src/crypto/internal/boring/build.sh - go - Git at Google

 #!/bin/bash
 # Copyright 2020 The Go Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style
 # license that can be found in the LICENSE file.

 set -e
 id
 date
 export LANG=C
 unset LANGUAGE

 # Build BoringCrypto libcrypto.a.
 # Following https://csrc.nist.gov/CSRC/media/projects/cryptographic-module-validation-program/documents/security-policies/140sp3678.pdf page 19.

 tar xJf boringssl-*z

 # Go requires -fPIC for linux/amd64 cgo builds.
 # Setting -fPIC only affects the compilation of the non-module code in libcrypto.a,
 # because the FIPS module itself is already built with -fPIC.
 echo '#!/bin/bash
 exec clang-7 -fPIC "$@"
 ' >/usr/local/bin/clang
 echo '#!/bin/bash
 exec clang++-7 -fPIC "$@"
 ' >/usr/local/bin/clang++
 chmod +x /usr/local/bin/clang /usr/local/bin/clang++

 # The BoringSSL tests use Go, and cgo would look for gcc.
 export CGO_ENABLED=0

 # Verbatim instructions from BoringCrypto build docs.
 printf "set(CMAKE_C_COMPILER \"clang\")\nset(CMAKE_CXX_COMPILER \"clang++\")\n" >${HOME}/toolchain
 cd boringssl
 mkdir build && cd build && cmake -GNinja -DCMAKE_TOOLCHAIN_FILE=${HOME}/toolchain -DFIPS=1 -DCMAKE_BUILD_TYPE=Release ..
 ninja
 ninja run_tests

 cd ../..

 if [ "$(./boringssl/build/tool/bssl isfips)" != 1 ]; then
 	echo "NOT FIPS"
 	exit 2
 fi

 # Build and run test C++ program to make sure goboringcrypto.h matches openssl/*.h.
 # Also collect list of checked symbols in syms.txt
 set -x
 set -e
 cd godriver
 cat >goboringcrypto.cc <<'EOF'
 #include <cassert>
 #include "goboringcrypto0.h"
 #include "goboringcrypto1.h"
 #define check_size(t) if(sizeof(t) != sizeof(GO_ ## t)) {printf("sizeof(" #t ")=%d, but sizeof(GO_" #t ")=%d\n", (int)sizeof(t), (int)sizeof(GO_ ## t)); ret=1;}
 #define check_func(f) { auto x = f; x = _goboringcrypto_ ## f ; }
 #define check_value(n, v) if(n != v) {printf(#n "=%d, but goboringcrypto.h defines it as %d\n", (int)n, (int)v); ret=1;}
 int main() {
 int ret = 0;
 #include "goboringcrypto.x"
 return ret;
 }
 EOF

 awk '
 BEGIN {
 	exitcode = 0
 }

 # Ignore comments, #includes, blank lines.
 /^\/\// || /^#/ || NF == 0 { next }

 # Ignore unchecked declarations.
 /\/\*unchecked/ { next }

 # Check enum values.
 !enum && $1 == "enum" && $NF == "{" {
 	enum = 1
 	next
 }
 enum && $1 == "};" {
 	enum = 0
 	next
 }
 enum && NF == 3 && $2 == "=" {
 	name = $1
 	sub(/^GO_/, "", name)
 	val = $3
 	sub(/,$/, "", val)
 	print "check_value(" name ", " val ")" > "goboringcrypto.x"
 	next
 }
 enum {
 	print FILENAME ":" NR ": unexpected line in enum: " $0 > "/dev/stderr"
 	exitcode = 1
 	next
 }

 # Check struct sizes.
 /^typedef struct / && $NF ~ /^GO_/ {
 	name = $NF
 	sub(/^GO_/, "", name)
 	sub(/;$/, "", name)
 	print "check_size(" name ")" > "goboringcrypto.x"
 	next
 }

 # Check function prototypes.
 /^(const )?[^ ]+ \**_goboringcrypto_.*\(/ {
 	name = $2
 	if($1 == "const")
 		name = $3
 	sub(/^\**_goboringcrypto_/, "", name)
 	sub(/\(.*/, "", name)
 	print "check_func(" name ")" > "goboringcrypto.x"
 	print name > "syms.txt"
 	next
 }

 {
 	print FILENAME ":" NR ": unexpected line: " $0 > "/dev/stderr"
 	exitcode = 1
 }

 END {
 	exit exitcode
 }
 ' goboringcrypto.h

 cat goboringcrypto.h | awk '
 	/^\/\/ #include/ {sub(/\/\//, ""); print > "goboringcrypto0.h"; next}
 	/typedef struct|enum ([a-z_]+ )?{|^[ \t]/ {print;next}
 	{gsub(/GO_/, ""); gsub(/enum go_/, "enum "); print}
 ' >goboringcrypto1.h
 clang++ -std=c++11 -fPIC -I../boringssl/include -O2 -o a.out  goboringcrypto.cc
 ./a.out || exit 2

 # Prepare copy of libcrypto.a with only the checked functions renamed and exported.
 # All other symbols are left alone and hidden.
 echo BORINGSSL_bcm_power_on_self_test >>syms.txt
 awk '{print "_goboringcrypto_" $0 }' syms.txt >globals.txt
 awk '{print $0 " _goboringcrypto_" $0 }' syms.txt >renames.txt
 objcopy --globalize-symbol=BORINGSSL_bcm_power_on_self_test ../boringssl/build/crypto/libcrypto.a libcrypto.a

 # clang implements u128 % u128 -> u128 by calling __umodti3,
 # which is in libgcc. To make the result self-contained even if linking
 # against a different compiler version, link our own __umodti3 into the syso.
 # This one is specialized so it only expects divisors below 2^64,
 # which is all BoringCrypto uses. (Otherwise it will seg fault.)
 cat >umod.s <<'EOF'
 # tu_int __umodti3(tu_int x, tu_int y)
 # x is rsi:rdi, y is rcx:rdx, return result is rdx:rax.
 .globl __umodti3
 __umodti3:
 	# specialized to u128 % u64, so verify that
 	test %rcx,%rcx
 	jne 1f

 	# save divisor
 	movq %rdx, %r8

 	# reduce top 64 bits mod divisor
 	movq %rsi, %rax
 	xorl %edx, %edx
 	divq %r8

 	# reduce full 128-bit mod divisor
 	# quotient fits in 64 bits because top 64 bits have been reduced < divisor.
 	# (even though we only care about the remainder, divq also computes
 	# the quotient, and it will trap if the quotient is too large.)
 	movq %rdi, %rax
 	divq %r8

 	# expand remainder to 128 for return
 	movq %rdx, %rax
 	xorl %edx, %edx
 	ret

 1:
 	# crash - only want 64-bit divisor
 	xorl %ecx, %ecx
 	movl %ecx, 0(%ecx)
 	jmp 1b

 .section .note.GNU-stack,"",@progbits
 EOF
 clang -c -o umod.o umod.s

 ld -r -nostdlib --whole-archive -o goboringcrypto.o libcrypto.a umod.o
 echo __umodti3 _goboringcrypto___umodti3 >>renames.txt
 objcopy --remove-section=.llvm_addrsig goboringcrypto.o goboringcrypto1.o # b/179161016
 objcopy --redefine-syms=renames.txt goboringcrypto1.o goboringcrypto2.o
 objcopy --keep-global-symbols=globals.txt goboringcrypto2.o goboringcrypto_linux_amd64.syso

 # Done!
 ls -l goboringcrypto_linux_amd64.syso
 sha256sum goboringcrypto_linux_amd64.syso
	#!/bin/bash
	# Copyright 2020 The Go Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style
	# license that can be found in the LICENSE file.

	set -e
	id
	date
	export LANG=C
	unset LANGUAGE

	# Build BoringCrypto libcrypto.a.
	# Following https://csrc.nist.gov/CSRC/media/projects/cryptographic-module-validation-program/documents/security-policies/140sp3678.pdf page 19.

	tar xJf boringssl-*z

	# Go requires -fPIC for linux/amd64 cgo builds.
	# Setting -fPIC only affects the compilation of the non-module code in libcrypto.a,
	# because the FIPS module itself is already built with -fPIC.
	echo '#!/bin/bash
	exec clang-7 -fPIC "$@"
	' >/usr/local/bin/clang
	echo '#!/bin/bash
	exec clang++-7 -fPIC "$@"
	' >/usr/local/bin/clang++
	chmod +x /usr/local/bin/clang /usr/local/bin/clang++

	# The BoringSSL tests use Go, and cgo would look for gcc.
	export CGO_ENABLED=0

	# Verbatim instructions from BoringCrypto build docs.
	printf "set(CMAKE_C_COMPILER \"clang\")\nset(CMAKE_CXX_COMPILER \"clang++\")\n" >${HOME}/toolchain
	cd boringssl
	mkdir build && cd build && cmake -GNinja -DCMAKE_TOOLCHAIN_FILE=${HOME}/toolchain -DFIPS=1 -DCMAKE_BUILD_TYPE=Release ..
	ninja
	ninja run_tests

	cd ../..

	if [ "$(./boringssl/build/tool/bssl isfips)" != 1 ]; then
	echo "NOT FIPS"
	exit 2
	fi

	# Build and run test C++ program to make sure goboringcrypto.h matches openssl/*.h.
	# Also collect list of checked symbols in syms.txt
	set -x
	set -e
	cd godriver
	cat >goboringcrypto.cc <<'EOF'
	#include <cassert>
	#include "goboringcrypto0.h"
	#include "goboringcrypto1.h"
	#define check_size(t) if(sizeof(t) != sizeof(GO_ ## t)) {printf("sizeof(" #t ")=%d, but sizeof(GO_" #t ")=%d\n", (int)sizeof(t), (int)sizeof(GO_ ## t)); ret=1;}
	#define check_func(f) { auto x = f; x = _goboringcrypto_ ## f ; }
	#define check_value(n, v) if(n != v) {printf(#n "=%d, but goboringcrypto.h defines it as %d\n", (int)n, (int)v); ret=1;}
	int main() {
	int ret = 0;
	#include "goboringcrypto.x"
	return ret;
	}
	EOF

	awk '
	BEGIN {
	exitcode = 0
	}

	# Ignore comments, #includes, blank lines.
	/^\/\// \|\| /^#/ \|\| NF == 0 { next }

	# Ignore unchecked declarations.
	/\/\*unchecked/ { next }

	# Check enum values.
	!enum && $1 == "enum" && $NF == "{" {
	enum = 1
	next
	}
	enum && $1 == "};" {
	enum = 0
	next
	}
	enum && NF == 3 && $2 == "=" {
	name = $1
	sub(/^GO_/, "", name)
	val = $3
	sub(/,$/, "", val)
	print "check_value(" name ", " val ")" > "goboringcrypto.x"
	next
	}
	enum {
	print FILENAME ":" NR ": unexpected line in enum: " $0 > "/dev/stderr"
	exitcode = 1
	next
	}

	# Check struct sizes.
	/^typedef struct / && $NF ~ /^GO_/ {
	name = $NF
	sub(/^GO_/, "", name)
	sub(/;$/, "", name)
	print "check_size(" name ")" > "goboringcrypto.x"
	next
	}

	# Check function prototypes.
	/^(const )?[^ ]+ \*_goboringcrypto_.\(/ {
	name = $2
	if($1 == "const")
	name = $3
	sub(/^\**_goboringcrypto_/, "", name)
	sub(/\(.*/, "", name)
	print "check_func(" name ")" > "goboringcrypto.x"
	print name > "syms.txt"
	next
	}

	{
	print FILENAME ":" NR ": unexpected line: " $0 > "/dev/stderr"
	exitcode = 1
	}

	END {
	exit exitcode
	}
	' goboringcrypto.h

	cat goboringcrypto.h \| awk '
	/^\/\/ #include/ {sub(/\/\//, ""); print > "goboringcrypto0.h"; next}
	/typedef struct\|enum ([a-z_]+ )?{\|^[ \t]/ {print;next}
	{gsub(/GO_/, ""); gsub(/enum go_/, "enum "); print}
	' >goboringcrypto1.h
	clang++ -std=c++11 -fPIC -I../boringssl/include -O2 -o a.out goboringcrypto.cc
	./a.out \|\| exit 2

	# Prepare copy of libcrypto.a with only the checked functions renamed and exported.
	# All other symbols are left alone and hidden.
	echo BORINGSSL_bcm_power_on_self_test >>syms.txt
	awk '{print "_goboringcrypto_" $0 }' syms.txt >globals.txt
	awk '{print $0 " _goboringcrypto_" $0 }' syms.txt >renames.txt
	objcopy --globalize-symbol=BORINGSSL_bcm_power_on_self_test ../boringssl/build/crypto/libcrypto.a libcrypto.a

	# clang implements u128 % u128 -> u128 by calling __umodti3,
	# which is in libgcc. To make the result self-contained even if linking
	# against a different compiler version, link our own __umodti3 into the syso.
	# This one is specialized so it only expects divisors below 2^64,
	# which is all BoringCrypto uses. (Otherwise it will seg fault.)
	cat >umod.s <<'EOF'
	# tu_int __umodti3(tu_int x, tu_int y)
	# x is rsi:rdi, y is rcx:rdx, return result is rdx:rax.
	.globl __umodti3
	__umodti3:
	# specialized to u128 % u64, so verify that
	test %rcx,%rcx
	jne 1f

	# save divisor
	movq %rdx, %r8

	# reduce top 64 bits mod divisor
	movq %rsi, %rax
	xorl %edx, %edx
	divq %r8

	# reduce full 128-bit mod divisor
	# quotient fits in 64 bits because top 64 bits have been reduced < divisor.
	# (even though we only care about the remainder, divq also computes
	# the quotient, and it will trap if the quotient is too large.)
	movq %rdi, %rax
	divq %r8

	# expand remainder to 128 for return
	movq %rdx, %rax
	xorl %edx, %edx
	ret

	1:
	# crash - only want 64-bit divisor
	xorl %ecx, %ecx
	movl %ecx, 0(%ecx)
	jmp 1b

	.section .note.GNU-stack,"",@progbits
	EOF
	clang -c -o umod.o umod.s

	ld -r -nostdlib --whole-archive -o goboringcrypto.o libcrypto.a umod.o
	echo __umodti3 _goboringcrypto___umodti3 >>renames.txt
	objcopy --remove-section=.llvm_addrsig goboringcrypto.o goboringcrypto1.o # b/179161016
	objcopy --redefine-syms=renames.txt goboringcrypto1.o goboringcrypto2.o
	objcopy --keep-global-symbols=globals.txt goboringcrypto2.o goboringcrypto_linux_amd64.syso

	# Done!
	ls -l goboringcrypto_linux_amd64.syso
	sha256sum goboringcrypto_linux_amd64.syso