| .. | ||
| 2018_2 | ||
| 2019_2 | ||
| include.am | ||
| README.md | ||
| user_settings.h | ||
| wolfssl_example.c | ||
Common Gotcha's
- If compiling all code together (ie no separate wolfssl library) than the -fPIC compiler flag should be used. Without using -fPIC in this build setup there could be unexpected failures.
- If building with ARMv8 crypto extensions then the compiler flags "-mstrict-align -mcpu=generic+crypto" must be used.
- Check that enough stack and heap memory is set for the operations if a crash or stall happens.
Xilinx SDK wolfCrypt Vitis 2018.2 Project
To use this example project:
- Start a new workspace
- Create a new BSP called
standalone_bsp_0. - Copy
.cprojectand.projectfrom IDE/XilinxSDK/2018_2 into the wolfSSL root. - From the Xilinx SDK Import wolfBoot using "Import" -> "Existing Projects into Workspace".
Detailed Instructions For Example Use With Vitis 2019.2
- Create a new workspace located in the directory wolfssl/IDE/XilinxSDK/2019_2
- Create a new BSP, by selecting;
- File->New->Platform Project
- Setting "Project name" to standalone_bsp_0, then click "Next"
- Select the "Create from hardware specification" radius and click "Next"
- "Browse..." to the desired XSA file for the hardware
- (optional) change Processor to R5 now
- click "Finish"
- (optional) If building for TLS support than expand the standalone_bsp_0 project, double click on platform_spr, Expand the cpu (i.e psu_cortexa53_0), click on Board Support Package, select the "Modify BSP Settings..." box and click on lwip211. Note that the api_mode should be changed from RAW API to SOCKET API.
- Right click on the standalone_bsp_0 project and click on "Build Project"
- Import the wolfcrypt example project "File->Import->Eclipse workspace or zip file"
- Uncheck "Copy projects into workspace"
- Select the root directory of
wolfssl/IDE/XilinxSDK/2019_2, and selectwolfCrypt_exampleandwolfCrypt_example_system. Then click "Finish"
Steps For Creating Project From Scratch
- Create a new workspace
- Create a new BSP, by selecting;
- File->New->Platform Project
- Setting "Project name" to standalone_bsp_0, then click "Next"
- Select the "Create from hardware specification" radius and click "Next"
- "Browse..." to the desired XSA file for the hardware
- (optional) change Processor to R5 now
- click "Finish"
- (optional) If building for TLS support than expand the standalone_bsp_0 project, double click on platform_spr, Expand the cpu (i.e psu_cortexa53_0), click on Board Support Package, select the "Modify BSP Settings..." box and click on lwip211. Note that the api_mode should be changed from RAW API to SOCKET API.
- Right click on the standalone_bsp_0 project and click on "Build Project"
- Create wolfssl project File->New->Application Project
- Name the project wolfCrypt_example, select "Next"
- For the platform select standalone_bsp_0 and click next, then next once more on Domain.
- Select "Empty Application" and click "Finish"
- Expand the wolfCrypt_example project and right click on the folder "src".
- Select "Import Sources" and set the "From directory" to be the wolfssl root directory.
- Select the folders to import as ./src, ./IDE/XilinxSDK, ./wolfcrypt/benchmark, ./wolfcrypt/test, ./wolfcrypt/src
- (optional) Expand the Advanced table and select "Create links in workspace"
- Click on "Finish"
- Expand the wolfcrypt/src directory and exclude all .S files from the build
- Right click on the wolfCrypt_example project and got to Properties. Set the macro
WOLFSSL_USER_SETTINGSin C/C++ Build->Settings->ARM v8 gcc compiler->Symbols - Set the include path for finding user_settings.h by going to the Properties and setting it in C/C++ Build->Settings->ARM v8 gcc compiler->Directories. This is to the directory wolfssl/IDE/XilinxSDK
- Set the include path for finding wolfSSL headers. To the root directory wolfssl
- Add compiler flags "-fPIC -mstrict-align -mcpu=generic+crypto" to the project properties. C/C++ Build->Settings->ARM v8 gcc compiler->Miscellaneous
- Right click on wolfCrypt_example and "Build Project"
Platform
Tested on the Zynq UltraScale+ MPSoC (ZUC102).
This is a bare-metal example for wolfCrypt only with algorithm support for:
- RNG
- RSA
- ECC
- AES-GCM
- ChaCha20
- Poly1305
- SHA2
- SHA3
- PBKDF2
Benchmark Results
------------------------------------------------------------------------------
wolfSSL version 4.3.0
------------------------------------------------------------------------------
wolfCrypt Benchmark (block bytes 1024, min sec each)
RNG 72 MB took 1.000 seconds, 72.388 MB/s
AES-128-GCM-enc 370 MB took 1.000 seconds, 370.312 MB/s
AES-128-GCM-dec 187 MB took 1.000 seconds, 187.451 MB/s
AES-192-GCM-enc 341 MB took 1.000 seconds, 341.382 MB/s
AES-192-GCM-dec 180 MB took 1.000 seconds, 179.663 MB/s
AES-256-GCM-enc 316 MB took 1.000 seconds, 316.382 MB/s
AES-256-GCM-dec 172 MB took 1.000 seconds, 172.485 MB/s
CHACHA 256 MB took 1.000 seconds, 255.859 MB/s
CHA-POLY 98 MB took 1.000 seconds, 97.559 MB/s
POLY1305 517 MB took 1.000 seconds, 516.895 MB/s
SHA-256 535 MB took 1.000 seconds, 534.595 MB/s
SHA-384 123 MB took 1.000 seconds, 123.291 MB/s
SHA-512 124 MB took 1.000 seconds, 123.657 MB/s
SHA3-224 70 MB took 1.000 seconds, 70.337 MB/s
SHA3-256 67 MB took 1.000 seconds, 66.528 MB/s
SHA3-384 53 MB took 1.000 seconds, 52.710 MB/s
SHA3-512 38 MB took 1.000 seconds, 37.598 MB/s
HMAC-SHA256 520 MB took 1.000 seconds, 520.093 MB/s
HMAC-SHA384 121 MB took 1.000 seconds, 121.265 MB/s
HMAC-SHA512 121 MB took 1.000 seconds, 121.289 MB/s
PBKDF2 28 KB took 1.000 seconds, 28.375 KB/s
ECC 256 key gen 8518 ops took 1.000 sec, avg 0.117 ms, 8518.000 ops/sec
ECDHE 256 agree 1818 ops took 1.000 sec, avg 0.550 ms, 1818.000 ops/sec
ECDSA 256 sign 4448 ops took 1.000 sec, avg 0.225 ms, 4448.000 ops/sec
ECDSA 256 verify 1430 ops took 1.000 sec, avg 0.699 ms, 1430.000 ops/sec
Benchmark complete
Benchmark Test: Return code 0