mirror of
https://github.com/yuzu-emu/mbedtls.git
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bb5e1c3973
This PR fixes multiple issues in the source code to address issues raised by tests/scripts/check-files.py. Specifically: * incorrect file permissions * missing newline at the end of files * trailing whitespace * Tabs present * TODOs in the souce code
101 lines
4.7 KiB
Markdown
101 lines
4.7 KiB
Markdown
# mbed TLS Benchmark Example
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This application benchmarks the various cryptographic primitives offered by mbed TLS.
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## Pre-requisites
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To build and run this example you must have:
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* A computer with the following software installed:
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* [CMake](http://www.cmake.org/download/).
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* [yotta](https://github.com/ARMmbed/yotta). Please note that **yotta has its own set of dependencies**, listed in the [installation instructions](http://armmbed.github.io/yotta/#installing-on-windows).
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* [Python](https://www.python.org/downloads/).
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* [The ARM GCC toolchain](https://launchpad.net/gcc-arm-embedded).
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* A serial terminal emulator (Like screen, pySerial and cu).
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* An [FRDM-K64F](http://developer.mbed.org/platforms/FRDM-K64F/) development board, or another board supported by mbed OS (in which case you'll have to substitute frdm-k64f-gcc with the appropriate target in the instructions below).
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* A micro-USB cable.
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* If your OS is Windows, please follow the installation instructions [for the serial port driver](https://developer.mbed.org/handbook/Windows-serial-configuration).
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## Getting started
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1. Connect the FRDM-K64F to the computer with the micro-USB cable, being careful to use the "OpenSDA" connector on the target board.
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2. Navigate to the mbedtls directory supplied with your release and open a terminal.
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3. Set the yotta target:
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```
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yotta target frdm-k64f-gcc
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```
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4. Build mbedtls and the examples. This may take a long time if this is your first compilation:
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```
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$ yotta build
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```
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5. Copy `build/frdm-k64f-gcc/test/mbedtls-test-example-benchmark.bin` to your mbed board and wait until the LED next to the USB port stops blinking.
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6. Start the serial terminal emulator and connect to the virtual serial port presented by FRDM-K64F.
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Use the following settings:
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* 115200 baud (not 9600).
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* 8N1.
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* No flow control.
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7. Press the Reset button on the board.
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8. The output in the terminal window should look like:
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```
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{{timeout;150}}
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{{host_test_name;default}}
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{{description;mbed TLS benchmark program}}
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{{test_id;MBEDTLS_BENCHMARK}}
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{{start}}
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SHA-1 : 3644 KiB/s, 32 cycles/byte
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SHA-256 : 1957 KiB/s, 59 cycles/byte
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SHA-512 : 587 KiB/s, 200 cycles/byte
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AES-CBC-128 : 1359 KiB/s, 86 cycles/byte
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AES-CBC-192 : 1183 KiB/s, 99 cycles/byte
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AES-CBC-256 : 1048 KiB/s, 111 cycles/byte
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AES-GCM-128 : 421 KiB/s, 279 cycles/byte
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AES-GCM-192 : 403 KiB/s, 292 cycles/byte
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AES-GCM-256 : 385 KiB/s, 305 cycles/byte
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AES-CCM-128 : 542 KiB/s, 216 cycles/byte
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AES-CCM-192 : 484 KiB/s, 242 cycles/byte
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AES-CCM-256 : 437 KiB/s, 268 cycles/byte
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CTR_DRBG (NOPR) : 1002 KiB/s, 117 cycles/byte
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CTR_DRBG (PR) : 705 KiB/s, 166 cycles/byte
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HMAC_DRBG SHA-1 (NOPR) : 228 KiB/s, 517 cycles/byte
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HMAC_DRBG SHA-1 (PR) : 210 KiB/s, 561 cycles/byte
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HMAC_DRBG SHA-256 (NOPR) : 212 KiB/s, 557 cycles/byte
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HMAC_DRBG SHA-256 (PR) : 185 KiB/s, 637 cycles/byte
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RSA-2048 : 41 ms/ public
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RSA-2048 : 1349 ms/private
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RSA-4096 : 134 ms/ public
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RSA-4096 : 7149 ms/private
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ECDSA-secp384r1 : 640 ms/sign
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ECDSA-secp256r1 : 387 ms/sign
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ECDSA-secp384r1 : 1233 ms/verify
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ECDSA-secp256r1 : 751 ms/verify
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ECDHE-secp384r1 : 1191 ms/handshake
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ECDHE-secp256r1 : 730 ms/handshake
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ECDHE-Curve25519 : 611 ms/handshake
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ECDH-secp384r1 : 584 ms/handshake
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ECDH-secp256r1 : 365 ms/handshake
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ECDH-Curve25519 : 303 ms/handshake
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{{success}}
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{{end}}
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```
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Any performance data generated by this example application are indicative only of the performance of the mbed TLS module on the platform it's executed on.
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Differences in the integration of mbed TLS into the platform, such as whether all available hardware accelerators have been used or not, can lead to significant differences in performance, and so results from the program are not intended to be used to meaningfully compare platforms.
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The figures may also slightly change from execution to execution due to variations in the timing functions.
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