JacobBarthelmeh dd2b191c36 update version listed in wolfssl-fips.rc and Ada wrapper | 1 개월 전 | |
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.gitignore | 7 달 전 | |
README.md | 3 달 전 | |
ada_binding.c | 3 달 전 | |
alire.toml | 1 개월 전 | |
client.gpr | 1 년 전 | |
default.gpr | 7 달 전 | |
gnat.adc | 1 년 전 | |
include.am | 1 년 전 | |
spark_sockets.adb | 7 달 전 | |
spark_sockets.ads | 7 달 전 | |
spark_terminal.adb | 1 년 전 | |
spark_terminal.ads | 1 년 전 | |
tls_client.adb | 7 달 전 | |
tls_client.ads | 7 달 전 | |
tls_client_main.adb | 1 년 전 | |
tls_server.adb | 7 달 전 | |
tls_server.ads | 1 년 전 | |
tls_server_main.adb | 1 년 전 | |
user_settings.h | 2 달 전 | |
wolfssl.adb | 7 달 전 | |
wolfssl.ads | 7 달 전 | |
wolfssl.gpr | 8 달 전 |
The source code for the Ada/SPARK binding of the WolfSSL library is the WolfSSL Ada package in the wolfssl.ads and wolfssl.adb files.
The source code here also demonstrates a (D)TLS v1.3 server and client using the WolfSSL Ada binding. The implementation is cross-platform and compiles on Linux, Mac OS X and Windows.
Security: The WolfSSL Ada binding avoids usage of the Secondary Stack. The GNAT compiler has a number of hardening features for example Stack Scrubbing; the compiler can generate code to zero-out stack frames used by subprograms. Unfortunately this works well for the primary stack but not for the secondary stack. The GNAT User's Guide recommends avoiding the secondary stack using the restriction No_Secondary_Stack (see the GNAT configuration file gnat.adc which instructs compilation of the WolfSSL Ada binding under this restriction). Note, however, that the examples do make use of the secondary stack.
Portability: The WolfSSL Ada binding makes no usage of controlled types and has no dependency upon the Ada.Finalization package. Lighter Ada run-times for embedded systems often have the restriction No_Finalization. The WolfSSL Ada binding has been developed with maximum portability in mind.
Not only can the WolfSSL Ada binding be used in Ada applications but
also SPARK applications (a subset of the Ada language suitable
formal verification). To formally verify the Ada code in this repository
open the client.gpr with GNAT Studio and then select
SPARK -> Prove All Sources and use Proof Level 2. Or when using the command
line, use gnatprove -Pclient.gpr --level=4 -j12
(-j12
is there in
order to instruct the prover to use 12 CPUs if available).
Summary of SPARK analysis
=========================
---------------------------------------------------------------------------------------------------------------
SPARK Analysis results Total Flow CodePeer Provers Justified Unproved
---------------------------------------------------------------------------------------------------------------
Data Dependencies 2 2 . . . .
Flow Dependencies . . . . . .
Initialization 15 15 . . . .
Non-Aliasing . . . . . .
Run-time Checks 58 . . 58 (CVC4 85%, Trivial 15%) . .
Assertions 6 . . 6 (CVC4) . .
Functional Contracts 91 . . 91 (CVC4) . .
LSP Verification . . . . . .
Termination . . . . . .
Concurrency . . . . . .
---------------------------------------------------------------------------------------------------------------
Total 172 17 (10%) . 155 (90%) . .
Alire is a modern package manager for the Ada
ecosystem. The latest version is available for Windows, OSX, Linux and FreeBSD
systems. It can install a complete Ada toolchain if needed, see alr install
for more information.
In order to use WolfSSL in a project, just add WolfSSL as a dependency by
running alr with wolfssl
within your project's directory.
If the project is to be verified with SPARK, just add gnatprove
as a
dependency by running alr with gnatprove
and then running alr gnatprove
,
which will execute the SPARK solver. If you get warnings, it is recommended to
increase the prove level: alr gnatprove --level=4
.
In May 2022 AdaCore announced the end of the GNAT Community releases. Pre-built binaries for the GNAT FSF compiler and GPRBuild can be downloaded and manually installed from here: https://github.com/alire-project/GNAT-FSF-builds/releases Make sure the executables for the compiler and GPRBuild are on the PATH and use gprbuild to build the source code.
cd wrapper/Ada
gprclean
gprbuild default.gpr
gprbuild client.gpr
cd obj/
./tls_server_main &
./tls_client_main 127.0.0.1
On Windows, build the executables with:
gprbuild -XOS=Windows default.gpr
gprbuild -XOS=Windows client.gpr
The (D)TLS v1.3 client example in the Ada/SPARK programming language using the WolfSSL library can be found in the files: tls_client_main.adb tls_client.ads tls_client.adb
The (D)TLS v1.3 server example in the Ada/SPARK programming language using the WolfSSL library can be found in the files: tls_server_main.adb tls_server.ads tls_server.adb