num file to use as input
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$! libolb The name of the object library to build from
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$! libid The identification string of the shareable library
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$! libopt The name of the .opt file to write
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$! libtit The title of the assembler transfer vector file (VAX only)
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$! libmar The name of the assembler transfer vector file (VAX only)
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$! libmap The name of the map file to write
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$! libgoal The name of the shareable library to write
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$! libref The name of a shareable library to link in
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$!
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$! read_func_num depends on the following variables from the creator:
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$! libwriter The name of the writer routine to call for each .num file line
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$! -----
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$
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$! ----- Subroutines for AXP
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$! -----
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$! The creator routine
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$ create_axp_shr:
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$ open/write opt 'libopt'
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$ write opt "identification=""",libid," ",libverstr,""""
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$ write opt libolb,"/lib"
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$ if libref .nes. "" then write opt libref,"/SHARE"
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$ write opt "SYMBOL_VECTOR=(-"
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$ libfirstentry := true
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$ libwrch := opt
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$ libwriter := write_axp_transfer_entry
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$ textcount = 0
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$ gosub read_func_num
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$ write opt ")"
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$ write opt "GSMATCH=",libvmatch,",",libver
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$ close opt
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$ link/map='libmap'/full/share='libgoal' 'libopt'/option
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$ return
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$
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$! The record writer routine
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$ write_axp_transfer_entry:
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$ if libentry .eqs. ".dummy" then return
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$ if info_kind .eqs. "VARIABLE"
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$ then
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$ pr:=DATA
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$ else
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$ pr:=PROCEDURE
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$ endif
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$ textcount_this = f$length(pr) + f$length(libentry) + 5
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$ if textcount + textcount_this .gt. 1024
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$ then
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$ write opt ")"
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$ write opt "SYMBOL_VECTOR=(-"
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$ textcount = 16
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$ libfirstentry := true
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$ endif
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$ if libfirstentry
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$ then
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$ write 'libwrch' " ",libentry,"=",pr," -"
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$ else
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$ write 'libwrch' " ,",libentry,"=",pr," -"
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$ endif
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$ libfirstentry := false
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$ textcount = textcount + textcount_this
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$ return
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$
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$! ----- Subroutines for AXP
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$! -----
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$! The creator routine
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$ create_vax_shr:
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$ open/write mar 'libmar'
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$ type sys$input:/out=mar:
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;
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; Transfer vector for VAX shareable image
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;
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$ write mar " .TITLE ",libtit
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$ write mar " .IDENT /",libid,"/"
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$ type sys$input:/out=mar:
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;
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; Define macro to assist in building transfer vector entries. Each entry
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; should take no more than 8 bytes.
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;
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.MACRO FTRANSFER_ENTRY routine
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.ALIGN QUAD
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.TRANSFER routine
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.MASK routine
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JMP routine+2
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.ENDM FTRANSFER_ENTRY
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;
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; Place entries in own program section.
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;
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$ write mar " .PSECT $$",libvec,",QUAD,PIC,USR,CON,REL,LCL,SHR,EXE,RD,NOWRT"
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$ write mar libvec,"_xfer:"
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$ libwrch := mar
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$ libwriter := write_vax_ftransfer_entry
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$ gosub read_func_num
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$ type sys$input:/out=mar:
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;
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; Allocate extra storage at end of vector to allow for expansion.
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;
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$ write mar " .BLKB 32768-<.-",libvec,"_xfer> ; 64 pages total."
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$! libwriter := write_vax_vtransfer_entry
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$! gosub read_func_num
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$ write mar " .END"
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$ close mar
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$ open/write opt 'libopt'
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$ write opt "identification=""",libid," ",libverstr,""""
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$ write opt libobj
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$ write opt libolb,"/lib"
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$ if libref .nes. "" then write opt libref,"/SHARE"
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$ type sys$input:/out=opt:
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!
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! Ensure transfer vector is at beginning of image
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!
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CLUSTER=FIRST
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$ write opt "COLLECT=FIRST,$$",libvec
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$ write opt "GSMATCH=",libvmatch,",",libver
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$ type sys$input:/out=opt:
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!
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! make psects nonshareable so image can be installed.
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!
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PSECT_ATTR=$CHAR_STRING_CONSTANTS,NOWRT
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$ libwrch := opt
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$ libwriter := write_vax_psect_attr
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$ gosub read_func_num
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$ close opt
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$ macro/obj='libobj' 'libmar'
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$ link/map='libmap'/full/share='libgoal' 'libopt'/option
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$ return
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$
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$! The record writer routine for VAX functions
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$ write_vax_ftransfer_entry:
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$ if info_kind .nes. "FUNCTION" then return
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$ if libentry .eqs ".dummy"
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$ then
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$ write 'libwrch' " .BLKB 8" ! Dummy is zeroes...
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$ else
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$ write 'libwrch' " FTRANSFER_ENTRY ",libentry
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$ endif
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$ return
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$! The record writer routine for VAX variables (should never happen!)
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$ write_vax_psect_attr:
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$ if info_kind .nes. "VARIABLE" then return
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$ if libentry .eqs ".dummy" then return
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$ write 'libwrch' "PSECT_ATTR=",libentry,",NOSHR"
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$ return
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$
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$! ----- Common subroutines
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$! -----
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$! The .num file reader. This one has great responsability.
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$ read_func_num:
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$ open libnum 'libnum'
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$ goto read_nums
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$
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$ read_nums:
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$ libentrynum=0
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$ liblastentry:=false
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$ entrycount=0
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$ loop:
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$ read/end=loop_end/err=loop_end libnum line
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$ entrynum=f$int(f$element(1," ",f$edit(line,"COMPRESS,TRIM")))
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$ entryinfo=f$element(2," ",f$edit(line,"COMPRESS,TRIM"))
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$ curentry=f$element(0," ",f$edit(line,"COMPRESS,TRIM"))
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$ info_exist=f$element(0,":",entryinfo)
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$ info_platforms=","+f$element(1,":",entryinfo)+","
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$ info_kind=f$element(2,":",entryinfo)
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$ info_algorithms=","+f$element(3,":",entryinfo)+","
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$ if info_exist .eqs. "NOEXIST" then goto loop
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$ truesum = 0
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$ falsesum = 0
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$ negatives = 1
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$ plat_i = 0
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$ loop1:
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$ plat_entry = f$element(plat_i,",",info_platforms)
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$ plat_i = plat_i + 1
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$ if plat_entry .eqs. "" then goto loop1
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$ if plat_entry .nes. ","
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$ then
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$ if f$extract(0,1,plat_entry) .nes. "!" then negatives = 0
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$ if f$getsyi("CPU") .lt. 128
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$ then
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$ if plat_entry .eqs. "EXPORT_VAR_AS_FUNCTION" then -
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$ truesum = truesum + 1
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$ if plat_entry .eqs. "!EXPORT_VAR_AS_FUNCTION" then -
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$ falsesum = falsesum + 1
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$ endif
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$ if plat_entry .eqs. "VMS" then truesum = truesum + 1
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$ if plat_entry .eqs. "!VMS" then falsesum = falsesum + 1
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$ goto loop1
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$ endif
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$ endloop1:
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$!DEBUG!$ if info_platforms - "EXPORT_VAR_AS_FUNCTION" .nes. info_platforms
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$!DEBUG!$ then
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$!DEBUG!$ write sys$output line
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$!DEBUG!$ write sys$output " truesum = ",truesum,-
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$!DEBUG! ", negatives = ",negatives,", falsesum = ",falsesum
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$!DEBUG!$ endif
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$ if falsesum .ne. 0 then goto loop
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$ if truesum+negatives .eq. 0 then goto loop
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$ alg_i = 0
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$ loop2:
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$ alg_entry = f$element(alg_i,",",info_algorithms)
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$ alg_i = alg_i + 1
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$ if alg_entry .eqs. "" then goto loop2
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$ if alg_entry .nes. ","
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$ then
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$ if alg_entry .eqs. "KRB5" then goto loop ! Special for now
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$ if alg_entry .eqs. "STATIC_ENGINE" then goto loop ! Special for now
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$ if f$trnlnm("OPENSSL_NO_"+alg_entry) .nes. "" then goto loop
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$ goto loop2
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$ endif
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$ endloop2:
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$ if info_platforms - "EXPORT_VAR_AS_FUNCTION" .nes. info_platforms
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$ then
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$!DEBUG!$ write sys$output curentry," ; ",entrynum," ; ",entryinfo
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$ endif
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$ redo:
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$ next:=loop
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$ tolibentry=curentry
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$ if libentrynum .ne. entrynum
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$ then
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$ entrycount=entrycount+1
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$ if entrycount .lt. entrynum
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$ then
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$!DEBUG!$ write sys$output "Info: entrycount: ''entrycount', entrynum: ''entrynum' => 0"
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$ tolibentry=".dummy"
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$ next:=redo
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$ endif
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$ if entrycount .gt. entrynum
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$ then
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$ write sys$error "Decreasing library entry numbers! Can't continue"
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$ write sys$error """",line,""""
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$ close libnum
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$ return
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$ endif
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$ libentry=tolibentry
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$!DEBUG!$ write sys$output entrycount," ",libentry," ",entryinfo
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$ if libentry .nes. "" .and. libwriter .nes. "" then gosub 'libwriter'
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$ else
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$ write sys$error "Info: ""''curentry'"" is an alias for ""''libentry'"". Overriding..."
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$ endif
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$ libentrynum=entrycount
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$ goto 'next'
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$ loop_end:
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$ close libnum
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$ return
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$
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$! The version number reader
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$ read_version_info:
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$ libver = ""
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$ open/read vf [.CRYPTO]OPENSSLV.H
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$ loop_rvi:
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$ read/err=endloop_rvi/end=endloop_rvi vf rvi_line
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$ if rvi_line - "SHLIB_VERSION_NUMBER """ .eqs. rvi_line then -
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goto loop_rvi
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$ libverstr = f$element(1,"""",rvi_line)
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$ libvmajor = f$element(0,".",libverstr)
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$ libvminor = f$element(1,".",libverstr)
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$ libvedit = f$element(2,".",libverstr)
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$ libvpatch = f$cvui(0,8,f$extract(1,1,libvedit)+"@")-f$cvui(0,8,"@")
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$ libvedit = f$extract(0,1,libvedit)
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$ libver = f$string(f$int(libvmajor)*100)+","+-
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f$string(f$int(libvminor)*100+f$int(libvedit)*10+f$int(libvpatch))
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$ if libvmajor .eqs. "0"
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$ then
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$ libvmatch = "EQUAL"
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$ else
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$ ! Starting with the 1.0 release, backward compatibility should be
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$ ! kept, so switch over to the following
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$ libvmatch = "LEQUAL"
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$ endif
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$ endloop_rvi:
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$ close vf
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$ return
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