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Import OpenSSL 1.1.0f

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This commit is contained in:
Steve Dower
2017-09-07 16:27:43 -07:00
committed by Steve Dower
parent ccd3ab4aff
commit f4b81cb7c9
3340 changed files with 325158 additions and 557542 deletions
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293
Configurations/00-base-templates.conf Normal file
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# -*- Mode: perl -*-
%targets=(
DEFAULTS => {
template => 1,
cflags => "",
defines => [],
thread_scheme => "(unknown)", # Assume we don't know
thread_defines => [],
apps_aux_src => "",
cpuid_asm_src => "mem_clr.c",
uplink_aux_src => "",
bn_asm_src => "bn_asm.c",
ec_asm_src => "",
des_asm_src => "des_enc.c fcrypt_b.c",
aes_asm_src => "aes_core.c aes_cbc.c",
bf_asm_src => "bf_enc.c",
md5_asm_src => "",
cast_asm_src => "c_enc.c",
rc4_asm_src => "rc4_enc.c rc4_skey.c",
rmd160_asm_src => "",
rc5_asm_src => "rc5_enc.c",
wp_asm_src => "wp_block.c",
cmll_asm_src => "camellia.c cmll_misc.c cmll_cbc.c",
modes_asm_src => "",
padlock_asm_src => "",
chacha_asm_src => "chacha_enc.c",
poly1305_asm_src => "",
unistd => "<unistd.h>",
shared_target => "",
shared_cflag => "",
shared_defines => [],
shared_ldflag => "",
shared_rcflag => "",
shared_extension => "",
build_scheme => [ "unified", "unix" ],
build_file => "Makefile",
},
BASE_common => {
template => 1,
defines =>
sub {
my @defs = ();
push @defs, "ZLIB" unless $disabled{zlib};
push @defs, "ZLIB_SHARED" unless $disabled{"zlib-dynamic"};
return [ @defs ];
},
},
BASE_unix => {
inherit_from => [ "BASE_common" ],
template => 1,
ex_libs =>
sub {
unless ($disabled{zlib}) {
if (defined($disabled{"zlib-dynamic"})) {
if (defined($withargs{zlib_lib})) {
return "-L".$withargs{zlib_lib}." -lz";
} else {
return "-lz";
}
}
}
return (); },
build_scheme => [ "unified", "unix" ],
build_file => "Makefile",
},
BASE_Windows => {
inherit_from => [ "BASE_common" ],
template => 1,
ex_libs =>
sub {
unless ($disabled{zlib}) {
if (defined($disabled{"zlib-dynamic"})) {
return $withargs{zlib_lib} // "ZLIB1";
}
}
return ();
},
ld => "link",
lflags => "/nologo",
loutflag => "/out:",
ar => "lib",
arflags => "/nologo",
aroutflag => "/out:",
rc => "rc",
rcoutflag => "/fo",
mt => "mt",
mtflags => "-nologo",
mtinflag => "-manifest ",
mtoutflag => "-outputresource:",
build_file => "makefile",
build_scheme => [ "unified", "windows" ],
},
BASE_VMS => {
inherit_from => [ "BASE_common" ],
template => 1,
build_file => "descrip.mms",
build_scheme => [ "unified", "VMS" ],
},
uplink_common => {
template => 1,
apps_aux_src => add("../ms/applink.c"),
uplink_aux_src => add("../ms/uplink.c"),
defines => add("OPENSSL_USE_APPLINK"),
},
x86_uplink => {
inherit_from => [ "uplink_common" ],
template => 1,
uplink_aux_src => add("uplink-x86.s"),
},
x86_64_uplink => {
inherit_from => [ "uplink_common" ],
template => 1,
uplink_aux_src => add("uplink-x86_64.s"),
},
ia64_uplink => {
inherit_from => [ "uplink_common" ],
template => 1,
uplink_aux_src => add("uplink-ia64.s"),
},
x86_asm => {
template => 1,
cpuid_asm_src => "x86cpuid.s",
bn_asm_src => "bn-586.s co-586.s x86-mont.s x86-gf2m.s",
ec_asm_src => "ecp_nistz256.c ecp_nistz256-x86.s",
des_asm_src => "des-586.s crypt586.s",
aes_asm_src => "aes-586.s vpaes-x86.s aesni-x86.s",
bf_asm_src => "bf-586.s",
md5_asm_src => "md5-586.s",
cast_asm_src => "cast-586.s",
sha1_asm_src => "sha1-586.s sha256-586.s sha512-586.s",
rc4_asm_src => "rc4-586.s",
rmd160_asm_src => "rmd-586.s",
rc5_asm_src => "rc5-586.s",
wp_asm_src => "wp_block.c wp-mmx.s",
cmll_asm_src => "cmll-x86.s",
modes_asm_src => "ghash-x86.s",
padlock_asm_src => "e_padlock-x86.s",
chacha_asm_src => "chacha-x86.s",
poly1305_asm_src=> "poly1305-x86.s",
},
x86_elf_asm => {
template => 1,
inherit_from => [ "x86_asm" ],
perlasm_scheme => "elf"
},
x86_64_asm => {
template => 1,
cpuid_asm_src => "x86_64cpuid.s",
bn_asm_src => "asm/x86_64-gcc.c x86_64-mont.s x86_64-mont5.s x86_64-gf2m.s rsaz_exp.c rsaz-x86_64.s rsaz-avx2.s",
ec_asm_src => "ecp_nistz256.c ecp_nistz256-x86_64.s",
aes_asm_src => "aes-x86_64.s vpaes-x86_64.s bsaes-x86_64.s aesni-x86_64.s aesni-sha1-x86_64.s aesni-sha256-x86_64.s aesni-mb-x86_64.s",
md5_asm_src => "md5-x86_64.s",
sha1_asm_src => "sha1-x86_64.s sha256-x86_64.s sha512-x86_64.s sha1-mb-x86_64.s sha256-mb-x86_64.s",
rc4_asm_src => "rc4-x86_64.s rc4-md5-x86_64.s",
wp_asm_src => "wp-x86_64.s",
cmll_asm_src => "cmll-x86_64.s cmll_misc.c",
modes_asm_src => "ghash-x86_64.s aesni-gcm-x86_64.s",
padlock_asm_src => "e_padlock-x86_64.s",
chacha_asm_src => "chacha-x86_64.s",
poly1305_asm_src=> "poly1305-x86_64.s",
},
ia64_asm => {
template => 1,
cpuid_asm_src => "ia64cpuid.s",
bn_asm_src => "bn-ia64.s ia64-mont.s",
aes_asm_src => "aes_core.c aes_cbc.c aes-ia64.s",
md5_asm_src => "md5-ia64.s",
sha1_asm_src => "sha1-ia64.s sha256-ia64.s sha512-ia64.s",
rc4_asm_src => "rc4-ia64.s rc4_skey.c",
modes_asm_src => "ghash-ia64.s",
perlasm_scheme => "void"
},
sparcv9_asm => {
template => 1,
cpuid_asm_src => "sparcv9cap.c sparccpuid.S",
bn_asm_src => "asm/sparcv8plus.S sparcv9-mont.S sparcv9a-mont.S vis3-mont.S sparct4-mont.S sparcv9-gf2m.S",
ec_asm_src => "ecp_nistz256.c ecp_nistz256-sparcv9.S",
des_asm_src => "des_enc-sparc.S fcrypt_b.c dest4-sparcv9.S",
aes_asm_src => "aes_core.c aes_cbc.c aes-sparcv9.S aest4-sparcv9.S aesfx-sparcv9.S",
md5_asm_src => "md5-sparcv9.S",
sha1_asm_src => "sha1-sparcv9.S sha256-sparcv9.S sha512-sparcv9.S",
cmll_asm_src => "camellia.c cmll_misc.c cmll_cbc.c cmllt4-sparcv9.S",
modes_asm_src => "ghash-sparcv9.S",
poly1305_asm_src=> "poly1305-sparcv9.S",
perlasm_scheme => "void"
},
sparcv8_asm => {
template => 1,
cpuid_asm_src => "",
bn_asm_src => "asm/sparcv8.S",
des_asm_src => "des_enc-sparc.S fcrypt_b.c",
perlasm_scheme => "void"
},
alpha_asm => {
template => 1,
cpuid_asm_src => "alphacpuid.s",
bn_asm_src => "bn_asm.c alpha-mont.S",
sha1_asm_src => "sha1-alpha.S",
modes_asm_src => "ghash-alpha.S",
perlasm_scheme => "void"
},
mips32_asm => {
template => 1,
bn_asm_src => "bn-mips.s mips-mont.s",
aes_asm_src => "aes_cbc.c aes-mips.S",
sha1_asm_src => "sha1-mips.S sha256-mips.S",
},
mips64_asm => {
inherit_from => [ "mips32_asm" ],
template => 1,
sha1_asm_src => add("sha512-mips.S"),
poly1305_asm_src=> "poly1305-mips.S",
},
s390x_asm => {
template => 1,
cpuid_asm_src => "s390xcap.c s390xcpuid.S",
bn_asm_src => "asm/s390x.S s390x-mont.S s390x-gf2m.s",
aes_asm_src => "aes-s390x.S aes-ctr.fake aes-xts.fake",
sha1_asm_src => "sha1-s390x.S sha256-s390x.S sha512-s390x.S",
rc4_asm_src => "rc4-s390x.s",
modes_asm_src => "ghash-s390x.S",
chacha_asm_src => "chacha-s390x.S",
poly1305_asm_src=> "poly1305-s390x.S",
},
armv4_asm => {
template => 1,
cpuid_asm_src => "armcap.c armv4cpuid.S",
bn_asm_src => "bn_asm.c armv4-mont.S armv4-gf2m.S",
ec_asm_src => "ecp_nistz256.c ecp_nistz256-armv4.S",
aes_asm_src => "aes_cbc.c aes-armv4.S bsaes-armv7.S aesv8-armx.S",
sha1_asm_src => "sha1-armv4-large.S sha256-armv4.S sha512-armv4.S",
modes_asm_src => "ghash-armv4.S ghashv8-armx.S",
chacha_asm_src => "chacha-armv4.S",
poly1305_asm_src=> "poly1305-armv4.S",
perlasm_scheme => "void"
},
aarch64_asm => {
template => 1,
cpuid_asm_src => "armcap.c arm64cpuid.S",
ec_asm_src => "ecp_nistz256.c ecp_nistz256-armv8.S",
bn_asm_src => "bn_asm.c armv8-mont.S",
aes_asm_src => "aes_core.c aes_cbc.c aesv8-armx.S vpaes-armv8.S",
sha1_asm_src => "sha1-armv8.S sha256-armv8.S sha512-armv8.S",
modes_asm_src => "ghashv8-armx.S",
chacha_asm_src => "chacha-armv8.S",
poly1305_asm_src=> "poly1305-armv8.S",
},
parisc11_asm => {
template => 1,
cpuid_asm_src => "pariscid.s",
bn_asm_src => "bn_asm.c parisc-mont.s",
aes_asm_src => "aes_core.c aes_cbc.c aes-parisc.s",
sha1_asm_src => "sha1-parisc.s sha256-parisc.s sha512-parisc.s",
rc4_asm_src => "rc4-parisc.s",
modes_asm_src => "ghash-parisc.s",
perlasm_scheme => "32"
},
parisc20_64_asm => {
template => 1,
inherit_from => [ "parisc11_asm" ],
perlasm_scheme => "64",
},
ppc64_asm => {
template => 1,
cpuid_asm_src => "ppccpuid.s ppccap.c",
bn_asm_src => "bn-ppc.s ppc-mont.s ppc64-mont.s",
aes_asm_src => "aes_core.c aes_cbc.c aes-ppc.s vpaes-ppc.s aesp8-ppc.s",
sha1_asm_src => "sha1-ppc.s sha256-ppc.s sha512-ppc.s sha256p8-ppc.s sha512p8-ppc.s",
modes_asm_src => "ghashp8-ppc.s",
chacha_asm_src => "chacha-ppc.s",
poly1305_asm_src=> "poly1305-ppc.s poly1305-ppcfp.s",
},
ppc32_asm => {
inherit_from => [ "ppc64_asm" ],
template => 1
},
);

1894
Configurations/10-main.conf Normal file
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15
Configurations/50-djgpp.conf Normal file
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# We can't make any commitment to support the DJGPP platform,
# and rely entirely on the OpenSSL community to help is fine
# tune and test.
%targets = (
"DJGPP" => {
inherit_from => [ asm("x86_asm") ],
cc => "gcc",
cflags => "-I/dev/env/WATT_ROOT/inc -DTERMIOS -DL_ENDIAN -fomit-frame-pointer -O2 -Wall",
sys_id => "MSDOS",
ex_libs => add("-L/dev/env/WATT_ROOT/lib -lwatt"),
bn_ops => "BN_LLONG",
perlasm_scheme => "a.out",
},
);

29
Configurations/50-haiku.conf Normal file
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%targets = (
"haiku-common" => {
template => 1,
cc => "cc",
cflags => add_before(picker(default => "-DL_ENDIAN -Wall -include \$(SRCDIR)/os-dep/haiku.h",
debug => "-g -O0",
release => "-O2"),
threads("-D_REENTRANT")),
sys_id => "HAIKU",
ex_libs => "-lnetwork",
perlasm_scheme => "elf",
thread_scheme => "pthreads",
dso_scheme => "dlfcn",
shared_target => "gnu-shared",
shared_cflag => "-fPIC",
shared_ldflag => "-shared",
shared_extension => ".so.\$(SHLIB_MAJOR).\$(SHLIB_MINOR)",
},
"haiku-x86" => {
inherit_from => [ "haiku-common", asm("x86_elf_asm") ],
cflags => add(picker(release => "-fomit-frame-pointer")),
bn_ops => "BN_LLONG",
},
"haiku-x86_64" => {
inherit_from => [ "haiku-common" ],
cflags => add("-m64"),
bn_ops => "SIXTY_FOUR_BIT_LONG",
},
);

17
Configurations/50-masm.conf Normal file
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# We can't make commitment to supporting Microsoft assembler,
# because it would mean supporting all masm versions. This in
# in turn is because masm is not really an interchangeable option,
# while users tend to have reasons to stick with specific Visual
# Studio versions. It's usually lesser hassle to make it work
# with latest assembler, but tweaking for older versions had
# proven to be daunting task. This is experimental target, for
# production builds stick with [up-to-date version of] nasm.
%targets = (
"VC-WIN64A-masm" => {
inherit_from => [ "VC-WIN64A" ],
as => "ml64",
asflags => "/c /Cp /Cx /Zi",
asoutflag => "/Fo",
},
);

112
Configurations/90-team.conf Normal file
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## -*- mode: perl; -*-
## Build configuration targets for openssl-team members
%targets = (
"purify" => {
cc => "purify gcc",
cflags => "-g -Wall",
thread_scheme => "(unknown)",
ex_libs => add(" ","-lsocket -lnsl"),
},
"debug" => {
cc => "gcc",
cflags => "-DBN_DEBUG -DREF_DEBUG -DCONF_DEBUG -DBN_CTX_DEBUG -DOPENSSL_NO_ASM -ggdb -g2 -Wformat -Wshadow -Wmissing-prototypes -Wmissing-declarations -Werror",
thread_scheme => "(unknown)",
},
"debug-erbridge" => {
inherit_from => [ "x86_64_asm" ],
cc => "gcc",
cflags => combine("$gcc_devteam_warn -DBN_DEBUG -DCONF_DEBUG -m64 -DL_ENDIAN -DTERMIO -g",
threads("-D_REENTRANT")),
ex_libs => add(" ","-ldl"),
bn_ops => "SIXTY_FOUR_BIT_LONG",
thread_scheme => "pthreads",
perlasm_scheme => "elf",
dso_scheme => "dlfcn",
shared_target => "linux-shared",
shared_cflag => "-fPIC",
shared_ldflag => "-m64",
shared_extension => ".so.\$(SHLIB_MAJOR).\$(SHLIB_MINOR)",
multilib => "64",
},
"debug-linux-pentium" => {
inherit_from => [ "x86_elf_asm" ],
cc => "gcc",
cflags => combine("-DBN_DEBUG -DREF_DEBUG -DCONF_DEBUG -DBN_CTX_DEBUG -DL_ENDIAN -g -mcpu=pentium -Wall",
threads("-D_REENTRANT")),
ex_libs => add(" ","-ldl"),
bn_ops => "BN_LLONG",
thread_scheme => "pthreads",
dso_scheme => "dlfcn",
},
"debug-linux-ppro" => {
inherit_from => [ "x86_elf_asm" ],
cc => "gcc",
cflags => combine("-DBN_DEBUG -DREF_DEBUG -DCONF_DEBUG -DBN_CTX_DEBUG -DL_ENDIAN -g -mcpu=pentiumpro -Wall",
threads("-D_REENTRANT")),
ex_libs => add(" ","-ldl"),
bn_ops => "BN_LLONG",
thread_scheme => "pthreads",
dso_scheme => "dlfcn",
},
"debug-linux-ia32-aes" => {
cc => "gcc",
cflags => combine("-DL_ENDIAN -O3 -fomit-frame-pointer -Wall",
threads("-D_REENTRANT")),
ex_libs => add(" ","-ldl"),
bn_ops => "BN_LLONG",
cpuid_asm_src => "x86cpuid.s",
bn_asm_src => "bn-586.s co-586.s x86-mont.s",
des_asm_src => "des-586.s crypt586.s",
aes_asm_src => "aes_x86core.s aes_cbc.s aesni-x86.s",
bf_asm_src => "bf-586.s",
md5_asm_src => "md5-586.s",
sha1_asm_src => "sha1-586.s sha256-586.s sha512-586.s",
cast_asm_src => "cast-586.s",
rc4_asm_src => "rc4-586.s",
rmd160_asm_src => "rmd-586.s",
rc5_asm_src => "rc5-586.s",
wp_asm_src => "wp_block.s wp-mmx.s",
modes_asm_src => "ghash-x86.s",
padlock_asm_src => "e_padlock-x86.s",
thread_scheme => "pthreads",
perlasm_scheme => "elf",
dso_scheme => "dlfcn",
shared_target => "linux-shared",
shared_cflag => "-fPIC",
shared_extension => ".so.\$(SHLIB_MAJOR).\$(SHLIB_MINOR)",
},
"dist" => {
cc => "cc",
cflags => "-O",
thread_scheme => "(unknown)",
},
"debug-test-64-clang" => {
inherit_from => [ "x86_64_asm" ],
cc => "clang",
cflags => combine("$gcc_devteam_warn -Wno-error=overlength-strings -Wno-error=extended-offsetof -Wno-error=language-extension-token -Wno-error=unused-const-variable -Wstrict-overflow -Qunused-arguments -DBN_DEBUG -DCONF_DEBUG -DDEBUG_SAFESTACK -DDEBUG_UNUSED -g3 -O3 -pipe",
threads("${BSDthreads}")),
bn_ops => "SIXTY_FOUR_BIT_LONG",
thread_scheme => "pthreads",
perlasm_scheme => "elf",
dso_scheme => "dlfcn",
shared_target => "bsd-gcc-shared",
shared_cflag => "-fPIC",
shared_extension => ".so.\$(SHLIB_MAJOR).\$(SHLIB_MINOR)",
},
"darwin64-debug-test-64-clang" => {
inherit_from => [ "x86_64_asm" ],
cc => "clang",
cflags => combine("-arch x86_64 -DL_ENDIAN $gcc_devteam_warn -Wno-error=overlength-strings -Wno-error=extended-offsetof -Wno-error=language-extension-token -Wno-error=unused-const-variable -Wstrict-overflow -Qunused-arguments -DBN_DEBUG -DCONF_DEBUG -DDEBUG_SAFESTACK -DDEBUG_UNUSED -g3 -O3 -pipe",
threads("${BSDthreads}")),
sys_id => "MACOSX",
bn_ops => "SIXTY_FOUR_BIT_LONG",
thread_scheme => "pthreads",
perlasm_scheme => "macosx",
dso_scheme => "dlfcn",
shared_target => "darwin-shared",
shared_cflag => "-fPIC -fno-common",
shared_ldflag => "-arch x86_64 -dynamiclib",
shared_extension => ".\$(SHLIB_MAJOR).\$(SHLIB_MINOR).dylib",
},
);

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Configurations/INTERNALS.Configure Normal file
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Configure Internals
===================
[ note: this file uses markdown for formatting ]
Intro
-----
This is a collection of notes that are hopefully of interest to those
who decide to dive into Configure and what it does. This is a living
document and anyone is encouraged to add to it and submit changes.
There's no claim for this document to be complete at any time, but it
will hopefully reach such a point in time.
----------------------------------------------------------------------
Parsing build.info files, processing conditions
-----------------------------------------------
Processing conditions in build.info files is done with the help of a
condition stack that tell if a build.info should be processed or if it
should just be skipped over. The possible states of the stack top are
expressed in the following comment from Configure:
# The top item of this stack has the following values
# -2 positive already run and we found ELSE (following ELSIF should fail)
# -1 positive already run (skip until ENDIF)
# 0 negatives so far (if we're at a condition, check it)
# 1 last was positive (don't skip lines until next ELSE, ELSIF or ENDIF)
# 2 positive ELSE (following ELSIF should fail)
Ground rule is that non-condition lines are skipped over if the
stack top is > 0. Condition lines (IF, ELSIF, ELSE and ENDIF
statements) need to be processed either way to keep track of the skip
stack states, so they are a little more intricate.
Instead of trying to describe in words, here are some example of what
the skip stack should look like after each line is processed:
Example 1:
| IF[1] | 1 | |
| ... whatever ... | | this line is processed |
| IF[1] | 1 1 | |
| ... whatever ... | | this line is processed |
| ELSIF[1] | 1 -1 | |
| ... whatever ... | | this line is skipped over |
| ELSE | 1 -2 | |
| ... whatever ... | | this line is skipped over |
| ENDIF | 1 | |
| ... whatever ... | | this line is processed |
| ELSIF[1] | -1 | |
| ... whatever ... | | this line is skipped over |
| IF[1] | -1 -1 | |
| ... whatever ... | | this line is skipped over |
| ELSIF[1] | -1 -1 | |
| ... whatever ... | | this line is skipped over |
| ELSE | -1 -2 | |
| ... whatever ... | | this line is skipped over |
| ENDIF | -1 | |
| ... whatever ... | | this line is skipped over |
| ENDIF | | |
Example 2:
| IF[0] | 0 | |
| ... whatever ... | | this line is skipped over |
| IF[1] | 0 -1 | |
| ... whatever ... | | this line is skipped over |
| ELSIF[1] | 0 -1 | |
| ... whatever ... | | this line is skipped over |
| ELSE | 0 -2 | |
| ... whatever ... | | this line is skipped over |
| ENDIF | 0 | |
| ... whatever ... | | this line is skipped over |
| ELSIF[1] | 1 | |
| ... whatever ... | | this line is processed |
| IF[1] | 1 1 | |
| ... whatever ... | | this line is processed |
| ELSIF[1] | 1 -1 | |
| ... whatever ... | | this line is skipped over |
| ELSE | 1 -2 | |
| ... whatever ... | | this line is skipped over |
| ENDIF | 1 | |
| ... whatever ... | | this line is processed |
| ENDIF | | |
Example 3:
| IF[0] | 0 | |
| ... whatever ... | | this line is skipped over |
| IF[0] | 0 -1 | |
| ... whatever ... | | this line is skipped over |
| ELSIF[1] | 0 -1 | |
| ... whatever ... | | this line is skipped over |
| ELSE | 0 -2 | |
| ... whatever ... | | this line is skipped over |
| ENDIF | 0 | |
| ... whatever ... | | this line is skipped over |
| ELSIF[1] | 1 | |
| ... whatever ... | | this line is processed |
| IF[0] | 1 0 | |
| ... whatever ... | | this line is skipped over |
| ELSIF[1] | 1 1 | |
| ... whatever ... | | this line is processed |
| ELSE | 1 -2 | |
| ... whatever ... | | this line is skipped over |
| ENDIF | 1 | |
| ... whatever ... | | this line is processed |
| ENDIF | | |
Example 4:
| IF[0] | 0 | |
| ... whatever ... | | this line is skipped over |
| IF[0] | 0 -1 | |
| ... whatever ... | | this line is skipped over |
| ELSIF[0] | 0 -1 | |
| ... whatever ... | | this line is skipped over |
| ELSE | 0 -2 | |
| ... whatever ... | | this line is skipped over |
| ENDIF | 0 | |
| ... whatever ... | | this line is skipped over |
| ELSIF[1] | 1 | |
| ... whatever ... | | this line is processed |
| IF[0] | 1 0 | |
| ... whatever ... | | this line is skipped over |
| ELSIF[0] | 1 0 | |
| ... whatever ... | | this line is skipped over |
| ELSE | 1 2 | |
| ... whatever ... | | this line is processed |
| ENDIF | 1 | |
| ... whatever ... | | this line is processed |
| ENDIF | | |

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Intro
=====
This directory contains a few sets of files that are used for
configuration in diverse ways:
*.conf Target platform configurations, please read
'Configurations of OpenSSL target platforms' for more
information.
*.tmpl Build file templates, please read 'Build-file
programming with the "unified" build system' as well
as 'Build info files' for more information.
*.pm Helper scripts / modules for the main `Configure`
script. See 'Configure helper scripts for more
information.
Configurations of OpenSSL target platforms
==========================================
Target configurations are a collection of facts that we know about
different platforms and their capabilities. We organise them in a
hash table, where each entry represent a specific target.
In each table entry, the following keys are significant:
inherit_from => Other targets to inherit values from.
Explained further below. [1]
template => Set to 1 if this isn't really a platform
target. Instead, this target is a template
upon which other targets can be built.
Explained further below. [1]
sys_id => System identity for systems where that
is difficult to determine automatically.
cc => The compiler command, usually one of "cc",
"gcc" or "clang". This command is normally
also used to link object files and
libraries into the final program.
cflags => Flags that are used at all times when
compiling.
defines => As an alternative, macro definitions may be
present here instead of in `cflags'. If
given here, they MUST be as an array of the
string such as "MACRO=value", or just
"MACRO" for definitions without value.
shared_cflag => Extra compilation flags used when
compiling for shared libraries, typically
something like "-fPIC".
(linking is a complex thing, see [3] below)
ld => Linker command, usually not defined
(meaning the compiler command is used
instead).
(NOTE: this is here for future use, it's
not implemented yet)
lflags => Flags that are used when linking apps.
shared_ldflag => Flags that are used when linking shared
or dynamic libraries.
plib_lflags => Extra linking flags to appear just before
the libraries on the command line.
ex_libs => Extra libraries that are needed when
linking.
ar => The library archive command, the default is
"ar".
(NOTE: this is here for future use, it's
not implemented yet)
arflags => Flags to be used with the library archive
command.
ranlib => The library archive indexing command, the
default is 'ranlib' it it exists.
unistd => An alternative header to the typical
'<unistd.h>'. This is very rarely needed.
shared_extension => File name extension used for shared
libraries.
obj_extension => File name extension used for object files.
On unix, this defaults to ".o" (NOTE: this
is here for future use, it's not
implemented yet)
exe_extension => File name extension used for executable
files. On unix, this defaults to "" (NOTE:
this is here for future use, it's not
implemented yet)
thread_scheme => The type of threads is used on the
configured platform. Currently known
values are "(unknown)", "pthreads",
"uithreads" (a.k.a solaris threads) and
"winthreads". Except for "(unknown)", the
actual value is currently ignored but may
be used in the future. See further notes
below [2].
dso_scheme => The type of dynamic shared objects to build
for. This mostly comes into play with
engines, but can be used for other purposes
as well. Valid values are "DLFCN"
(dlopen() et al), "DLFCN_NO_H" (for systems
that use dlopen() et al but do not have
fcntl.h), "DL" (shl_load() et al), "WIN32"
and "VMS".
perlasm_scheme => The perlasm method used to created the
assembler files used when compiling with
assembler implementations.
shared_target => The shared library building method used.
This is a target found in Makefile.shared.
build_scheme => The scheme used to build up a Makefile.
In its simplest form, the value is a string
with the name of the build scheme.
The value may also take the form of a list
of strings, if the build_scheme is to have
some options. In this case, the first
string in the list is the name of the build
scheme.
Currently recognised build scheme is "unified".
For the "unified" build scheme, this item
*must* be an array with the first being the
word "unified" and the second being a word
to identify the platform family.
multilib => On systems that support having multiple
implementations of a library (typically a
32-bit and a 64-bit variant), this is used
to have the different variants in different
directories.
bn_ops => Building options (was just bignum options in
the earlier history of this option, hence the
name). This is a string of words that describe
algorithms' implementation parameters that
are optimal for the designated target platform,
such as the type of integers used to build up
the bignum, different ways to implement certain
ciphers and so on. To fully comprehend the
meaning, the best is to read the affected
source.
The valid words are:
THIRTY_TWO_BIT bignum limbs are 32 bits,
this is default if no
option is specified, it
works on any supported
system [unless "wider"
limb size is implied in
assembly code];
BN_LLONG bignum limbs are 32 bits,
but 64-bit 'unsigned long
long' is used internally
in calculations;
SIXTY_FOUR_BIT_LONG bignum limbs are 64 bits
and sizeof(long) is 8;
SIXTY_FOUR_BIT bignums limbs are 64 bits,
but execution environment
is ILP32;
RC4_CHAR RC4 key schedule is made
up of 'unsigned char's;
RC4_INT RC4 key schedule is made
up of 'unsigned int's;
EXPORT_VAR_AS_FN for shared libraries,
export vars as
accessor functions.
apps_extra_src => Extra source to build apps/openssl, as
needed by the target.
cpuid_asm_src => assembler implementation of cpuid code as
well as OPENSSL_cleanse().
Default to mem_clr.c
bn_asm_src => Assembler implementation of core bignum
functions.
Defaults to bn_asm.c
ec_asm_src => Assembler implementation of core EC
functions.
des_asm_src => Assembler implementation of core DES
encryption functions.
Defaults to 'des_enc.c fcrypt_b.c'
aes_asm_src => Assembler implementation of core AES
functions.
Defaults to 'aes_core.c aes_cbc.c'
bf_asm_src => Assembler implementation of core BlowFish
functions.
Defaults to 'bf_enc.c'
md5_asm_src => Assembler implementation of core MD5
functions.
sha1_asm_src => Assembler implementation of core SHA1,
functions, and also possibly SHA256 and
SHA512 ones.
cast_asm_src => Assembler implementation of core CAST
functions.
Defaults to 'c_enc.c'
rc4_asm_src => Assembler implementation of core RC4
functions.
Defaults to 'rc4_enc.c rc4_skey.c'
rmd160_asm_src => Assembler implementation of core RMD160
functions.
rc5_asm_src => Assembler implementation of core RC5
functions.
Defaults to 'rc5_enc.c'
wp_asm_src => Assembler implementation of core WHIRLPOOL
functions.
cmll_asm_src => Assembler implementation of core CAMELLIA
functions.
Defaults to 'camellia.c cmll_misc.c cmll_cbc.c'
modes_asm_src => Assembler implementation of cipher modes,
currently the functions gcm_gmult_4bit and
gcm_ghash_4bit.
padlock_asm_src => Assembler implementation of core parts of
the padlock engine. This is mandatory on
any platform where the padlock engine might
actually be built.
[1] as part of the target configuration, one can have a key called
'inherit_from' that indicate what other configurations to inherit
data from. These are resolved recursively.
Inheritance works as a set of default values that can be overridden
by corresponding key values in the inheriting configuration.
Note 1: any configuration table can be used as a template.
Note 2: pure templates have the attribute 'template => 1' and
cannot be used as build targets.
If several configurations are given in the 'inherit_from' array,
the values of same attribute are concatenated with space
separation. With this, it's possible to have several smaller
templates for different configuration aspects that can be combined
into a complete configuration.
instead of a scalar value or an array, a value can be a code block
of the form 'sub { /* your code here */ }'. This code block will
be called with the list of inherited values for that key as
arguments. In fact, the concatenation of strings is really done
by using 'sub { join(" ",@_) }' on the list of inherited values.
An example:
"foo" => {
template => 1,
haha => "ha ha",
hoho => "ho",
ignored => "This should not appear in the end result",
},
"bar" => {
template => 1,
haha => "ah",
hoho => "haho",
hehe => "hehe"
},
"laughter" => {
inherit_from => [ "foo", "bar" ],
hehe => sub { join(" ",(@_,"!!!")) },
ignored => "",
}
The entry for "laughter" will become as follows after processing:
"laughter" => {
haha => "ha ha ah",
hoho => "ho haho",
hehe => "hehe !!!",
ignored => ""
}
[2] OpenSSL is built with threading capabilities unless the user
specifies 'no-threads'. The value of the key 'thread_scheme' may
be "(unknown)", in which case the user MUST give some compilation
flags to Configure.
[3] OpenSSL has three types of things to link from object files or
static libraries:
- shared libraries; that would be libcrypto and libssl.
- shared objects (sometimes called dynamic libraries); that would
be the engines.
- applications; those are apps/openssl and all the test apps.
Very roughly speaking, linking is done like this (words in braces
represent the configuration settings documented at the beginning
of this file):
shared libraries:
{ld} $(CFLAGS) {shared_ldflag} -shared -o libfoo.so \
-Wl,--whole-archive libfoo.a -Wl,--no-whole-archive \
{plib_lflags} -lcrypto {ex_libs}
shared objects:
{ld} $(CFLAGS) {shared_ldflag} -shared -o libeng.so \
blah1.o blah2.o {plib_lflags} -lcrypto {ex_libs}
applications:
{ld} $(CFLAGS) {lflags} -o app \
app1.o utils.o {plib_lflags} -lssl -lcrypto {ex_libs}
Historically, the target configurations came in form of a string with
values separated by colons. This use is deprecated. The string form
looked like this:
"target" => "{cc}:{cflags}:{unistd}:{thread_cflag}:{sys_id}:{lflags}:{bn_ops}:{cpuid_obj}:{bn_obj}:{ec_obj}:{des_obj}:{aes_obj}:{bf_obj}:{md5_obj}:{sha1_obj}:{cast_obj}:{rc4_obj}:{rmd160_obj}:{rc5_obj}:{wp_obj}:{cmll_obj}:{modes_obj}:{padlock_obj}:{perlasm_scheme}:{dso_scheme}:{shared_target}:{shared_cflag}:{shared_ldflag}:{shared_extension}:{ranlib}:{arflags}:{multilib}"
Build info files
================
The build.info files that are spread over the source tree contain the
minimum information needed to build and distribute OpenSSL. It uses a
simple and yet fairly powerful language to determine what needs to be
built, from what sources, and other relationships between files.
For every build.info file, all file references are relative to the
directory of the build.info file for source files, and the
corresponding build directory for built files if the build tree
differs from the source tree.
When processed, every line is processed with the perl module
Text::Template, using the delimiters "{-" and "-}". The hashes
%config and %target are passed to the perl fragments, along with
$sourcedir and $builddir, which are the locations of the source
directory for the current build.info file and the corresponding build
directory, all relative to the top of the build tree.
To begin with, things to be built are declared by setting specific
variables:
PROGRAMS=foo bar
LIBS=libsomething
ENGINES=libeng
SCRIPTS=myhack
EXTRA=file1 file2
Note that the files mentioned for PROGRAMS, LIBS and ENGINES *must* be
without extensions. The build file templates will figure them out.
For each thing to be built, it is then possible to say what sources
they are built from:
PROGRAMS=foo bar
SOURCE[foo]=foo.c common.c
SOURCE[bar]=bar.c extra.c common.c
It's also possible to tell some other dependencies:
DEPEND[foo]=libsomething
DEPEND[libbar]=libsomethingelse
(it could be argued that 'libsomething' and 'libsomethingelse' are
source as well. However, the files given through SOURCE are expected
to be located in the source tree while files given through DEPEND are
expected to be located in the build tree)
For some libraries, we maintain files with public symbols and their
slot in a transfer vector (important on some platforms). It can be
declared like this:
ORDINALS[libcrypto]=crypto
The value is not the name of the file in question, but rather the
argument to util/mkdef.pl that indicates which file to use.
One some platforms, shared libraries come with a name that's different
from their static counterpart. That's declared as follows:
SHARED_NAME[libfoo]=cygfoo-{- $config{shlibver} -}
The example is from Cygwin, which has a required naming convention.
Sometimes, it makes sense to rename an output file, for example a
library:
RENAME[libfoo]=libbar
That lines has "libfoo" get renamed to "libbar". While it makes no
sense at all to just have a rename like that (why not just use
"libbar" everywhere?), it does make sense when it can be used
conditionally. See a little further below for an example.
In some cases, it's desirable to include some source files in the
shared form of a library only:
SHARED_SOURCE[libfoo]=dllmain.c
For any file to be built, it's also possible to tell what extra
include paths the build of their source files should use:
INCLUDE[foo]=include
In some cases, one might want to generate some source files from
others, that's done as follows:
GENERATE[foo.s]=asm/something.pl $(CFLAGS)
GENERATE[bar.s]=asm/bar.S
The value of each GENERATE line is a command line or part of it.
Configure places no rules on the command line, except the the first
item muct be the generator file. It is, however, entirely up to the
build file template to define exactly how those command lines should
be handled, how the output is captured and so on.
Sometimes, the generator file itself depends on other files, for
example if it is a perl script that depends on other perl modules.
This can be expressed using DEPEND like this:
DEPEND[asm/something.pl]=../perlasm/Foo.pm
There may also be cases where the exact file isn't easily specified,
but an inclusion directory still needs to be specified. INCLUDE can
be used in that case:
INCLUDE[asm/something.pl]=../perlasm
NOTE: GENERATE lines are limited to one command only per GENERATE.
As a last resort, it's possible to have raw build file lines, between
BEGINRAW and ENDRAW lines as follows:
BEGINRAW[Makefile(unix)]
haha.h: {- $builddir -}/Makefile
echo "/* haha */" > haha.h
ENDRAW[Makefile(unix)]
The word within square brackets is the build_file configuration item
or the build_file configuration item followed by the second word in the
build_scheme configuration item for the configured target within
parenthesis as shown above. For example, with the following relevant
configuration items:
build_file => "build.ninja"
build_scheme => [ "unified", "unix" ]
... these lines will be considered:
BEGINRAW[build.ninja]
build haha.h: echo "/* haha */" > haha.h
ENDRAW[build.ninja]
BEGINRAW[build.ninja(unix)]
build hoho.h: echo "/* hoho */" > hoho.h
ENDRAW[build.ninja(unix)]
Should it be needed because the recipes within a RAW section might
clash with those generated by Configure, it's possible to tell it
not to generate them with the use of OVERRIDES, for example:
SOURCE[libfoo]=foo.c bar.c
OVERRIDES=bar.o
BEGINRAW[Makefile(unix)]
bar.o: bar.c
$(CC) $(CFLAGS) -DSPECIAL -c -o $@ $<
ENDRAW[Makefile(unix)]
See the documentation further up for more information on configuration
items.
Finally, you can have some simple conditional use of the build.info
information, looking like this:
IF[1]
something
ELSIF[2]
something other
ELSE
something else
ENDIF
The expression in square brackets is interpreted as a string in perl,
and will be seen as true if perl thinks it is, otherwise false. For
example, the above would have "something" used, since 1 is true.
Together with the use of Text::Template, this can be used as
conditions based on something in the passed variables, for example:
IF[{- $disabled{shared} -}]
LIBS=libcrypto
SOURCE[libcrypto]=...
ELSE
LIBS=libfoo
SOURCE[libfoo]=...
ENDIF
or:
# VMS has a cultural standard where all libraries are prefixed.
# For OpenSSL, the choice is 'ossl_'
IF[{- $config{target} =~ /^vms/ -}]
RENAME[libcrypto]=ossl_libcrypto
RENAME[libssl]=ossl_libssl
ENDIF
Build-file programming with the "unified" build system
======================================================
"Build files" are called "Makefile" on Unix-like operating systems,
"descrip.mms" for MMS on VMS, "makefile" for nmake on Windows, etc.
To use the "unified" build system, the target configuration needs to
set the three items 'build_scheme', 'build_file' and 'build_command'.
In the rest of this section, we will assume that 'build_scheme' is set
to "unified" (see the configurations documentation above for the
details).
For any name given by 'build_file', the "unified" system expects a
template file in Configurations/ named like the build file, with
".tmpl" appended, or in case of possible ambiguity, a combination of
the second 'build_scheme' list item and the 'build_file' name. For
example, if 'build_file' is set to "Makefile", the template could be
Configurations/Makefile.tmpl or Configurations/unix-Makefile.tmpl.
In case both Configurations/unix-Makefile.tmpl and
Configurations/Makefile.tmpl are present, the former takes
precedence.
The build-file template is processed with the perl module
Text::Template, using "{-" and "-}" as delimiters that enclose the
perl code fragments that generate configuration-dependent content.
Those perl fragments have access to all the hash variables from
configdata.pem.
The build-file template is expected to define at least the following
perl functions in a perl code fragment enclosed with "{-" and "-}".
They are all expected to return a string with the lines they produce.
generatesrc - function that produces build file lines to generate
a source file from some input.
It's called like this:
generatesrc(src => "PATH/TO/tobegenerated",
generator => [ "generatingfile", ... ]
generator_incs => [ "INCL/PATH", ... ]
generator_deps => [ "dep1", ... ]
generator => [ "generatingfile", ... ]
incs => [ "INCL/PATH", ... ],
deps => [ "dep1", ... ],
intent => one of "libs", "dso", "bin" );
'src' has the name of the file to be generated.
'generator' is the command or part of command to
generate the file, of which the first item is
expected to be the file to generate from.
generatesrc() is expected to analyse and figure out
exactly how to apply that file and how to capture
the result. 'generator_incs' and 'generator_deps'
are include directories and files that the generator
file itself depends on. 'incs' and 'deps' are
include directories and files that are used if $(CC)
is used as an intermediary step when generating the
end product (the file indicated by 'src'). 'intent'
indicates what the generated file is going to be
used for.
src2obj - function that produces build file lines to build an
object file from source files and associated data.
It's called like this:
src2obj(obj => "PATH/TO/objectfile",
srcs => [ "PATH/TO/sourcefile", ... ],
deps => [ "dep1", ... ],
incs => [ "INCL/PATH", ... ]
intent => one of "lib", "dso", "bin" );
'obj' has the intended object file *without*
extension, src2obj() is expected to add that.
'srcs' has the list of source files to build the
object file, with the first item being the source
file that directly corresponds to the object file.
'deps' is a list of explicit dependencies. 'incs'
is a list of include file directories. Finally,
'intent' indicates what this object file is going
to be used for.
obj2lib - function that produces build file lines to build a
static library file ("libfoo.a" in Unix terms) from
object files.
called like this:
obj2lib(lib => "PATH/TO/libfile",
objs => [ "PATH/TO/objectfile", ... ]);
'lib' has the intended library file name *without*
extension, obj2lib is expected to add that. 'objs'
has the list of object files (also *without*
extension) to build this library.
libobj2shlib - function that produces build file lines to build a
shareable object library file ("libfoo.so" in Unix
terms) from the corresponding static library file
or object files.
called like this:
libobj2shlib(shlib => "PATH/TO/shlibfile",
lib => "PATH/TO/libfile",
objs => [ "PATH/TO/objectfile", ... ],
deps => [ "PATH/TO/otherlibfile", ... ],
ordinals => [ "word", "/PATH/TO/ordfile" ]);
'lib' has the intended library file name *without*
extension, libobj2shlib is expected to add that.
'shlib' has the corresponding shared library name
*without* extension. 'deps' has the list of other
libraries (also *without* extension) this library
needs to be linked with. 'objs' has the list of
object files (also *without* extension) to build
this library. 'ordinals' MAY be present, and when
it is, its value is an array where the word is
"crypto" or "ssl" and the file is one of the ordinal
files util/libeay.num or util/ssleay.num in the
source directory.
This function has a choice; it can use the
corresponding static library as input to make the
shared library, or the list of object files.
obj2dso - function that produces build file lines to build a
dynamic shared object file from object files.
called like this:
obj2dso(lib => "PATH/TO/libfile",
objs => [ "PATH/TO/objectfile", ... ],
deps => [ "PATH/TO/otherlibfile",
... ]);
This is almost the same as libobj2shlib, but the
intent is to build a shareable library that can be
loaded in runtime (a "plugin"...). The differences
are subtle, one of the most visible ones is that the
resulting shareable library is produced from object
files only.
obj2bin - function that produces build file lines to build an
executable file from object files.
called like this:
obj2bin(bin => "PATH/TO/binfile",
objs => [ "PATH/TO/objectfile", ... ],
deps => [ "PATH/TO/libfile", ... ]);
'bin' has the intended executable file name
*without* extension, obj2bin is expected to add
that. 'objs' has the list of object files (also
*without* extension) to build this library. 'deps'
has the list of library files (also *without*
extension) that the programs needs to be linked
with.
in2script - function that produces build file lines to build a
script file from some input.
called like this:
in2script(script => "PATH/TO/scriptfile",
sources => [ "PATH/TO/infile", ... ]);
'script' has the intended script file name.
'sources' has the list of source files to build the
resulting script from.
In all cases, file file paths are relative to the build tree top, and
the build file actions run with the build tree top as current working
directory.
Make sure to end the section with these functions with a string that
you thing is appropriate for the resulting build file. If nothing
else, end it like this:
""; # Make sure no lingering values end up in the Makefile
-}
Configure helper scripts
========================
Configure uses helper scripts in this directory:
Checker scripts
---------------
These scripts are per platform family, to check the integrity of the
tools used for configuration and building. The checker script used is
either {build_platform}-{build_file}-checker.pm or
{build_platform}-checker.pm, where {build_platform} is the second
'build_scheme' list element from the configuration target data, and
{build_file} is 'build_file' from the same target data.
If the check succeeds, the script is expected to end with a non-zero
expression. If the check fails, the script can end with a zero, or
with a `die`.

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Design document for the unified scheme data
===========================================
How are things connected?
-------------------------
The unified scheme takes all its data from the build.info files seen
throughout the source tree. These files hold the minimum information
needed to build end product files from diverse sources. See the
section on build.info files below.
From the information in build.info files, Configure builds up an
information database as a hash table called %unified_info, which is
stored in configdata.pm, found at the top of the build tree (which may
or may not be the same as the source tree).
Configurations/common.tmpl uses the data from %unified_info to
generate the rules for building end product files as well as
intermediary files with the help of a few functions found in the
build-file templates. See the section on build-file templates further
down for more information.
build.info files
----------------
As mentioned earlier, build.info files are meant to hold the minimum
information needed to build output files, and therefore only (with a
few possible exceptions [1]) have information about end products (such
as scripts, library files and programs) and source files (such as C
files, C header files, assembler files, etc). Intermediate files such
as object files are rarely directly referred to in build.info files (and
when they are, it's always with the file name extension .o), they are
inferred by Configure. By the same rule of minimalism, end product
file name extensions (such as .so, .a, .exe, etc) are never mentioned
in build.info. Their file name extensions will be inferred by the
build-file templates, adapted for the platform they are meant for (see
sections on %unified_info and build-file templates further down).
The variables PROGRAMS, LIBS, ENGINES and SCRIPTS are used to declare
end products. There are variants for them with '_NO_INST' as suffix
(PROGRAM_NO_INST etc) to specify end products that shouldn't get
installed.
The variables SOURCE, DEPEND, INCLUDE and ORDINALS are indexed by a
produced file, and their values are the source used to produce that
particular produced file, extra dependencies, include directories
needed, and ordinal files (explained further below.
All their values in all the build.info throughout the source tree are
collected together and form a set of programs, libraries, engines and
scripts to be produced, source files, dependencies, etc etc etc.
Let's have a pretend example, a very limited contraption of OpenSSL,
composed of the program 'apps/openssl', the libraries 'libssl' and
'libcrypto', an engine 'engines/ossltest' and their sources and
dependencies.
# build.info
LIBS=libcrypto libssl
ORDINALS[libcrypto]=crypto
ORDINALS[libssl]=ssl
INCLUDE[libcrypto]=include
INCLUDE[libssl]=include
DEPEND[libssl]=libcrypto
This is the top directory build.info file, and it tells us that two
libraries are to be built, there are some ordinals to be used to
declare what symbols in those libraries are seen as public, the
include directory 'include/' shall be used throughout when building
anything that will end up in each library, and that the library
'libssl' depend on the library 'libcrypto' to function properly.
# apps/build.info
PROGRAMS=openssl
SOURCE[openssl]=openssl.c
INCLUDE[openssl]=.. ../include
DEPEND[openssl]=../libssl
This is the build.info file in 'apps/', one may notice that all file
paths mentioned are relative to the directory the build.info file is
located in. This one tells us that there's a program to be built
called 'apps/openssl' (the file name extension will depend on the
platform and is therefore not mentioned in the build.info file). It's
built from one source file, 'apps/openssl.c', and building it requires
the use of '.' and 'include' include directories (both are declared
from the point of view of the 'apps/' directory), and that the program
depends on the library 'libssl' to function properly.
# crypto/build.info
LIBS=../libcrypto
SOURCE[../libcrypto]=aes.c evp.c cversion.c
DEPEND[cversion.o]=buildinf.h
GENERATE[buildinf.h]=../util/mkbuildinf.pl "$(CC) $(CFLAGS)" "$(PLATFORM)"
DEPEND[buildinf.h]=../Makefile
DEPEND[../util/mkbuildinf.pl]=../util/Foo.pm
This is the build.info file in 'crypto', and it tells us a little more
about what's needed to produce 'libcrypto'. LIBS is used again to
declare that 'libcrypto' is to be produced. This declaration is
really unnecessary as it's already mentioned in the top build.info
file, but can make the info file easier to understand. This is to
show that duplicate information isn't an issue.
This build.info file informs us that 'libcrypto' is built from a few
source files, 'crypto/aes.c', 'crypto/evp.c' and 'crypto/cversion.c'.
It also shows us that building the object file inferred from
'crypto/cversion.c' depends on 'crypto/buildinf.h'. Finally, it
also shows the possibility to declare how some files are generated
using some script, in this case a perl script, and how such scripts
can be declared to depend on other files, in this case a perl module.
Two things are worth an extra note:
'DEPEND[cversion.o]' mentions an object file. DEPEND indexes is the
only location where it's valid to mention them
Lines in 'BEGINRAW'..'ENDRAW' sections must always mention files as
seen from the top directory, no exception.
# ssl/build.info
LIBS=../libssl
SOURCE[../libssl]=tls.c
This is the build.info file in 'ssl/', and it tells us that the
library 'libssl' is built from the source file 'ssl/tls.c'.
# engines/build.info
ENGINES=dasync
SOURCE[dasync]=e_dasync.c
DEPEND[dasync]=../libcrypto
INCLUDE[dasync]=../include
ENGINES_NO_INST=ossltest
SOURCE[ossltest]=e_ossltest.c
DEPEND[ossltest]=../libcrypto
INCLUDE[ossltest]=../include
This is the build.info file in 'engines/', telling us that two engines
called 'engines/dasync' and 'engines/ossltest' shall be built, that
dasync's source is 'engines/e_dasync.c' and ossltest's source is
'engines/e_ossltest.c' and that the include directory 'include/' may
be used when building anything that will be part of these engines.
Also, both engines depend on the library 'libcrypto' to function
properly. Finally, only dasync is being installed, as ossltest is
only for internal testing.
When Configure digests these build.info files, the accumulated
information comes down to this:
LIBS=libcrypto libssl
ORDINALS[libcrypto]=crypto
SOURCE[libcrypto]=crypto/aes.c crypto/evp.c crypto/cversion.c
DEPEND[crypto/cversion.o]=crypto/buildinf.h
INCLUDE[libcrypto]=include
ORDINALS[libssl]=ssl
SOURCE[libssl]=ssl/tls.c
INCLUDE[libssl]=include
DEPEND[libssl]=libcrypto
PROGRAMS=apps/openssl
SOURCE[apps/openssl]=apps/openssl.c
INCLUDE[apps/openssl]=. include
DEPEND[apps/openssl]=libssl
ENGINES=engines/dasync
SOURCE[engines/dasync]=engines/e_dasync.c
DEPEND[engines/dasync]=libcrypto
INCLUDE[engines/dasync]=include
ENGINES_NO_INST=engines/ossltest
SOURCE[engines/ossltest]=engines/e_ossltest.c
DEPEND[engines/ossltest]=libcrypto
INCLUDE[engines/ossltest]=include
GENERATE[crypto/buildinf.h]=util/mkbuildinf.pl "$(CC) $(CFLAGS)" "$(PLATFORM)"
DEPEND[crypto/buildinf.h]=Makefile
DEPEND[util/mkbuildinf.pl]=util/Foo.pm
A few notes worth mentioning:
LIBS may be used to declare routine libraries only.
PROGRAMS may be used to declare programs only.
ENGINES may be used to declare engines only.
The indexes for SOURCE and ORDINALS must only be end product files,
such as libraries, programs or engines. The values of SOURCE
variables must only be source files (possibly generated)
INCLUDE and DEPEND shows a relationship between different files
(usually produced files) or between files and directories, such as a
program depending on a library, or between an object file and some
extra source file.
When Configure processes the build.info files, it will take it as
truth without question, and will therefore perform very few checks.
If the build tree is separate from the source tree, it will assume
that all built files and up in the build directory and that all source
files are to be found in the source tree, if they can be found there.
Configure will assume that source files that can't be found in the
source tree (such as 'crypto/bildinf.h' in the example above) are
generated and will be found in the build tree.
The %unified_info database
--------------------------
The information in all the build.info get digested by Configure and
collected into the %unified_info database, divided into the following
indexes:
depends => a hash table containing 'file' => [ 'dependency' ... ]
pairs. These are directly inferred from the DEPEND
variables in build.info files.
engines => a list of engines. These are directly inferred from
the ENGINES variable in build.info files.
generate => a hash table containing 'file' => [ 'generator' ... ]
pairs. These are directly inferred from the GENERATE
variables in build.info files.
includes => a hash table containing 'file' => [ 'include' ... ]
pairs. These are directly inferred from the INCLUDE
variables in build.info files.
install => a hash table containing 'type' => [ 'file' ... ] pairs.
The types are 'programs', 'libraries', 'engines' and
'scripts', and the array of files list the files of
that type that should be installed.
libraries => a list of libraries. These are directly inferred from
the LIBS variable in build.info files.
ordinals => a hash table containing 'file' => [ 'word', 'ordfile' ]
pairs. 'file' and 'word' are directly inferred from
the ORDINALS variables in build.info files, while the
file 'ofile' comes from internal knowledge in
Configure.
programs => a list of programs. These are directly inferred from
the PROGRAMS variable in build.info files.
rawlines => a list of build-file lines. These are a direct copy of
the BEGINRAW..ENDRAW lines in build.info files. Note:
only the BEGINRAW..ENDRAW section for the current
platform are copied, the rest are ignored.
scripts => a list of scripts. There are directly inferred from
the SCRIPTS variable in build.info files.
sources => a hash table containing 'file' => [ 'sourcefile' ... ]
pairs. These are indirectly inferred from the SOURCE
variables in build.info files. Object files are
mentioned in this hash table, with source files from
SOURCE variables, and AS source files for programs and
libraries.
shared_sources =>
a hash table just like 'sources', but only as source
files (object files) for building shared libraries.
As an example, here is how the build.info files example from the
section above would be digested into a %unified_info table:
our %unified_info = (
"depends" =>
{
"apps/openssl" =>
[
"libssl",
],
"crypto/buildinf.h" =>
[
"Makefile",
],
"crypto/cversion.o" =>
[
"crypto/buildinf.h",
],
"engines/ossltest" =>
[
"libcrypto",
],
"libssl" =>
[
"libcrypto",
],
"util/mkbuildinf.pl" =>
[
"util/Foo.pm",
],
},
"engines" =>
[
"engines/dasync",
"engines/ossltest",
],
"generate" =>
{
"crypto/buildinf.h" =>
[
"util/mkbuildinf.pl",
"\"\$(CC)",
"\$(CFLAGS)\"",
"\"$(PLATFORM)\"",
],
},
"includes" =>
{
"apps/openssl" =>
[
".",
"include",
],
"engines/ossltest" =>
[
"include"
],
"libcrypto" =>
[
"include",
],
"libssl" =>
[
"include",
],
"util/mkbuildinf.pl" =>
[
"util",
],
}
"install" =>
{
"engines" =>
[
"engines/dasync",
],
"libraries" =>
[
"libcrypto",
"libssl",
],
"programs" =>
[
"apps/openssl",
],
},
"libraries" =>
[
"libcrypto",
"libssl",
],
"ordinals" =>
{
"libcrypto" =>
[
"crypto",
"util/libcrypto.num",
],
"libssl" =>
[
"ssl",
"util/libssl.num",
],
},
"programs" =>
[
"apps/openssl",
],
"rawlines" =>
[
],
"sources" =>
{
"apps/openssl" =>
[
"apps/openssl.o",
],
"apps/openssl.o" =>
[
"apps/openssl.c",
],
"crypto/aes.o" =>
[
"crypto/aes.c",
],
"crypto/cversion.o" =>
[
"crypto/cversion.c",
],
"crypto/evp.o" =>
[
"crypto/evp.c",
],
"engines/e_ossltest.o" =>
[
"engines/e_ossltest.c",
],
"engines/ossltest" =>
[
"engines/e_ossltest.o",
],
"libcrypto" =>
[
"crypto/aes.c",
"crypto/cversion.c",
"crypto/evp.c",
],
"libssl" =>
[
"ssl/tls.c",
],
"ssl/tls.o" =>
[
"ssl/tls.c",
],
},
);
As can be seen, everything in %unified_info is fairly simple suggest
of information. Still, it tells us that to build all programs, we
must build 'apps/openssl', and to build the latter, we will need to
build all its sources ('apps/openssl.o' in this case) and all the
other things it depends on (such as 'libssl'). All those dependencies
need to be built as well, using the same logic, so to build 'libssl',
we need to build 'ssl/tls.o' as well as 'libcrypto', and to build the
latter...
Build-file templates
--------------------
Build-file templates are essentially build-files (such as Makefile on
Unix) with perl code fragments mixed in. Those perl code fragment
will generate all the configuration dependent data, including all the
rules needed to build end product files and intermediary files alike.
At a minimum, there must be a perl code fragment that defines a set of
functions that are used to generates specific build-file rules, to
build static libraries from object files, to build shared libraries
from static libraries, to programs from object files and libraries,
etc.
generatesrc - function that produces build file lines to generate
a source file from some input.
It's called like this:
generatesrc(src => "PATH/TO/tobegenerated",
generator => [ "generatingfile", ... ]
generator_incs => [ "INCL/PATH", ... ]
generator_deps => [ "dep1", ... ]
incs => [ "INCL/PATH", ... ],
deps => [ "dep1", ... ],
intent => one of "libs", "dso", "bin" );
'src' has the name of the file to be generated.
'generator' is the command or part of command to
generate the file, of which the first item is
expected to be the file to generate from.
generatesrc() is expected to analyse and figure out
exactly how to apply that file and how to capture
the result. 'generator_incs' and 'generator_deps'
are include directories and files that the generator
file itself depends on. 'incs' and 'deps' are
include directories and files that are used if $(CC)
is used as an intermediary step when generating the
end product (the file indicated by 'src'). 'intent'
indicates what the generated file is going to be
used for.
src2obj - function that produces build file lines to build an
object file from source files and associated data.
It's called like this:
src2obj(obj => "PATH/TO/objectfile",
srcs => [ "PATH/TO/sourcefile", ... ],
deps => [ "dep1", ... ],
incs => [ "INCL/PATH", ... ]
intent => one of "lib", "dso", "bin" );
'obj' has the intended object file *without*
extension, src2obj() is expected to add that.
'srcs' has the list of source files to build the
object file, with the first item being the source
file that directly corresponds to the object file.
'deps' is a list of explicit dependencies. 'incs'
is a list of include file directories. Finally,
'intent' indicates what this object file is going
to be used for.
obj2lib - function that produces build file lines to build a
static library file ("libfoo.a" in Unix terms) from
object files.
called like this:
obj2lib(lib => "PATH/TO/libfile",
objs => [ "PATH/TO/objectfile", ... ]);
'lib' has the intended library file name *without*
extension, obj2lib is expected to add that. 'objs'
has the list of object files (also *without*
extension) to build this library.
libobj2shlib - function that produces build file lines to build a
shareable object library file ("libfoo.so" in Unix
terms) from the corresponding static library file
or object files.
called like this:
libobj2shlib(shlib => "PATH/TO/shlibfile",
lib => "PATH/TO/libfile",
objs => [ "PATH/TO/objectfile", ... ],
deps => [ "PATH/TO/otherlibfile", ... ],
ordinals => [ "word", "/PATH/TO/ordfile" ]);
'lib' has the intended library file name *without*
extension, libobj2shlib is expected to add that.
'shlib' has the corresponding shared library name
*without* extension. 'deps' has the list of other
libraries (also *without* extension) this library
needs to be linked with. 'objs' has the list of
object files (also *without* extension) to build
this library. 'ordinals' MAY be present, and when
it is, its value is an array where the word is
"crypto" or "ssl" and the file is one of the ordinal
files util/libcrypto.num or util/libssl.num in the
source directory.
This function has a choice; it can use the
corresponding static library as input to make the
shared library, or the list of object files.
obj2dynlib - function that produces build file lines to build a
dynamically loadable library file ("libfoo.so" on
Unix) from object files.
called like this:
obj2dynlib(lib => "PATH/TO/libfile",
objs => [ "PATH/TO/objectfile", ... ],
deps => [ "PATH/TO/otherlibfile",
... ]);
This is almost the same as libobj2shlib, but the
intent is to build a shareable library that can be
loaded in runtime (a "plugin"...). The differences
are subtle, one of the most visible ones is that the
resulting shareable library is produced from object
files only.
obj2bin - function that produces build file lines to build an
executable file from object files.
called like this:
obj2bin(bin => "PATH/TO/binfile",
objs => [ "PATH/TO/objectfile", ... ],
deps => [ "PATH/TO/libfile", ... ]);
'bin' has the intended executable file name
*without* extension, obj2bin is expected to add
that. 'objs' has the list of object files (also
*without* extension) to build this library. 'deps'
has the list of library files (also *without*
extension) that the programs needs to be linked
with.
in2script - function that produces build file lines to build a
script file from some input.
called like this:
in2script(script => "PATH/TO/scriptfile",
sources => [ "PATH/TO/infile", ... ]);
'script' has the intended script file name.
'sources' has the list of source files to build the
resulting script from.
Along with the build-file templates is the driving engine
Configurations/common.tmpl, which looks through all the information in
%unified_info and generates all the rulesets to build libraries,
programs and all intermediate files, using the rule generating
functions defined in the build-file template.
As an example with the smaller build.info set we've seen as an
example, producing the rules to build 'libcrypto' would result in the
following calls:
# Note: libobj2shlib will only be called if shared libraries are
# to be produced.
# Note 2: libobj2shlib gets both the name of the static library
# and the names of all the object files that go into it. It's up
# to the implementation to decide which to use as input.
# Note 3: common.tmpl peals off the ".o" extension from all object
# files, as the platform at hand may have a different one.
libobj2shlib(shlib => "libcrypto",
lib => "libcrypto",
objs => [ "crypto/aes", "crypto/evp", "crypto/cversion" ],
deps => [ ]
ordinals => [ "crypto", "util/libcrypto.num" ]);
obj2lib(lib => "libcrypto"
objs => [ "crypto/aes", "crypto/evp", "crypto/cversion" ]);
src2obj(obj => "crypto/aes"
srcs => [ "crypto/aes.c" ],
deps => [ ],
incs => [ "include" ],
intent => "lib");
src2obj(obj => "crypto/evp"
srcs => [ "crypto/evp.c" ],
deps => [ ],
incs => [ "include" ],
intent => "lib");
src2obj(obj => "crypto/cversion"
srcs => [ "crypto/cversion.c" ],
deps => [ "crypto/buildinf.h" ],
incs => [ "include" ],
intent => "lib");
generatesrc(src => "crypto/buildinf.h",
generator => [ "util/mkbuildinf.pl", "\"$(CC)",
"$(CFLAGS)\"", "\"$(PLATFORM)\"" ],
generator_incs => [ "util" ],
generator_deps => [ "util/Foo.pm" ],
incs => [ ],
deps => [ ],
intent => "lib");
The returned strings from all those calls are then concatenated
together and written to the resulting build-file.

231
Configurations/common.tmpl Normal file
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{- # -*- Mode: perl -*-
use File::Basename;
# A cache of objects for which a recipe has already been generated
my %cache;
# resolvedepends and reducedepends work in tandem to make sure
# there are no duplicate dependencies and that they are in the
# right order. This is especially used to sort the list of
# libraries that a build depends on.
sub resolvedepends {
my $thing = shift;
my @listsofar = @_; # to check if we're looping
my @list = @{$unified_info{depends}->{$thing}};
my @newlist = ();
if (scalar @list) {
foreach my $item (@list) {
# It's time to break off when the dependency list starts looping
next if grep { $_ eq $item } @listsofar;
push @newlist, $item, resolvedepends($item, @listsofar, $item);
}
}
@newlist;
}
sub reducedepends {
my @list = @_;
my @newlist = ();
while (@list) {
my $item = shift @list;
push @newlist, $item
unless grep { $item eq $_ } @list;
}
@newlist;
}
# dogenerate is responsible for producing all the recipes that build
# generated source files. It recurses in case a dependency is also a
# generated source file.
sub dogenerate {
my $src = shift;
return "" if $cache{$src};
my $obj = shift;
my $bin = shift;
my %opts = @_;
if ($unified_info{generate}->{$src}) {
die "$src is generated by Configure, should not appear in build file\n"
if ref $unified_info{generate}->{$src} eq "";
my $script = $unified_info{generate}->{$src}->[0];
$OUT .= generatesrc(src => $src,
generator => $unified_info{generate}->{$src},
generator_incs => $unified_info{includes}->{$script},
generator_deps => $unified_info{depends}->{$script},
deps => $unified_info{depends}->{$src},
incs => [ @{$unified_info{includes}->{$bin}},
@{$unified_info{includes}->{$obj}} ],
%opts);
foreach (@{$unified_info{depends}->{$src}}) {
dogenerate($_, $obj, $bin, %opts);
}
}
$cache{$src} = 1;
}
# doobj is responsible for producing all the recipes that build
# object files as well as dependency files.
sub doobj {
my $obj = shift;
return "" if $cache{$obj};
(my $obj_no_o = $obj) =~ s|\.o$||;
my $bin = shift;
my %opts = @_;
if (@{$unified_info{sources}->{$obj}}) {
$OUT .= src2obj(obj => $obj_no_o,
srcs => $unified_info{sources}->{$obj},
deps => $unified_info{depends}->{$obj},
incs => [ @{$unified_info{includes}->{$bin}},
@{$unified_info{includes}->{$obj}} ],
%opts);
foreach ((@{$unified_info{sources}->{$obj}},
@{$unified_info{depends}->{$obj}})) {
dogenerate($_, $obj, $bin, %opts);
}
}
$cache{$obj} = 1;
}
# dolib is responsible for building libraries. It will call
# libobj2shlib is shared libraries are produced, and obj2lib in all
# cases. It also makes sure all object files for the library are
# built.
sub dolib {
my $lib = shift;
return "" if $cache{$lib};
unless ($disabled{shared}) {
my %ordinals =
$unified_info{ordinals}->{$lib}
? (ordinals => $unified_info{ordinals}->{$lib}) : ();
$OUT .= libobj2shlib(shlib => $unified_info{sharednames}->{$lib},
lib => $lib,
objs => [ map { (my $x = $_) =~ s|\.o$||; $x }
(@{$unified_info{sources}->{$lib}},
@{$unified_info{shared_sources}->{$lib}}) ],
deps => [ reducedepends(resolvedepends($lib)) ],
%ordinals);
foreach (@{$unified_info{shared_sources}->{$lib}}) {
doobj($_, $lib, intent => "lib");
}
}
$OUT .= obj2lib(lib => $lib,
objs => [ map { (my $x = $_) =~ s|\.o$||; $x }
@{$unified_info{sources}->{$lib}} ]);
foreach (@{$unified_info{sources}->{$lib}}) {
doobj($_, $lib, intent => "lib");
}
$cache{$lib} = 1;
}
# doengine is responsible for building engines. It will call
# obj2dso, and also makes sure all object files for the library
# are built.
sub doengine {
my $lib = shift;
return "" if $cache{$lib};
$OUT .= obj2dso(lib => $lib,
objs => [ map { (my $x = $_) =~ s|\.o$||; $x }
(@{$unified_info{sources}->{$lib}},
@{$unified_info{shared_sources}->{$lib}}) ],
deps => [ resolvedepends($lib) ]);
foreach ((@{$unified_info{sources}->{$lib}},
@{$unified_info{shared_sources}->{$lib}})) {
doobj($_, $lib, intent => "dso");
}
$cache{$lib} = 1;
}
# dobin is responsible for building programs. It will call obj2bin,
# and also makes sure all object files for the library are built.
sub dobin {
my $bin = shift;
return "" if $cache{$bin};
my $deps = [ reducedepends(resolvedepends($bin)) ];
$OUT .= obj2bin(bin => $bin,
objs => [ map { (my $x = $_) =~ s|\.o$||; $x }
@{$unified_info{sources}->{$bin}} ],
deps => $deps);
foreach (@{$unified_info{sources}->{$bin}}) {
doobj($_, $bin, intent => "bin");
}
$cache{$bin} = 1;
}
# dobin is responsible for building scripts from templates. It will
# call in2script.
sub doscript {
my $script = shift;
return "" if $cache{$script};
$OUT .= in2script(script => $script,
sources => $unified_info{sources}->{$script});
$cache{$script} = 1;
}
sub dodir {
my $dir = shift;
return "" if !exists(&generatedir) or $cache{$dir};
$OUT .= generatedir(dir => $dir,
deps => $unified_info{dirinfo}->{$dir}->{deps},
%{$unified_info{dirinfo}->{$_}->{products}});
$cache{$dir} = 1;
}
# Start with populating the cache with all the overrides
%cache = map { $_ => 1 } @{$unified_info{overrides}};
# For convenience collect information regarding directories where
# files are generated, those generated files and the end product
# they end up in where applicable. Then, add build rules for those
# directories
if (exists &generatedir) {
my %loopinfo = ( "dso" => [ @{$unified_info{engines}} ],
"lib" => [ @{$unified_info{libraries}} ],
"bin" => [ @{$unified_info{programs}} ],
"script" => [ @{$unified_info{scripts}} ] );
foreach my $type (keys %loopinfo) {
foreach my $product (@{$loopinfo{$type}}) {
my %dirs = ();
my $pd = dirname($product);
# We already have a "test" target, and the current directory
# is just silly to make a target for
$dirs{$pd} = 1 unless $pd eq "test" || $pd eq ".";
foreach (@{$unified_info{sources}->{$product}}) {
my $d = dirname($_);
# We don't want to create targets for source directories
# when building out of source
next if ($config{sourcedir} ne $config{builddir}
&& $d =~ m|^\Q$config{sourcedir}\E|);
# We already have a "test" target, and the current directory
# is just silly to make a target for
next if $d eq "test" || $d eq ".";
$dirs{$d} = 1;
push @{$unified_info{dirinfo}->{$d}->{deps}}, $_
if $d ne $pd;
}
foreach (keys %dirs) {
push @{$unified_info{dirinfo}->{$_}->{products}->{$type}},
$product;
}
}
}
}
# Build mandatory generated headers
foreach (@{$unified_info{depends}->{""}}) { dogenerate($_); }
# Build all known libraries, engines, programs and scripts.
# Everything else will be handled as a consequence.
foreach (@{$unified_info{libraries}}) { dolib($_); }
foreach (@{$unified_info{engines}}) { doengine($_); }
foreach (@{$unified_info{programs}}) { dobin($_); }
foreach (@{$unified_info{scripts}}) { doscript($_); }
foreach (sort keys %{$unified_info{dirinfo}}) { dodir($_); }
# Finally, should there be any applicable BEGINRAW/ENDRAW sections,
# they are added here.
$OUT .= $_."\n" foreach @{$unified_info{rawlines}};
-}

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## descrip.mms to build OpenSSL on OpenVMS
##
## {- join("\n## ", @autowarntext) -}
{-
use File::Spec::Functions qw/:DEFAULT abs2rel rel2abs/;
# Our prefix, claimed when speaking with the VSI folks Tuesday
# January 26th 2016
our $osslprefix = 'OSSL$';
(our $osslprefix_q = $osslprefix) =~ s/\$/\\\$/;
our $sover = sprintf "%02d%02d", $config{shlib_major}, $config{shlib_minor};
our $osslver = sprintf "%02d%02d", split(/\./, $config{version});
our $sourcedir = $config{sourcedir};
our $builddir = $config{builddir};
sub sourcefile {
catfile($sourcedir, @_);
}
sub buildfile {
catfile($builddir, @_);
}
sub sourcedir {
catdir($sourcedir, @_);
}
sub builddir {
catdir($builddir, @_);
}
sub tree {
(my $x = shift) =~ s|\]$|...]|;
$x
}
sub move {
my $f = catdir(@_);
my $b = abs2rel(rel2abs("."),rel2abs($f));
$sourcedir = catdir($b,$sourcedir)
if !file_name_is_absolute($sourcedir);
$builddir = catdir($b,$builddir)
if !file_name_is_absolute($builddir);
"";
}
# Because we need to make two computations of these data,
# we store them in arrays for reuse
our @shlibs = map { $unified_info{sharednames}->{$_} || () } @{$unified_info{libraries}};
our @install_shlibs = map { $unified_info{sharednames}->{$_} || () } @{$unified_info{install}->{libraries}};
our @generated = ( ( map { (my $x = $_) =~ s|\.S$|\.s|; $x }
grep { defined $unified_info{generate}->{$_} }
map { @{$unified_info{sources}->{$_}} }
grep { /\.o$/ } keys %{$unified_info{sources}} ),
( grep { /\.h$/ } keys %{$unified_info{generate}} ) );
# This is a horrible hack, but is needed because recursive inclusion of files
# in different directories does not work well with HP C.
my $sd = sourcedir("crypto", "async", "arch");
foreach (grep /\[\.crypto\.async\.arch\].*\.o$/, keys %{$unified_info{sources}}) {
(my $x = $_) =~ s|\.o$|.OBJ|;
$unified_info{before}->{$x}
= qq(arch_include = F\$PARSE("$sd","A.;",,,"SYNTAX_ONLY") - "A.;"
define arch 'arch_include');
$unified_info{after}->{$x}
= qq(deassign arch);
}
my $sd1 = sourcedir("ssl","record");
my $sd2 = sourcedir("ssl","statem");
$unified_info{before}->{"[.test]heartbeat_test.OBJ"}
= $unified_info{before}->{"[.test]ssltest_old.OBJ"}
= qq(record_include = F\$PARSE("$sd1","A.;",,,"SYNTAX_ONLY") - "A.;"
define record 'record_include'
statem_include = F\$PARSE("$sd2","A.;",,,"SYNTAX_ONLY") - "A.;"
define statem 'statem_include');
$unified_info{after}->{"[.test]heartbeat_test.OBJ"}
= $unified_info{after}->{"[.test]ssltest.OBJ"}
= qq(deassign statem
deassign record);
foreach (grep /^\[\.ssl\.(?:record|statem)\].*\.o$/, keys %{$unified_info{sources}}) {
(my $x = $_) =~ s|\.o$|.OBJ|;
$unified_info{before}->{$x}
= qq(record_include = F\$PARSE("$sd1","A.;",,,"SYNTAX_ONLY") - "A.;"
define record 'record_include'
statem_include = F\$PARSE("$sd2","A.;",,,"SYNTAX_ONLY") - "A.;"
define statem 'statem_include');
$unified_info{after}->{$x}
= qq(deassign statem
deassign record);
}
# This makes sure things get built in the order they need
# to. You're welcome.
sub dependmagic {
my $target = shift;
return "$target : build_generated\n\t\pipe \$(MMS) depend && \$(MMS) _$target\n_$target";
}
#use Data::Dumper;
#print STDERR "DEBUG: before:\n", Dumper($unified_info{before});
#print STDERR "DEBUG: after:\n", Dumper($unified_info{after});
"";
-}
PLATFORM={- $config{target} -}
OPTIONS={- $config{options} -}
CONFIGURE_ARGS=({- join(", ",quotify_l(@{$config{perlargv}})) -})
SRCDIR={- $config{sourcedir} -}
BLDDIR={- $config{builddir} -}
# Allow both V and VERBOSE to indicate verbosity. This only applies
# to testing.
VERBOSE=$(V)
VERSION={- $config{version} -}
MAJOR={- $config{major} -}
MINOR={- $config{minor} -}
SHLIB_VERSION_NUMBER={- $config{shlib_version_number} -}
SHLIB_VERSION_HISTORY={- $config{shlib_version_history} -}
SHLIB_MAJOR={- $config{shlib_major} -}
SHLIB_MINOR={- $config{shlib_minor} -}
SHLIB_TARGET={- $target{shared_target} -}
EXE_EXT=.EXE
LIB_EXT=.OLB
SHLIB_EXT=.EXE
OBJ_EXT=.OBJ
DEP_EXT=.D
LIBS={- join(", ", map { "-\n\t".$_.".OLB" } @{$unified_info{libraries}}) -}
SHLIBS={- join(", ", map { "-\n\t".$_.".EXE" } @shlibs) -}
ENGINES={- join(", ", map { "-\n\t".$_.".EXE" } @{$unified_info{engines}}) -}
PROGRAMS={- join(", ", map { "-\n\t".$_.".EXE" } @{$unified_info{programs}}) -}
SCRIPTS={- join(", ", map { "-\n\t".$_ } @{$unified_info{scripts}}) -}
{- output_off() if $disabled{makedepend}; "" -}
DEPS={- our @deps = map { (my $x = $_) =~ s|\.o$|\$(DEP_EXT)|; $x; }
grep { $unified_info{sources}->{$_}->[0] =~ /\.c$/ }
keys %{$unified_info{sources}};
join(", ", map { "-\n\t".$_ } @deps); -}
{- output_on() if $disabled{makedepend}; "" -}
GENERATED_MANDATORY={- join(", ", map { "-\n\t".$_ } @{$unified_info{depends}->{""}} ) -}
GENERATED={- join(", ", map { "-\n\t".$_ } @generated) -}
INSTALL_LIBS={- join(", ", map { "-\n\t".$_.".OLB" } @{$unified_info{install}->{libraries}}) -}
INSTALL_SHLIBS={- join(", ", map { "-\n\t".$_.".EXE" } @install_shlibs) -}
INSTALL_ENGINES={- join(", ", map { "-\n\t".$_.".EXE" } @{$unified_info{install}->{engines}}) -}
INSTALL_PROGRAMS={- join(", ", map { "-\n\t".$_.".EXE" } @{$unified_info{install}->{programs}}) -}
{- output_off() if $disabled{apps}; "" -}
BIN_SCRIPTS=[.tools]c_rehash.pl
MISC_SCRIPTS=[.apps]CA.pl, [.apps]tsget.pl
{- output_on() if $disabled{apps}; "" -}
# DESTDIR is for package builders so that they can configure for, say,
# SYS$COMMON:[OPENSSL] and yet have everything installed in STAGING:[USER].
# In that case, configure with --prefix=SYS$COMMON:[OPENSSL] and then run
# MMS with /MACROS=(DESTDIR=STAGING:[USER]). The result will end up in
# STAGING:[USER.OPENSSL].
# Normally it is left empty.
DESTDIR=
# Do not edit this manually. Use Configure --prefix=DIR to change this!
INSTALLTOP={- our $installtop =
catdir($config{prefix}) || "SYS\$COMMON:[OPENSSL]";
$installtop -}
SYSTARTUP={- catdir($installtop, '[.SYS$STARTUP]'); -}
# This is the standard central area to store certificates, private keys...
OPENSSLDIR={- catdir($config{openssldir}) or
$config{prefix} ? catdir($config{prefix},"COMMON")
: "SYS\$COMMON:[OPENSSL-COMMON]" -}
# The same, but for C
OPENSSLDIR_C={- $osslprefix -}DATAROOT:[000000]
# Where installed engines reside, for C
ENGINESDIR_C={- $osslprefix -}ENGINES{- $sover.$target{pointer_size} -}:
CC= {- $target{cc} -}
CFLAGS= /DEFINE=({- join(",", @{$target{defines}}, @{$config{defines}},"OPENSSLDIR=\"\"\"\$(OPENSSLDIR_C)\"\"\"","ENGINESDIR=\"\"\"\$(ENGINESDIR_C)\"\"\"") -}) {- $target{cflags} -} {- $config{cflags} -}
CFLAGS_Q=$(CFLAGS)
DEPFLAG= /DEFINE=({- join(",", @{$config{depdefines}}) -})
LDFLAGS= {- $target{lflags} -}
EX_LIBS= {- $target{ex_libs} ? ",".$target{ex_libs} : "" -}{- $config{ex_libs} ? ",".$config{ex_libs} : "" -}
LIB_CFLAGS={- $target{lib_cflags} || "" -}
DSO_CFLAGS={- $target{dso_cflags} || "" -}
BIN_CFLAGS={- $target{bin_cflags} || "" -}
PERL={- $config{perl} -}
# We let the C compiler driver to take care of .s files. This is done in
# order to be excused from maintaining a separate set of architecture
# dependent assembler flags. E.g. if you throw -mcpu=ultrasparc at SPARC
# gcc, then the driver will automatically translate it to -xarch=v8plus
# and pass it down to assembler.
AS={- $target{as} -}
ASFLAG={- $target{asflags} -}
# .FIRST and .LAST are special targets with MMS and MMK.
# The defines in there are for C. includes that look like
# this:
#
# #include <openssl/foo.h>
# #include "internal/bar.h"
#
# will use the logical names to find the files. Expecting
# DECompHP C to find files in subdirectories of whatever was
# given with /INCLUDE is a fantasy, unfortunately.
NODEBUG=@
.FIRST :
$(NODEBUG) openssl_inc1 = F$PARSE("[.include.openssl]","A.;",,,"syntax_only") - "A.;"
$(NODEBUG) openssl_inc2 = F$PARSE("{- catdir($config{sourcedir},"[.include.openssl]") -}","A.;",,,"SYNTAX_ONLY") - "A.;"
$(NODEBUG) internal_inc1 = F$PARSE("[.crypto.include.internal]","A.;",,,"SYNTAX_ONLY") - "A.;"
$(NODEBUG) internal_inc2 = F$PARSE("{- catdir($config{sourcedir},"[.include.internal]") -}","A.;",,,"SYNTAX_ONLY") - "A.;"
$(NODEBUG) internal_inc3 = F$PARSE("{- catdir($config{sourcedir},"[.crypto.include.internal]") -}","A.;",,,"SYNTAX_ONLY") - "A.;"
$(NODEBUG) DEFINE openssl 'openssl_inc1','openssl_inc2'
$(NODEBUG) DEFINE internal 'internal_inc1','internal_inc2','internal_inc3'
$(NODEBUG) staging_dir = "$(DESTDIR)"
$(NODEBUG) staging_instdir = ""
$(NODEBUG) staging_datadir = ""
$(NODEBUG) IF staging_dir .NES. "" THEN -
staging_instdir = F$PARSE("A.;",staging_dir,"[]",,"SYNTAX_ONLY")
$(NODEBUG) IF staging_instdir - "]A.;" .NES. staging_instdir THEN -
staging_instdir = staging_instdir - "]A.;" + ".OPENSSL-INSTALL]"
$(NODEBUG) IF staging_instdir - "A.;" .NES. staging_instdir THEN -
staging_instdir = staging_instdir - "A.;" + "[OPENSSL-INSTALL]"
$(NODEBUG) IF staging_dir .NES. "" THEN -
staging_datadir = F$PARSE("A.;",staging_dir,"[]",,"SYNTAX_ONLY")
$(NODEBUG) IF staging_datadir - "]A.;" .NES. staging_datadir THEN -
staging_datadir = staging_datadir - "]A.;" + ".OPENSSL-COMMON]"
$(NODEBUG) IF staging_datadir - "A.;" .NES. staging_datadir THEN -
staging_datadir = staging_datadir - "A.;" + "[OPENSSL-COMMON]"
$(NODEBUG) !
$(NODEBUG) ! Installation logical names
$(NODEBUG) !
$(NODEBUG) installtop = F$PARSE(staging_instdir,"$(INSTALLTOP)","[]A.;",,"SYNTAX_ONLY,NO_CONCEAL") - ".][000000" - "[000000." - "][" - "]A.;" + ".]"
$(NODEBUG) datatop = F$PARSE(staging_datadir,"$(OPENSSLDIR)","[]A.;",,"SYNTAX_ONLY,NO_CONCEAL") - ".][000000" - "[000000." - "][" - "]A.;" + ".]"
$(NODEBUG) DEFINE ossl_installroot 'installtop'
$(NODEBUG) DEFINE ossl_dataroot 'datatop'
$(NODEBUG) !
$(NODEBUG) ! Figure out the architecture
$(NODEBUG) !
$(NODEBUG) arch = f$edit( f$getsyi( "arch_name"), "upcase")
$(NODEBUG) !
$(NODEBUG) ! Set up logical names for the libraries, so LINK and
$(NODEBUG) ! running programs can use them.
$(NODEBUG) !
$(NODEBUG) {- join("\n\t\$(NODEBUG) ", map { "DEFINE ".uc($_)." 'F\$ENV(\"DEFAULT\")'".uc($_)."\$(SHLIB_EXT)" } map { $unified_info{sharednames}->{$_} || () } @{$unified_info{libraries}}) || "!" -}
.LAST :
$(NODEBUG) {- join("\n\t\$(NODEBUG) ", map { "DEASSIGN ".uc($_) } map { $unified_info{sharednames}->{$_} || () } @{$unified_info{libraries}}) || "!" -}
$(NODEBUG) DEASSIGN ossl_dataroot
$(NODEBUG) DEASSIGN ossl_installroot
$(NODEBUG) DEASSIGN internal
$(NODEBUG) DEASSIGN openssl
.DEFAULT :
@ ! MMS cannot handle no actions...
# The main targets ###################################################
{- dependmagic('all'); -} : build_libs_nodep, build_engines_nodep, build_programs_nodep
{- dependmagic('build_libs'); -} : build_libs_nodep
{- dependmagic('build_engines'); -} : build_engines_nodep
{- dependmagic('build_programs'); -} : build_programs_nodep
build_generated : $(GENERATED_MANDATORY)
build_libs_nodep : $(LIBS), $(SHLIBS)
build_engines_nodep : $(ENGINES)
build_programs_nodep : $(PROGRAMS), $(SCRIPTS)
# Kept around for backward compatibility
build_apps build_tests : build_programs
test : tests
{- dependmagic('tests'); -} : build_programs_nodep, build_engines_nodep
@ ! {- output_off() if $disabled{tests}; "" -}
SET DEFAULT [.test]{- move("test") -}
DEFINE SRCTOP {- sourcedir() -}
DEFINE BLDTOP {- builddir() -}
DEFINE OPENSSL_ENGINES {- builddir("engines") -}
DEFINE OPENSSL_DEBUG_MEMORY "on"
IF "$(VERBOSE)" .NES. "" THEN DEFINE VERBOSE "$(VERBOSE)"
$(PERL) {- sourcefile("test", "run_tests.pl") -} $(TESTS)
DEASSIGN OPENSSL_DEBUG_MEMORY
DEASSIGN OPENSSL_ENGINES
DEASSIGN BLDTOP
DEASSIGN SRCTOP
SET DEFAULT [-]{- move("..") -}
@ ! {- if ($disabled{tests}) { output_on(); } else { output_off(); } "" -}
@ WRITE SYS$OUTPUT "Tests are not supported with your chosen Configure options"
@ ! {- output_on() if !$disabled{tests}; "" -}
list-tests :
@ ! {- output_off() if $disabled{tests}; "" -}
@ DEFINE SRCTOP {- sourcedir() -}
@ $(PERL) {- sourcefile("test", "run_tests.pl") -} list
@ DEASSIGN SRCTOP
@ ! {- if ($disabled{tests}) { output_on(); } else { output_off(); } "" -}
@ WRITE SYS$OUTPUT "Tests are not supported with your chosen Configure options"
@ ! {- output_on() if !$disabled{tests}; "" -}
install : install_sw install_ssldirs install_docs
@ WRITE SYS$OUTPUT ""
@ WRITE SYS$OUTPUT "######################################################################"
@ WRITE SYS$OUTPUT ""
@ IF "$(DESTDIR)" .EQS. "" THEN -
PIPE ( WRITE SYS$OUTPUT "Installation complete" ; -
WRITE SYS$OUTPUT "" ; -
WRITE SYS$OUTPUT "Run @$(SYSTARTUP)openssl_startup{- $osslver -} to set up logical names" ; -
WRITE SYS$OUTPUT "then run @$(SYSTARTUP)openssl_utils{- $osslver -} to define commands" ; -
WRITE SYS$OUTPUT "" )
@ IF "$(DESTDIR)" .NES. "" THEN -
PIPE ( WRITE SYS$OUTPUT "Staging installation complete" ; -
WRITE SYS$OUTPUT "" ; -
WRITE SYS$OUTPUT "Finish or package in such a way that the contents of the directory tree" ; -
WRITE SYS$OUTPUT staging_instdir ; -
WRITE SYS$OUTPUT "ends up in $(INSTALLTOP)," ; -
WRITE SYS$OUTPUT "and that the contents of the contents of the directory tree" ; -
WRITE SYS$OUTPUT staging_datadir ; -
WRITE SYS$OUTPUT "ends up in $(OPENSSLDIR)" ; -
WRITE SYS$OUTPUT "" ; -
WRITE SYS$OUTPUT "When in its final destination," ; -
WRITE SYS$OUTPUT "Run @$(SYSTARTUP)openssl_startup{- $osslver -} to set up logical names" ; -
WRITE SYS$OUTPUT "then run @$(SYSTARTUP)openssl_utils{- $osslver -} to define commands" ; -
WRITE SYS$OUTPUT "" )
check_install :
spawn/nolog @ossl_installroot:[SYSTEST]openssl_ivp{- $osslver -}.com
uninstall : uninstall_docs uninstall_sw
# Because VMS wants the generation number (or *) to delete files, we can't
# use $(LIBS), $(PROGRAMS), $(GENERATED) and $(ENGINES)directly.
libclean :
{- join("\n\t", map { "- DELETE $_.OLB;*" } @{$unified_info{libraries}}) || "@ !" -}
{- join("\n\t", map { "- DELETE $_.EXE;*,$_.MAP;*,$_.OPT;*" } @shlibs) || "@ !" -}
clean : libclean
{- join("\n\t", map { "- DELETE $_.EXE;*,$_.OPT;*" } @{$unified_info{programs}}) || "@ !" -}
{- join("\n\t", map { "- DELETE $_.EXE;*,$_.OPT;*" } @{$unified_info{engines}}) || "@ !" -}
{- join("\n\t", map { "- DELETE $_;*" } @{$unified_info{scripts}}) || "@ !" -}
{- join("\n\t", map { "- DELETE $_;*" } @generated) || "@ !" -}
- DELETE [...]*.MAP;*
- DELETE [...]*.D;*
- DELETE [...]*.OBJ;*,*.LIS;*
- DELETE []CXX$DEMANGLER_DB.;*
- DELETE [.VMS]openssl_startup.com;*
- DELETE [.VMS]openssl_shutdown.com;*
- DELETE []vmsconfig.pm;*
distclean : clean
- DELETE configdata.pm;*
- DELETE descrip.mms;*
depend : descrip.mms
descrip.mms : FORCE
@ ! {- output_off() if $disabled{makedepend}; "" -}
@ $(PERL) -pe "if (/^# DO NOT DELETE.*/) { exit(0); }" -
< descrip.mms > descrip.mms-new
@ OPEN/APPEND DESCRIP descrip.mms-new
@ WRITE DESCRIP "# DO NOT DELETE THIS LINE -- make depend depends on it."
{- join("\n\t", map { "\@ IF F\$SEARCH(\"$_\") .NES. \"\" THEN TYPE $_ /OUTPUT=DESCRIP:" } @deps); -}
@ CLOSE DESCRIP
@ PIPE ( $(PERL) -e "use File::Compare qw/compare_text/; my $x = compare_text(""descrip.mms"",""descrip.mms-new""); exit(0x10000000 + ($x == 0));" || -
RENAME descrip.mms-new descrip.mms )
@ IF F$SEARCH("descrip.mms-new") .NES. "" THEN DELETE descrip.mms-new;*
-@ SPAWN/OUTPUT=NLA0: PURGE/NOLOG descrip.mms
@ ! {- output_on() if $disabled{makedepend}; "" -}
# Install helper targets #############################################
install_sw : all install_shared _install_dev_ns -
install_engines _install_runtime_ns -
install_startup install_ivp
uninstall_sw : uninstall_shared _uninstall_dev_ns -
uninstall_engines _uninstall_runtime_ns -
uninstall_startup uninstall_ivp
install_docs : install_html_docs
uninstall_docs : uninstall_html_docs
install_ssldirs : check_INSTALLTOP
- CREATE/DIR/PROT=(S:RWED,O:RWE,G:RE,W:RE) OSSL_DATAROOT:[000000]
IF F$SEARCH("OSSL_DATAROOT:[000000]CERTS.DIR;1") .EQS. "" THEN -
CREATE/DIR/PROT=(S:RWED,O:RWE,G:RE,W:RE) OSSL_DATAROOT:[CERTS]
IF F$SEARCH("OSSL_DATAROOT:[000000]PRIVATE.DIR;1") .EQS. "" THEN -
CREATE/DIR/PROT=(S:RWED,O:RWE,G,W) OSSL_DATAROOT:[PRIVATE]
IF F$SEARCH("OSSL_DATAROOT:[000000]MISC.DIR;1") .EQS. "" THEN -
CREATE/DIR/PROT=(S:RWED,O:RWE,G,W) OSSL_DATAROOT:[MISC]
COPY/PROT=W:RE $(MISC_SCRIPTS) OSSL_DATAROOT:[MISC]
@ ! Install configuration file
COPY/PROT=W:R {- sourcefile("apps", "openssl-vms.cnf") -} -
ossl_dataroot:[000000]openssl.cnf-dist
IF F$SEARCH("OSSL_DATAROOT:[000000]openssl.cnf") .EQS. "" THEN -
COPY/PROT=W:R {- sourcefile("apps", "openssl-vms.cnf") -} -
ossl_dataroot:[000000]openssl.cnf
install_shared : check_INSTALLTOP
@ {- output_off() if $disabled{shared}; "" -} !
@ WRITE SYS$OUTPUT "*** Installing shareable images"
@ ! Install shared (runtime) libraries
- CREATE/DIR ossl_installroot:[LIB.'arch']
{- join("\n ",
map { "COPY/PROT=W:R $_.EXE ossl_installroot:[LIB.'arch']" }
@install_shlibs) -}
@ {- output_on() if $disabled{shared}; "" -} !
_install_dev_ns : check_INSTALLTOP
@ WRITE SYS$OUTPUT "*** Installing development files"
@ ! Install header files
- CREATE/DIR ossl_installroot:[include.openssl]
COPY/PROT=W:R openssl:*.h ossl_installroot:[include.openssl]
@ ! Install static (development) libraries
- CREATE/DIR ossl_installroot:[LIB.'arch']
{- join("\n ",
map { "COPY/PROT=W:R $_.OLB ossl_installroot:[LIB.'arch']" }
@{$unified_info{install}->{libraries}}) -}
install_dev : install_shared _install_dev_ns
_install_runtime_ns : check_INSTALLTOP
@ ! Install the main program
- CREATE/DIR ossl_installroot:[EXE.'arch']
COPY/PROT=W:RE [.APPS]openssl.EXE -
ossl_installroot:[EXE.'arch']openssl{- $osslver -}.EXE
@ ! Install scripts
COPY/PROT=W:RE $(BIN_SCRIPTS) ossl_installroot:[EXE]
@ ! {- output_on() if $disabled{apps}; "" -}
install_runtime : install_shared _install_runtime_ns
install_engines : check_INSTALLTOP
@ {- output_off() unless scalar @{$unified_info{engines}}; "" -} !
@ WRITE SYS$OUTPUT "*** Installing engines"
- CREATE/DIR ossl_installroot:[ENGINES{- $sover.$target{pointer_size} -}.'arch']
{- join("\n ",
map { "COPY/PROT=W:RE $_.EXE ossl_installroot:[ENGINES$sover$target{pointer_size}.'arch']" }
@{$unified_info{install}->{engines}}) -}
@ {- output_on() unless scalar @{$unified_info{engines}}; "" -} !
install_startup : [.VMS]openssl_startup.com [.VMS]openssl_shutdown.com -
[.VMS]openssl_utils.com, check_INSTALLTOP
- CREATE/DIR ossl_installroot:[SYS$STARTUP]
COPY/PROT=W:RE [.VMS]openssl_startup.com -
ossl_installroot:[SYS$STARTUP]openssl_startup{- $osslver -}.com
COPY/PROT=W:RE [.VMS]openssl_shutdown.com -
ossl_installroot:[SYS$STARTUP]openssl_shutdown{- $osslver -}.com
COPY/PROT=W:RE [.VMS]openssl_utils.com -
ossl_installroot:[SYS$STARTUP]openssl_utils{- $osslver -}.com
install_ivp : [.VMS]openssl_ivp.com check_INSTALLTOP
- CREATE/DIR ossl_installroot:[SYSTEST]
COPY/PROT=W:RE [.VMS]openssl_ivp.com -
ossl_installroot:[SYSTEST]openssl_ivp{- $osslver -}.com
[.VMS]openssl_startup.com : vmsconfig.pm {- sourcefile("VMS", "openssl_startup.com.in") -}
- CREATE/DIR [.VMS]
$(PERL) "-I." "-Mvmsconfig" {- sourcefile("util", "dofile.pl") -} -
{- sourcefile("VMS", "openssl_startup.com.in") -} -
> [.VMS]openssl_startup.com
[.VMS]openssl_utils.com : vmsconfig.pm {- sourcefile("VMS", "openssl_utils.com.in") -}
- CREATE/DIR [.VMS]
$(PERL) "-I." "-Mvmsconfig" {- sourcefile("util", "dofile.pl") -} -
{- sourcefile("VMS", "openssl_utils.com.in") -} -
> [.VMS]openssl_utils.com
[.VMS]openssl_shutdown.com : vmsconfig.pm {- sourcefile("VMS", "openssl_shutdown.com.in") -}
- CREATE/DIR [.VMS]
$(PERL) "-I." "-Mvmsconfig" {- sourcefile("util", "dofile.pl") -} -
{- sourcefile("VMS", "openssl_shutdown.com.in") -} -
> [.VMS]openssl_shutdown.com
[.VMS]openssl_ivp.com : vmsconfig.pm {- sourcefile("VMS", "openssl_ivp.com.in") -}
- CREATE/DIR [.VMS]
$(PERL) "-I." "-Mvmsconfig" {- sourcefile("util", "dofile.pl") -} -
{- sourcefile("VMS", "openssl_ivp.com.in") -} -
> [.VMS]openssl_ivp.com
vmsconfig.pm : configdata.pm
OPEN/WRITE/SHARE=READ CONFIG []vmsconfig.pm
WRITE CONFIG "package vmsconfig;"
WRITE CONFIG "use strict; use warnings;"
WRITE CONFIG "use Exporter;"
WRITE CONFIG "our @ISA = qw(Exporter);"
WRITE CONFIG "our @EXPORT = qw(%config %target %withargs %unified_info %disabled);"
WRITE CONFIG "our %config = ("
WRITE CONFIG " target => '","{- $config{target} -}","',"
WRITE CONFIG " version => '","{- $config{version} -}","',"
WRITE CONFIG " shlib_major => '","{- $config{shlib_major} -}","',"
WRITE CONFIG " shlib_minor => '","{- $config{shlib_minor} -}","',"
WRITE CONFIG " no_shared => '","{- $disabled{shared} -}","',"
WRITE CONFIG " INSTALLTOP => '$(INSTALLTOP)',"
WRITE CONFIG " OPENSSLDIR => '$(OPENSSLDIR)',"
WRITE CONFIG " pointer_size => '","{- $target{pointer_size} -}","',"
WRITE CONFIG ");"
WRITE CONFIG "our %target = ();"
WRITE CONFIG "our %disabled = ();"
WRITE CONFIG "our %withargs = ();"
WRITE CONFIG "our %unified_info = ();"
WRITE CONFIG "1;"
CLOSE CONFIG
install_html_docs : check_INSTALLTOP
sourcedir = F$PARSE("{- $sourcedir -}A.;","[]") - "]A.;" + ".DOC]"
$(PERL) {- sourcefile("util", "process_docs.pl") -} -
--sourcedir='sourcedir' --destdir=ossl_installroot:[HTML] -
--type=html
check_INSTALLTOP :
@ IF "$(INSTALLTOP)" .EQS. "" THEN -
WRITE SYS$ERROR "INSTALLTOP should not be empty"
@ IF "$(INSTALLTOP)" .EQS. "" THEN -
EXIT %x10000002
# Helper targets #####################################################
# Developer targets ##################################################
debug_logicals :
SH LOGICAL/PROC openssl,internal,ossl_installroot,ossl_dataroot
# Building targets ###################################################
configdata.pm : $(SRCDIR)Configure $(SRCDIR)config.com {- join(" ", @{$config{build_file_templates}}, @{$config{build_infos}}, @{$config{conf_files}}) -}
@ WRITE SYS$OUTPUT "Reconfiguring..."
perl $(SRCDIR)Configure reconf
@ WRITE SYS$OUTPUT "*************************************************"
@ WRITE SYS$OUTPUT "*** ***"
@ WRITE SYS$OUTPUT "*** Please run the same mms command again ***"
@ WRITE SYS$OUTPUT "*** ***"
@ WRITE SYS$OUTPUT "*************************************************"
@ PIPE ( EXIT %X10000000 )
{-
use File::Basename;
use File::Spec::Functions qw/abs2rel rel2abs catfile catdir/;
sub generatesrc {
my %args = @_;
my $generator = join(" ", @{$args{generator}});
my $generator_incs = join("", map { ' "-I'.$_.'"' } @{$args{generator_incs}});
my $deps = join(", -\n\t\t", @{$args{generator_deps}}, @{$args{deps}});
if ($args{src} !~ /\.[sS]$/) {
if ($args{generator}->[0] =~ m|^.*\.in$|) {
my $dofile = abs2rel(rel2abs(catfile($config{sourcedir},
"util", "dofile.pl")),
rel2abs($config{builddir}));
return <<"EOF";
$args{src} : $args{generator}->[0] $deps
\$(PERL) "-I\$(BLDDIR)" "-Mconfigdata" $dofile \\
"-o$target{build_file}" $generator > \$@
EOF
} else {
return <<"EOF";
$args{src} : $args{generator}->[0] $deps
\$(PERL)$generator_incs $generator > \$@
EOF
}
} else {
die "No method to generate assembler source present.\n";
}
}
sub src2obj {
my %args = @_;
my $obj = $args{obj};
my $deps = join(", -\n\t\t", @{$args{srcs}}, @{$args{deps}});
# Because VMS C isn't very good at combining a /INCLUDE path with
# #includes having a relative directory (like '#include "../foo.h"),
# the best choice is to move to the first source file's intended
# directory before compiling, and make sure to write the object file
# in the correct position (important when the object tree is other
# than the source tree).
my $forward = dirname($args{srcs}->[0]);
my $backward = abs2rel(rel2abs("."), rel2abs($forward));
my $objd = abs2rel(rel2abs(dirname($obj)), rel2abs($forward));
my $objn = basename($obj);
my $srcs =
join(", ",
map { abs2rel(rel2abs($_), rel2abs($forward)) } @{$args{srcs}});
my $ecflags = { lib => '$(LIB_CFLAGS)',
dso => '$(DSO_CFLAGS)',
bin => '$(BIN_CFLAGS)' } -> {$args{intent}};
my $incs_on = "\@ !";
my $incs_off = "\@ !";
my $incs = "";
my @incs = ();
push @incs, @{$args{incs}} if @{$args{incs}};
unless ($disabled{zlib}) {
# GNV$ZLIB_INCLUDE is the standard logical name for later zlib
# incarnations.
push @incs, ($withargs{zlib_include} || 'GNV$ZLIB_INCLUDE:');
}
if (@incs) {
$incs_on =
"DEFINE tmp_includes "
.join(",-\n\t\t\t", map {
file_name_is_absolute($_)
? $_ : catdir($backward,$_)
} @incs);
$incs_off = "DEASSIGN tmp_includes";
$incs = " /INCLUDE=(tmp_includes:)";
}
my $before = $unified_info{before}->{$obj.".OBJ"} || "\@ !";
my $after = $unified_info{after}->{$obj.".OBJ"} || "\@ !";
my $depbuild = $disabled{makedepend} ? ""
: " /MMS=(FILE=${objd}${objn}.tmp-D,TARGET=$obj.OBJ)";
return <<"EOF";
$obj.OBJ : $deps
${before}
SET DEFAULT $forward
$incs_on
\$(CC) \$(CFLAGS)${ecflags}${incs}${depbuild} /OBJECT=${objd}${objn}.OBJ /REPOSITORY=$backward $srcs
$incs_off
SET DEFAULT $backward
${after}
\@ PIPE ( \$(PERL) -e "use File::Compare qw/compare_text/; my \$x = compare_text(""$obj.D"",""$obj.tmp-D""); exit(0x10000000 + (\$x == 0));" || -
RENAME $obj.tmp-D $obj.d )
\@ IF F\$SEARCH("$obj.tmp-D") .NES. "" THEN DELETE $obj.tmp-D;*
- PURGE $obj.OBJ
EOF
}
sub libobj2shlib {
my %args = @_;
my $lib = $args{lib};
my $shlib = $args{shlib};
my $libd = dirname($lib);
my $libn = basename($lib);
(my $mkdef_key = $libn) =~ s/^${osslprefix_q}lib([^0-9]*)\d*/$1/i;
my @deps = map {
$disabled{shared} ? $_.".OLB"
: $unified_info{sharednames}->{$_}.".EXE"; } @{$args{deps}};
my $deps = join(", -\n\t\t", @deps);
my $shlib_target = $disabled{shared} ? "" : $target{shared_target};
my $ordinalsfile = defined($args{ordinals}) ? $args{ordinals}->[1] : "";
my $engine_opt = abs2rel(rel2abs(catfile($config{sourcedir},
"VMS", "engine.opt")),
rel2abs($config{builddir}));
my $mkdef_pl = abs2rel(rel2abs(catfile($config{sourcedir},
"util", "mkdef.pl")),
rel2abs($config{builddir}));
my $translatesyms_pl = abs2rel(rel2abs(catfile($config{sourcedir},
"VMS", "translatesyms.pl")),
rel2abs($config{builddir}));
# The "[]" hack is because in .OPT files, each line inherits the
# previous line's file spec as default, so if no directory spec
# is present in the current line and the previous line has one that
# doesn't apply, you're in for a surprise.
my $write_opt =
join("\n\t", map { my $x = $_ =~ /\[/ ? $_ : "[]".$_;
$x =~ s|(\.EXE)|$1/SHARE|;
$x =~ s|(\.OLB)|$1/LIB|;
"WRITE OPT_FILE \"$x\"" } @deps)
|| "\@ !";
return <<"EOF";
$shlib.EXE : $lib.OLB $deps $ordinalsfile
\$(PERL) $mkdef_pl "$mkdef_key" "VMS" > $shlib.SYMVEC-tmp
\$(PERL) $translatesyms_pl \$(BLDDIR)CXX\$DEMANGLER_DB. < $shlib.SYMVEC-tmp > $shlib.SYMVEC
DELETE $shlib.SYMVEC-tmp;*
OPEN/WRITE/SHARE=READ OPT_FILE $shlib.OPT
WRITE OPT_FILE "IDENTIFICATION=""V$config{version}"""
TYPE $shlib.SYMVEC /OUTPUT=OPT_FILE:
WRITE OPT_FILE "$lib.OLB/LIBRARY"
$write_opt
CLOSE OPT_FILE
LINK /MAP=$shlib.MAP /FULL/SHARE=$shlib.EXE $shlib.OPT/OPT \$(EX_LIBS)
DELETE $shlib.SYMVEC;*
PURGE $shlib.EXE,$shlib.OPT,$shlib.MAP
EOF
}
sub obj2dso {
my %args = @_;
my $lib = $args{lib};
my $libd = dirname($lib);
my $libn = basename($lib);
(my $libn_nolib = $libn) =~ s/^lib//;
my @objs = map { "$_.OBJ" } @{$args{objs}};
my @deps = map {
$disabled{shared} ? $_.".OLB"
: $unified_info{sharednames}->{$_}.".EXE"; } @{$args{deps}};
my $deps = join(", -\n\t\t", @objs, @deps);
my $shlib_target = $disabled{shared} ? "" : $target{shared_target};
my $engine_opt = abs2rel(rel2abs(catfile($config{sourcedir},
"VMS", "engine.opt")),
rel2abs($config{builddir}));
# The "[]" hack is because in .OPT files, each line inherits the
# previous line's file spec as default, so if no directory spec
# is present in the current line and the previous line has one that
# doesn't apply, you're in for a surprise.
my $write_opt1 =
join(",-\"\n\t", map { my $x = $_ =~ /\[/ ? $_ : "[]".$_;
"WRITE OPT_FILE \"$x" } @objs).
"\"";
my $write_opt2 =
join("\n\t", map { my $x = $_ =~ /\[/ ? $_ : "[]".$_;
$x =~ s|(\.EXE)|$1/SHARE|;
$x =~ s|(\.OLB)|$1/LIB|;
"WRITE OPT_FILE \"$x\"" } @deps)
|| "\@ !";
return <<"EOF";
$lib.EXE : $deps
OPEN/WRITE/SHARE=READ OPT_FILE $lib.OPT
TYPE $engine_opt /OUTPUT=OPT_FILE:
$write_opt1
$write_opt2
CLOSE OPT_FILE
LINK /MAP=$lib.MAP /FULL/SHARE=$lib.EXE $lib.OPT/OPT \$(EX_LIBS)
- PURGE $lib.EXE,$lib.OPT,$lib.MAP
EOF
}
sub obj2lib {
my %args = @_;
my $lib = $args{lib};
my $objs = join(", -\n\t\t", map { $_.".OBJ" } (@{$args{objs}}));
my $fill_lib = join("\n\t", (map { "LIBRARY/REPLACE $lib.OLB $_.OBJ" }
@{$args{objs}}));
return <<"EOF";
$lib.OLB : $objs
LIBRARY/CREATE/OBJECT $lib.OLB
$fill_lib
- PURGE $lib.OLB
EOF
}
sub obj2bin {
my %args = @_;
my $bin = $args{bin};
my $bind = dirname($bin);
my $binn = basename($bin);
my @objs = map { "$_.OBJ" } @{$args{objs}};
my @deps = map {
$disabled{shared} ? $_.".OLB"
: $unified_info{sharednames}->{$_}.".EXE"; } @{$args{deps}};
my $deps = join(", -\n\t\t", @objs, @deps);
# The "[]" hack is because in .OPT files, each line inherits the
# previous line's file spec as default, so if no directory spec
# is present in the current line and the previous line has one that
# doesn't apply, you're in for a surprise.
my $write_opt1 =
join(",-\"\n\t", map { my $x = $_ =~ /\[/ ? $_ : "[]".$_;
"WRITE OPT_FILE \"$x" } @objs).
"\"";
my $write_opt2 =
join("\n\t", map { my $x = $_ =~ /\[/ ? $_ : "[]".$_;
$x =~ s|(\.EXE)|$1/SHARE|;
$x =~ s|(\.OLB)|$1/LIB|;
"WRITE OPT_FILE \"$x\"" } @deps)
|| "\@ !";
return <<"EOF";
$bin.EXE : $deps
OPEN/WRITE/SHARE=READ OPT_FILE $bin.OPT
$write_opt1
$write_opt2
CLOSE OPT_FILE
LINK/EXEC=$bin.EXE \$(LDFLAGS) $bin.OPT/OPT \$(EX_LIBS)
- PURGE $bin.EXE,$bin.OPT
EOF
}
sub in2script {
my %args = @_;
my $script = $args{script};
return "" if grep { $_ eq $script } @{$args{sources}}; # No overwrite!
my $sources = join(" ", @{$args{sources}});
my $dofile = abs2rel(rel2abs(catfile($config{sourcedir},
"util", "dofile.pl")),
rel2abs($config{builddir}));
return <<"EOF";
$script : $sources
\$(PERL) "-I\$(BLDDIR)" "-Mconfigdata" $dofile -
"-o$target{build_file}" $sources > $script
SET FILE/PROT=(S:RWED,O:RWED,G:RE,W:RE) $script
PURGE $script
EOF
}
"" # Important! This becomes part of the template result.
-}

1042
Configurations/unix-Makefile.tmpl Normal file
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22
Configurations/unix-checker.pm Normal file
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@@ -0,0 +1,22 @@
#! /usr/bin/perl
use Config;
# Check that the perl implementation file modules generate paths that
# we expect for the platform
use File::Spec::Functions qw(:DEFAULT rel2abs);
if (rel2abs('.') !~ m|/|) {
die <<EOF;
******************************************************************************
This perl implementation doesn't produce Unix like paths (with forward slash
directory separators). Please use an implementation that matches your
building platform.
This Perl version: $Config{version} for $Config{archname}
******************************************************************************
EOF
}
1;

22
Configurations/windows-checker.pm Normal file
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@@ -0,0 +1,22 @@
#! /usr/bin/perl
use Config;
# Check that the perl implementation file modules generate paths that
# we expect for the platform
use File::Spec::Functions qw(:DEFAULT rel2abs);
if (rel2abs('.') !~ m|\\|) {
die <<EOF;
******************************************************************************
This perl implementation doesn't produce Windows like paths (with backward
slash directory separators). Please use an implementation that matches your
building platform.
This Perl version: $Config{version} for $Config{archname}
******************************************************************************
EOF
}
1;

606
Configurations/windows-makefile.tmpl Normal file
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@@ -0,0 +1,606 @@
##
## Makefile for OpenSSL
##
## {- join("\n## ", @autowarntext) -}
{-
our $objext = $target{obj_extension} || ".obj";
our $depext = $target{dep_extension} || ".d";
our $exeext = $target{exe_extension} || ".exe";
our $libext = $target{lib_extension} || ".lib";
our $shlibext = $target{shared_extension} || ".dll";
our $shlibextimport = $target{shared_import_extension} || ".lib";
our $dsoext = $target{dso_extension} || ".dll";
our $sover = $config{shlib_major}."_".$config{shlib_minor};
my $win_installenv =
$target{build_scheme}->[2] eq "VC-W32" ?
"ProgramFiles(x86)" : "ProgramW6432";
my $win_commonenv =
$target{build_scheme}->[2] eq "VC-W32"
? "CommonProgramFiles(x86)" : "CommonProgramW6432";
our $win_installroot =
defined($ENV{$win_installenv})
? $win_installenv : 'ProgramFiles';
our $win_commonroot =
defined($ENV{$win_commonenv})
? $win_commonenv : 'CommonProgramFiles';
# expand variables early
$win_installroot = $ENV{$win_installroot};
$win_commonroot = $ENV{$win_commonroot};
sub shlib {
return () if $disabled{shared};
my $lib = shift;
return $unified_info{sharednames}->{$lib} . $shlibext;
}
sub shlib_import {
return () if $disabled{shared};
my $lib = shift;
return $lib . $shlibextimport;
}
sub dso {
my $dso = shift;
return $dso . $dsoext;
}
# This makes sure things get built in the order they need
# to. You're welcome.
sub dependmagic {
my $target = shift;
return "$target: build_generated\n\t\$(MAKE) depend && \$(MAKE) _$target\n_$target";
}
'';
-}
PLATFORM={- $config{target} -}
SRCDIR={- $config{sourcedir} -}
BLDDIR={- $config{builddir} -}
VERSION={- $config{version} -}
MAJOR={- $config{major} -}
MINOR={- $config{minor} -}
SHLIB_VERSION_NUMBER={- $config{shlib_version_number} -}
LIBS={- join(" ", map { $_.$libext } @{$unified_info{libraries}}) -}
SHLIBS={- join(" ", map { shlib($_) } @{$unified_info{libraries}}) -}
SHLIBPDBS={- join(" ", map { local $shlibext = ".pdb"; shlib($_) } @{$unified_info{libraries}}) -}
ENGINES={- join(" ", map { dso($_) } @{$unified_info{engines}}) -}
ENGINEPDBS={- join(" ", map { local $dsoext = ".pdb"; dso($_) } @{$unified_info{engines}}) -}
PROGRAMS={- join(" ", map { $_.$exeext } @{$unified_info{programs}}) -}
PROGRAMPDBS={- join(" ", map { $_.".pdb" } @{$unified_info{programs}}) -}
SCRIPTS={- join(" ", @{$unified_info{scripts}}) -}
{- output_off() if $disabled{makedepend}; "" -}
DEPS={- join(" ", map { (my $x = $_) =~ s|\.o$|$depext|; $x; }
grep { $unified_info{sources}->{$_}->[0] =~ /\.c$/ }
keys %{$unified_info{sources}}); -}
{- output_on() if $disabled{makedepend}; "" -}
GENERATED_MANDATORY={- join(" ", @{$unified_info{depends}->{""}} ) -}
GENERATED={- join(" ",
( map { (my $x = $_) =~ s|\.[sS]$|\.asm|; $x }
grep { defined $unified_info{generate}->{$_} }
map { @{$unified_info{sources}->{$_}} }
grep { /\.o$/ } keys %{$unified_info{sources}} ),
( grep { /\.h$/ } keys %{$unified_info{generate}} )) -}
INSTALL_LIBS={- join(" ", map { $_.$libext } @{$unified_info{install}->{libraries}}) -}
INSTALL_SHLIBS={- join(" ", map { shlib($_) } @{$unified_info{install}->{libraries}}) -}
INSTALL_SHLIBPDBS={- join(" ", map { local $shlibext = ".pdb"; shlib($_) } @{$unified_info{install}->{libraries}}) -}
INSTALL_ENGINES={- join(" ", map { dso($_) } @{$unified_info{install}->{engines}}) -}
INSTALL_ENGINEPDBS={- join(" ", map { local $dsoext = ".pdb"; dso($_) } @{$unified_info{install}->{engines}}) -}
INSTALL_PROGRAMS={- join(" ", map { $_.$exeext } grep { !m|^test\\| } @{$unified_info{install}->{programs}}) -}
INSTALL_PROGRAMPDBS={- join(" ", map { $_.".pdb" } grep { !m|^test\\| } @{$unified_info{install}->{programs}}) -}
{- output_off() if $disabled{apps}; "" -}
BIN_SCRIPTS=$(BLDDIR)\tools\c_rehash.pl
MISC_SCRIPTS=$(BLDDIR)\apps\CA.pl $(BLDDIR)\apps\tsget.pl
{- output_on() if $disabled{apps}; "" -}
# Do not edit these manually. Use Configure with --prefix or --openssldir
# to change this! Short explanation in the top comment in Configure
INSTALLTOP_dev={- # $prefix is used in the OPENSSLDIR perl snippet
#
use File::Spec::Functions qw(:DEFAULT splitpath);
our $prefix = $config{prefix} || "$win_installroot\\OpenSSL";
our ($prefix_dev, $prefix_dir, $prefix_file) =
splitpath($prefix, 1);
$prefix_dev -}
INSTALLTOP_dir={- $prefix_dir -}
OPENSSLDIR_dev={- #
# The logic here is that if no --openssldir was given,
# OPENSSLDIR will get the value from $prefix plus "/ssl".
# If --openssldir was given and the value is an absolute
# path, OPENSSLDIR will get its value without change.
# If the value from --openssldir is a relative path,
# OPENSSLDIR will get $prefix with the --openssldir
# value appended as a subdirectory.
#
use File::Spec::Functions qw(:DEFAULT splitpath);
our $openssldir =
$config{openssldir} ?
(file_name_is_absolute($config{openssldir}) ?
$config{openssldir}
: catdir($prefix, $config{openssldir}))
: "$win_commonroot\\SSL";
our ($openssldir_dev, $openssldir_dir, $openssldir_file) =
splitpath($openssldir, 1);
$openssldir_dev -}
OPENSSLDIR_dir={- $openssldir_dir -}
LIBDIR={- our $libdir = $config{libdir} || "lib";
$libdir -}
ENGINESDIR_dev={- use File::Spec::Functions qw(:DEFAULT splitpath);
our $enginesdir = catdir($prefix,$libdir,"engines-$sover");
our ($enginesdir_dev, $enginesdir_dir, $enginesdir_file) =
splitpath($enginesdir, 1);
$enginesdir_dev -}
ENGINESDIR_dir={- $enginesdir_dir -}
!IF "$(DESTDIR)" != ""
INSTALLTOP=$(DESTDIR)$(INSTALLTOP_dir)
OPENSSLDIR=$(DESTDIR)$(OPENSSLDIR_dir)
ENGINESDIR=$(DESTDIR)$(ENGINESDIR_dir)
!ELSE
INSTALLTOP=$(INSTALLTOP_dev)$(INSTALLTOP_dir)
OPENSSLDIR=$(OPENSSLDIR_dev)$(OPENSSLDIR_dir)
ENGINESDIR=$(ENGINESDIR_dev)$(ENGINESDIR_dir)
!ENDIF
CC={- $target{cc} -}
CFLAGS={- join(" ",(map { "-D".$_} @{$target{defines}}, @{$config{defines}})) -} {- join(" ", quotify_l("-DENGINESDIR=\"$enginesdir\"", "-DOPENSSLDIR=\"$openssldir\"")) -} {- $target{cflags} -} {- $config{cflags} -}
COUTFLAG={- $target{coutflag} || "/Fo" -}$(OSSL_EMPTY)
RC={- $target{rc} || "rc" -}
RCOUTFLAG={- $target{rcoutflag} || "/fo" -}$(OSSL_EMPTY)
LD={- $target{ld} || "link" -}
LDFLAGS={- $target{lflags} -}
LDOUTFLAG={- $target{loutflag} || "/out:" -}$(OSSL_EMPTY)
EX_LIBS={- $target{ex_libs} -}
LIB_CFLAGS={- join(" ", $target{lib_cflags}, $target{shared_cflag}) || "" -}
LIB_LDFLAGS={- $target{shared_ldflag} || "" -}
DSO_CFLAGS={- join(" ", $target{dso_cflags}, $target{shared_cflag}) || "" -}
DSO_LDFLAGS={- join(" ", $target{dso_lflags}, $target{shared_ldflag}) || "" -}
BIN_CFLAGS={- $target{bin_cflags} -}
BIN_LDFLAGS={- $target{bin_lflags} -}
PERL={- $config{perl} -}
AR={- $target{ar} -}
ARFLAGS= {- $target{arflags} -}
AROUTFLAG={- $target{aroutflag} || "/out:" -}$(OSSL_EMPTY)
MT={- $target{mt} -}
MTFLAGS= {- $target{mtflags} -}
MTINFLAG={- $target{mtinflag} || "-manifest " -}$(OSSL_EMPTY)
MTOUTFLAG={- $target{mtoutflag} || "-outputresource:" -}$(OSSL_EMPTY)
AS={- $target{as} -}
ASFLAGS={- $target{asflags} -}
ASOUTFLAG={- $target{asoutflag} -}$(OSSL_EMPTY)
PERLASM_SCHEME= {- $target{perlasm_scheme} -}
PROCESSOR= {- $config{processor} -}
# The main targets ###################################################
{- dependmagic('all'); -}: build_libs_nodep build_engines_nodep build_programs_nodep
{- dependmagic('build_libs'); -}: build_libs_nodep
{- dependmagic('build_engines'); -}: build_engines_nodep
{- dependmagic('build_programs'); -}: build_programs_nodep
build_generated: $(GENERATED_MANDATORY)
build_libs_nodep: $(LIBS) {- join(" ",map { shlib_import($_) } @{$unified_info{libraries}}) -}
build_engines_nodep: $(ENGINES)
build_programs_nodep: $(PROGRAMS) $(SCRIPTS)
# Kept around for backward compatibility
build_apps build_tests: build_programs
test: tests
{- dependmagic('tests'); -}: build_programs_nodep build_engines_nodep
@rem {- output_off() if $disabled{tests}; "" -}
set SRCTOP=$(SRCDIR)
set BLDTOP=$(BLDDIR)
set PERL=$(PERL)
set OPENSSL_DEBUG_MEMORY=on
"$(PERL)" "$(SRCDIR)\test\run_tests.pl" $(TESTS)
@rem {- if ($disabled{tests}) { output_on(); } else { output_off(); } "" -}
@echo "Tests are not supported with your chosen Configure options"
@rem {- output_on() if !$disabled{tests}; "" -}
list-tests:
@rem {- output_off() if $disabled{tests}; "" -}
@set SRCTOP=$(SRCDIR)
@"$(PERL)" "$(SRCDIR)\test\run_tests.pl" list
@rem {- if ($disabled{tests}) { output_on(); } else { output_off(); } "" -}
@echo "Tests are not supported with your chosen Configure options"
@rem {- output_on() if !$disabled{tests}; "" -}
install: install_sw install_ssldirs install_docs
uninstall: uninstall_docs uninstall_sw
libclean:
"$(PERL)" -e "map { m/(.*)\.dll$$/; unlink glob """$$1.*"""; } @ARGV" $(SHLIBS)
"$(PERL)" -e "map { m/(.*)\.dll$$/; unlink glob """apps/$$1.*"""; } @ARGV" $(SHLIBS)
"$(PERL)" -e "map { m/(.*)\.dll$$/; unlink glob """test/$$1.*"""; } @ARGV" $(SHLIBS)
-del /Q /F $(LIBS)
-del /Q ossl_static.pdb
clean: libclean
-del /Q /F $(PROGRAMS) $(ENGINES) $(SCRIPTS)
-del /Q /F $(GENERATED)
-del /Q /S /F *.d
-del /Q /S /F *.obj
-del /Q /S /F *.pdb
-del /Q /S /F *.exp
-del /Q /S /F engines\*.ilk
-del /Q /S /F engines\*.lib
-del /Q /S /F apps\*.lib
-del /Q /S /F engines\*.manifest
-del /Q /S /F apps\*.manifest
-del /Q /S /F test\*.manifest
distclean: clean
-del /Q /F configdata.pm
-del /Q /F makefile
depend:
# Install helper targets #############################################
install_sw: all install_dev install_engines install_runtime
uninstall_sw: uninstall_runtime uninstall_engines uninstall_dev
install_docs: install_html_docs
uninstall_docs: uninstall_html_docs
install_ssldirs:
@"$(PERL)" "$(SRCDIR)\util\mkdir-p.pl" "$(OPENSSLDIR)\certs"
@"$(PERL)" "$(SRCDIR)\util\mkdir-p.pl" "$(OPENSSLDIR)\private"
@"$(PERL)" "$(SRCDIR)\util\mkdir-p.pl" "$(OPENSSLDIR)\misc"
@"$(PERL)" "$(SRCDIR)\util\copy.pl" "$(SRCDIR)\apps\openssl.cnf" \
"$(OPENSSLDIR)\openssl.cnf.dist"
@IF NOT EXIST "$(OPENSSLDIR)\openssl.cnf" \
"$(PERL)" "$(SRCDIR)\util\copy.pl" "$(SRCDIR)\apps\openssl.cnf" \
"$(OPENSSLDIR)\openssl.cnf"
@"$(PERL)" "$(SRCDIR)\util\copy.pl" $(MISC_SCRIPTS) \
"$(OPENSSLDIR)\misc"
install_dev:
@if "$(INSTALLTOP)"=="" ( echo INSTALLTOP should not be empty & exit 1 )
@echo *** Installing development files
@"$(PERL)" "$(SRCDIR)\util\mkdir-p.pl" "$(INSTALLTOP)\include\openssl"
@rem {- output_off() unless grep { $_ eq "OPENSSL_USE_APPLINK" } @{$target{defines}}; "" -}
@"$(PERL)" "$(SRCDIR)\util\copy.pl" "$(SRCDIR)\ms\applink.c" \
"$(INSTALLTOP)\include\openssl"
@rem {- output_on() unless grep { $_ eq "OPENSSL_USE_APPLINK" } @{$target{defines}}; "" -}
@"$(PERL)" "$(SRCDIR)\util\copy.pl" "$(SRCDIR)\include\openssl\*.h" \
"$(INSTALLTOP)\include\openssl"
@"$(PERL)" "$(SRCDIR)\util\copy.pl" $(BLDDIR)\include\openssl\*.h \
"$(INSTALLTOP)\include\openssl"
@"$(PERL)" "$(SRCDIR)\util\mkdir-p.pl" "$(INSTALLTOP)\$(LIBDIR)"
@"$(PERL)" "$(SRCDIR)\util\copy.pl" $(INSTALL_LIBS) \
"$(INSTALLTOP)\$(LIBDIR)"
@if "$(SHLIBS)"=="" \
"$(PERL)" "$(SRCDIR)\util\copy.pl" ossl_static.pdb \
"$(INSTALLTOP)\$(LIBDIR)"
uninstall_dev:
install_engines:
@if "$(INSTALLTOP)"=="" ( echo INSTALLTOP should not be empty & exit 1 )
@echo *** Installing engines
@"$(PERL)" "$(SRCDIR)\util\mkdir-p.pl" "$(ENGINESDIR)"
@if not "$(ENGINES)"=="" \
"$(PERL)" "$(SRCDIR)\util\copy.pl" $(INSTALL_ENGINES) "$(ENGINESDIR)"
@if not "$(ENGINES)"=="" \
"$(PERL)" "$(SRCDIR)\util\copy.pl" $(INSTALL_ENGINEPDBS) "$(ENGINESDIR)"
uninstall_engines:
install_runtime:
@if "$(INSTALLTOP)"=="" ( echo INSTALLTOP should not be empty & exit 1 )
@echo *** Installing runtime files
@"$(PERL)" "$(SRCDIR)\util\mkdir-p.pl" "$(INSTALLTOP)\bin"
@if not "$(SHLIBS)"=="" \
"$(PERL)" "$(SRCDIR)\util\copy.pl" $(INSTALL_SHLIBS) "$(INSTALLTOP)\bin"
@if not "$(SHLIBS)"=="" \
"$(PERL)" "$(SRCDIR)\util\copy.pl" $(INSTALL_SHLIBPDBS) \
"$(INSTALLTOP)\bin"
@"$(PERL)" "$(SRCDIR)\util\copy.pl" $(INSTALL_PROGRAMS) \
"$(INSTALLTOP)\bin"
@"$(PERL)" "$(SRCDIR)\util\copy.pl" $(INSTALL_PROGRAMPDBS) \
"$(INSTALLTOP)\bin"
@"$(PERL)" "$(SRCDIR)\util\copy.pl" $(BIN_SCRIPTS) \
"$(INSTALLTOP)\bin"
uninstall_runtime:
install_html_docs:
"$(PERL)" "$(SRCDIR)\util\process_docs.pl" \
"--destdir=$(INSTALLTOP)\html" --type=html
uninstall_html_docs:
# Building targets ###################################################
configdata.pm: "$(SRCDIR)\Configure" {- join(" ", map { '"'.$_.'"' } @{$config{build_file_templates}}, @{$config{build_infos}}, @{$config{conf_files}}) -}
@echo "Detected changed: $?"
@echo "Reconfiguring..."
"$(PERL)" "$(SRCDIR)\Configure" reconf
@echo "**************************************************"
@echo "*** ***"
@echo "*** Please run the same make command again ***"
@echo "*** ***"
@echo "**************************************************"
@exit 1
{-
use File::Basename;
use File::Spec::Functions qw/:DEFAULT abs2rel rel2abs/;
# Helper function to figure out dependencies on libraries
# It takes a list of library names and outputs a list of dependencies
sub compute_lib_depends {
if ($disabled{shared}) {
return map { $_.$libext } @_;
}
return map { shlib_import($_) } @_;
}
sub generatesrc {
my %args = @_;
(my $target = $args{src}) =~ s/\.[sS]$/.asm/;
my $generator = '"'.join('" "', @{$args{generator}}).'"';
my $generator_incs = join("", map { " -I \"$_\"" } @{$args{generator_incs}});
my $incs = join("", map { " /I \"$_\"" } @{$args{incs}});
my $deps = @{$args{deps}} ?
'"'.join('" "', @{$args{generator_deps}}, @{$args{deps}}).'"' : '';
if ($target !~ /\.asm$/) {
if ($args{generator}->[0] =~ m|^.*\.in$|) {
my $dofile = abs2rel(rel2abs(catfile($config{sourcedir},
"util", "dofile.pl")),
rel2abs($config{builddir}));
return <<"EOF";
$target: "$args{generator}->[0]" $deps
"\$(PERL)" "-I\$(BLDDIR)" -Mconfigdata "$dofile" \\
"-o$target{build_file}" $generator > \$@
EOF
} else {
return <<"EOF";
$target: "$args{generator}->[0]" $deps
"\$(PERL)"$generator_incs $generator > \$@
EOF
}
} else {
if ($args{generator}->[0] =~ /\.pl$/) {
$generator = '"$(PERL)"'.$generator_incs.' '.$generator;
} elsif ($args{generator}->[0] =~ /\.S$/) {
$generator = undef;
} else {
die "Generator type for $src unknown: $generator\n";
}
if (defined($generator)) {
# If the target is named foo.S in build.info, we want to
# end up generating foo.s in two steps.
if ($args{src} =~ /\.S$/) {
return <<"EOF";
$target: "$args{generator}->[0]" $deps
set ASM=\$(AS)
$generator \$@.S
\$(CC) $incs \$(CFLAGS) /EP /C \$@.S > \$@.i && move /Y \$@.i \$@
del /Q \$@.S
EOF
}
# Otherwise....
return <<"EOF";
$target: "$args{generator}->[0]" $deps
set ASM=\$(AS)
$generator \$@
EOF
}
return <<"EOF";
$target: "$args{generator}->[0]" $deps
\$(CC) $incs \$(CFLAGS) /EP /C "$args{generator}->[0]" > \$@.i && move /Y \$@.i \$@
EOF
}
}
sub src2obj {
my %args = @_;
my $obj = $args{obj};
my @srcs = map { (my $x = $_) =~ s/\.s$/.asm/; $x
} ( @{$args{srcs}} );
my $srcs = '"'.join('" "', @srcs).'"';
my $deps = '"'.join('" "', @srcs, @{$args{deps}}).'"';
my $incs = join("", map { ' /I "'.$_.'"' } @{$args{incs}});
unless ($disabled{zlib}) {
if ($withargs{zlib_include}) {
$incs .= ' /I "'.$withargs{zlib_include}.'"';
}
}
my $ecflags = { lib => '$(LIB_CFLAGS)',
dso => '$(DSO_CFLAGS)',
bin => '$(BIN_CFLAGS)' } -> {$args{intent}};
my $makedepprog = $config{makedepprog};
if ($srcs[0] =~ /\.asm$/) {
return <<"EOF";
$obj$objext: $deps
\$(AS) \$(ASFLAGS) \$(ASOUTFLAG)\$\@ $srcs
EOF
}
return <<"EOF" if (!$disabled{makedepend});
$obj$depext: $deps
\$(CC) \$(CFLAGS) $ecflags$inc /Zs /showIncludes $srcs 2>&1 | \\
"\$(PERL)" -n << > $obj$depext
chomp;
s/^Note: including file: *//;
\$\$collect{\$\$_} = 1;
END { print '$obj$objext: ',join(" ", sort keys \%collect),"\\n" }
<<
$obj$objext: $obj$depext
\$(CC) $incs \$(CFLAGS) $ecflags -c \$(COUTFLAG)\$\@ @<<
$srcs
<<
EOF
return <<"EOF" if ($disabled{makedepend});
$obj$objext: $deps
\$(CC) $incs \$(CFLAGS) $ecflags -c \$(COUTFLAG)\$\@ $srcs
EOF
}
# On Unix, we build shlibs from static libs, so we're ignoring the
# object file array. We *know* this routine is only called when we've
# configure 'shared'.
sub libobj2shlib {
my %args = @_;
my $lib = $args{lib};
my $shlib = $args{shlib};
(my $mkdef_key = $lib) =~ s/^lib//i;
my $objs = join("\n", map { $_.$objext } @{$args{objs}});
my $linklibs = join("",
map { "\n$_" } compute_lib_depends(@{$args{deps}}));
my $deps = join(" ",
(map { $_.$objext } @{$args{objs}}),
compute_lib_depends(@{$args{deps}}));
my $ordinalsfile = defined($args{ordinals}) ? $args{ordinals}->[1] : "";
my $mkdef_pl = abs2rel(rel2abs(catfile($config{sourcedir},
"util", "mkdef.pl")),
rel2abs($config{builddir}));
my $mkrc_pl = abs2rel(rel2abs(catfile($config{sourcedir},
"util", "mkrc.pl")),
rel2abs($config{builddir}));
my $target = shlib_import($lib);
return <<"EOF"
$target: $deps "$ordinalsfile" "$mkdef_pl"
"\$(PERL)" "$mkdef_pl" "$mkdef_key" 32 > $shlib.def
"\$(PERL)" -i.tmp -pe "s|^LIBRARY\\s+${mkdef_key}32|LIBRARY $shlib|;" $shlib.def
DEL $shlib.def.tmp
"\$(PERL)" "$mkrc_pl" $shlib$shlibext > $shlib.rc
\$(RC) \$(RCOUTFLAG)$shlib.res $shlib.rc
IF EXIST $shlib$shlibext.manifest DEL /F /Q $shlib$shlibext.manifest
\$(LD) \$(LDFLAGS) \$(LIB_LDFLAGS) \\
/implib:\$@ \$(LDOUTFLAG)$shlib$shlibext /def:$shlib.def @<< || (DEL /Q \$(\@B).* $shlib.* && EXIT 1)
$objs $shlib.res$linklibs \$(EX_LIBS)
<<
IF EXIST $shlib$shlibext.manifest \\
\$(MT) \$(MTFLAGS) \$(MTINFLAG)$shlib$shlibext.manifest \$(MTOUTFLAG)$shlib$shlibext
IF EXIST apps\\$shlib$shlibext DEL /Q /F apps\\$shlib$shlibext
IF EXIST test\\$shlib$shlibext DEL /Q /F test\\$shlib$shlibext
COPY $shlib$shlibext apps
COPY $shlib$shlibext test
EOF
}
sub obj2dso {
my %args = @_;
my $dso = $args{lib};
my $dso_n = basename($dso);
my $objs = join("\n", map { $_.$objext } @{$args{objs}});
my $linklibs = join("",
map { "\n$_" } compute_lib_depends(@{$args{deps}}));
my $deps = join(" ",
(map { $_.$objext } @{$args{objs}}),
compute_lib_depends(@{$args{deps}}));
return <<"EOF";
$dso$dsoext: $deps
IF EXIST $dso$dsoext.manifest DEL /F /Q $dso$dsoext.manifest
\$(LD) \$(LDFLAGS) \$(DSO_LDFLAGS) \$(LDOUTFLAG)$dso$dsoext /def:<< @<<
LIBRARY $dso_n
EXPORTS
bind_engine @1
v_check @2
<<
$objs$linklibs \$(EX_LIBS)
<<
IF EXIST $dso$dsoext.manifest \\
\$(MT) \$(MTFLAGS) \$(MTINFLAG)$dso$dsoext.manifest \$(MTOUTFLAG)$dso$dsoext
EOF
}
sub obj2lib {
# Because static libs and import libs are both named the same in native
# Windows, we can't have both. We skip the static lib in that case,
# as the shared libs are what we use anyway.
return "" unless $disabled{"shared"};
my %args = @_;
my $lib = $args{lib};
my $objs = join("\n", map { $_.$objext } @{$args{objs}});
my $deps = join(" ", map { $_.$objext } @{$args{objs}});
return <<"EOF";
$lib$libext: $deps
\$(AR) \$(ARFLAGS) \$(AROUTFLAG)$lib$libext @<<
\$**
<<
EOF
}
sub obj2bin {
my %args = @_;
my $bin = $args{bin};
my $objs = join("\n", map { $_.$objext } @{$args{objs}});
my $linklibs = join("",
map { "\n$_" } compute_lib_depends(@{$args{deps}}));
my $deps = join(" ",
(map { $_.$objext } @{$args{objs}}),
compute_lib_depends(@{$args{deps}}));
return <<"EOF";
$bin$exeext: $deps
IF EXIST $bin$exeext.manifest DEL /F /Q $bin$exeext.manifest
\$(LD) \$(LDFLAGS) \$(BIN_LDFLAGS) \$(LDOUTFLAG)$bin$exeext @<<
$objs setargv.obj$linklibs \$(EX_LIBS)
<<
IF EXIST $bin$exeext.manifest \\
\$(MT) \$(MTFLAGS) \$(MTINFLAG)$bin$exeext.manifest \$(MTOUTFLAG)$bin$exeext
EOF
}
sub in2script {
my %args = @_;
my $script = $args{script};
my $sources = '"'.join('" "', @{$args{sources}}).'"';
my $dofile = abs2rel(rel2abs(catfile($config{sourcedir},
"util", "dofile.pl")),
rel2abs($config{builddir}));
return <<"EOF";
$script: $sources
"\$(PERL)" "-I\$(BLDDIR)" -Mconfigdata "$dofile" \\
"-o$target{build_file}" $sources > "$script"
EOF
}
sub generatedir {
my %args = @_;
my $dir = $args{dir};
my @deps = map { s|\.o$|$objext|; $_ } @{$args{deps}};
my @actions = ();
my %extinfo = ( dso => $dsoext,
lib => $libext,
bin => $exeext );
foreach my $type (("dso", "lib", "bin", "script")) {
next unless defined($unified_info{dirinfo}->{$dir}->{products}->{$type});
# For lib object files, we could update the library. However,
# LIB on Windows doesn't work that way, so we won't create any
# actions for it, and the dependencies are already taken care of.
if ($type ne "lib") {
foreach my $prod (@{$unified_info{dirinfo}->{$dir}->{products}->{$type}}) {
if (dirname($prod) eq $dir) {
push @deps, $prod.$extinfo{$type};
} else {
push @actions, "\t@rem No support to produce $type ".join(", ", @{$unified_info{dirinfo}->{$dir}->{products}->{$type}});
}
}
}
}
my $deps = join(" ", @deps);
my $actions = join("\n", "", @actions);
return <<"EOF";
$args{dir} $args{dir}\\ : $deps$actions
EOF
}
"" # Important! This becomes part of the template result.
-}