AES-NI performance

aesguy

Thanks all for the results, keep them coming!

Here are the results so far:

170926276.61k		gen 5 i5
91090845.70k	Zotac ZBOX ID92	Core i5 4570T
29080158.21k	hp microserver gen 8	Xeon 1265Lv2
24435715.51k		gen 5 i5
24345837.57k	Lanner FW-7525D	Quad-core Atom C2558 @ 2.40GHz
19462619.14k		SuperMicro 2758
18390712.32k	AM1	Athlon 5370
14241549.52k	pfSense SG-2440	Dual-core Atom C2358 @ 1.74GHz
7123763.20k	Raspberry Pi 3	ARMv7l

aesguy

AR15USR,

There doesn't seem any difference in your tests. Can you try running without the "-evp" option?

openssl speed aes-256-cbc

aesguy

Koenig,

Can you provide the make and model of your "gen 5 i5"?

aesguy

Here's an updated list of results:

170926276.61k		gen 5 i5	
91090845.70k	Zotac ZBOX ID92	Core i5 4570T	
42008576.00k	Gigabyte GA-N3150N-D3V board	Celeron N3150 with AES-NI	https://forum.pfsense.org/index.php?topic=108119.0
29080158.21k	hp microserver gen 8	Xeon 1265Lv2	
27986842.97k	Gigabyte GA-N3150N-D3V	Celeron N3150 with AES-NI	https://forum.pfsense.org/index.php?topic=105114.msg601520#msg601520
24435715.51k		gen 5 i5	
24345837.57k	Lanner FW-7525D	Quad-core Atom C2558 @ 2.40GHz	
19462619.14k		SuperMicro 2758	
18390712.32k	AM1	Athlon 5370	
14241549.52k	pfSense SG-2440	Dual-core Atom C2358 @ 1.74GHz	
7123763.20k	Raspberry Pi 3	ARMv7l	
405686.95k	Intel i7-4510U + 2x Intel 82574 + 2x Intel i350 Mini-ITX Build		https://forum.pfsense.org/index.php?topic=115627.msg646395#msg646395
230708.57k	ci323 nano u	Celeron N3150 with AES-NI w/ -engine cryptodev	https://forum.pfsense.org/index.php?topic=115673.msg656602#msg656602
217617.75k	RCC-VE 2440	Intel Atom C2358	https://forum.pfsense.org/index.php?topic=91974.0
124788.74k	ALIX.APU2B4/APU2C4	1 GHz Quad Core AMD GX-412TC	http://wiki.ipfire.org/en/hardware/pcengines/apu2b4
34204.33k	ALIX.APU1C/APU1D	1 GHz Dual Core AMD G-T40E	http://wiki.ipfire.org/en/hardware/pcengines/apu1c

Koenig

@aesguy:

Koenig,

Can you provide the make and model of your "gen 5 i5"?

There's no brand or model on it…

Something like this: https://www.aliexpress.com/item/Fanless-PC-Intel-NUC-Core-i7-5500u-i5-5257u-Iris-6100-Barebone-Mini-PC-Windows-2HDMI/32755490163.html?spm=2114.01010208.3.100.Dtd346&ws_ab_test=searchweb0_0,searchweb201602_2_10091_10090_10088_10089,searchweb201603_1&btsid=6d47dcd0-df75-47e8-84cf-86813f160f8e

Some more results:

aes-256-cbc 99810.65k 375805.41k 1454872.58k 4844784.55k 28507460.95k

aes-256-cbc 62518.77k 350371.84k 1217122.52k 5055197.38k 34182738.74k

aes-256-cbc 76404.78k 341786.43k 1224697.10k 4425564.16k 34284240.90k

aes-256-cbc 91091.47k 242748.12k 1191453.72k 5068092.37k 85483061.25k

aes-256-cbc 100148.30k 299186.69k 1330803.04k 6668591.10k 86076555.26k

aes-256-cbc 105877.45k 377916.58k 1538361.48k 6694084.61k 57179897.86k

aes-256-cbc 84355.12k 320069.81k 1420017.17k 6647087.10k 57598978.73k

aes-256-cbc 106102.67k 260300.35k 1792681.83k 9638188.87k 34206646.27k

All from the same machine.

Derelict

14241549.52k pfSense SG-2440 Dual-core Atom C2358 @ 1.74GHz
217617.75k RCC-VE 2440 Intel Atom C2358 https://forum.pfsense.org/index.php?topic=91974.0

Obviously something off there.

bytesizedalex

First my system details -

System: Netgate SG-4860
Version: 2.3.2-RELEASE-p1 (amd64) built on Fri Sep 30 14:36:56 CDT 2016 FreeBSD 10.3-RELEASE-p9
CPU Type: Intel(R) Atom(TM) CPU C2558 @ 2.40GHz 4 CPUs: 1 package(s) x 4 core(s)
Hardware crypto: AES-CBC,AES-XTS,AES-GCM,AES-ICM

Results (system pretty active so possibility for skewed results) -

[2.3.2-RELEASE][admin@pfSense.localdomain]/root: openssl speed -evp aes-256-cbc
Doing aes-256-cbc for 3s on 16 size blocks: 984814 aes-256-cbc's in 0.35s
Doing aes-256-cbc for 3s on 64 size blocks: 920037 aes-256-cbc's in 0.30s
Doing aes-256-cbc for 3s on 256 size blocks: 759776 aes-256-cbc's in 0.26s
Doing aes-256-cbc for 3s on 1024 size blocks: 452100 aes-256-cbc's in 0.15s
Doing aes-256-cbc for 3s on 8192 size blocks: 92821 aes-256-cbc's in 0.03s
OpenSSL 1.0.1s-freebsd 1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx)
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes
aes-256-cbc 44819.98k 193254.95k 754434.54k 3118823.75k 24332468.22k

AR15USR

@aesguy:

AR15USR,

There doesn't seem any difference in your tests. Can you try running without the "-evp" option?
openssl speed aes-256-cbc

/root: openssl speed aes-256-cbc
Doing aes-256 cbc for 3s on 16 size blocks: 5517180 aes-256 cbc's in 3.01s
Doing aes-256 cbc for 3s on 64 size blocks: 1544753 aes-256 cbc's in 3.00s
Doing aes-256 cbc for 3s on 256 size blocks: 399657 aes-256 cbc's in 3.00s
Doing aes-256 cbc for 3s on 1024 size blocks: 258521 aes-256 cbc's in 3.00s
Doing aes-256 cbc for 3s on 8192 size blocks: 32712 aes-256 cbc's in 2.99s
OpenSSL 1.0.1s-freebsd  1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx) 
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type             16 bytes     64 bytes    256 bytes   1024 bytes   8192 bytes
aes-256 cbc      29348.53k    32954.73k    34104.06k    88241.83k    89558.79k

For comparison:

/root: openssl speed -evp aes-256-cbc
Doing aes-256-cbc for 3s on 16 size blocks: 957210 aes-256-cbc's in 0.39s
Doing aes-256-cbc for 3s on 64 size blocks: 893869 aes-256-cbc's in 0.24s
Doing aes-256-cbc for 3s on 256 size blocks: 751299 aes-256-cbc's in 0.27s
Doing aes-256-cbc for 3s on 1024 size blocks: 450002 aes-256-cbc's in 0.10s
Doing aes-256-cbc for 3s on 8192 size blocks: 92472 aes-256-cbc's in 0.02s
OpenSSL 1.0.1s-freebsd  1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx) 
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type             16 bytes     64 bytes    256 bytes   1024 bytes   8192 bytes
aes-256-cbc      39207.32k   236212.09k   724075.46k  4537127.86k 32321306.62k

damir

I have no idea what it means, and how good or bad output is, as i do not understand this, but, i thought lets try on my box :)

any good?

[2.3.2-RELEASE][admin@pfSense]/root: openssl speed aes-256-cbc
Doing aes-256 cbc for 3s on 16 size blocks: 12830479 aes-256 cbc's in 3.00s
Doing aes-256 cbc for 3s on 64 size blocks: 3389641 aes-256 cbc's in 3.00s
Doing aes-256 cbc for 3s on 256 size blocks: 
858407 aes-256 cbc's in 3.00s
Doing aes-256 cbc for 3s on 1024 size blocks: 217919 aes-256 cbc's in 3.03s
Doing aes-256 cbc for 3s on 8192 size blocks: 27176 aes-256 cbc's in 3.02s
OpenSSL 1.0.1s-freebsd  1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx) 
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type             16 bytes     64 bytes    256 bytes   1024 bytes   8192 bytes
aes-256 cbc      68429.22k    72312.34k    73250.73k    73616.18k    73633.34k


[2.3.2-RELEASE][admin@pfSense]/root:  openssl speed -evp aes-256-cbc
Doing aes-256-cbc for 3s on 16 size blocks: 77185949 aes-256-cbc's in 3.00s
Doing aes-256-cbc for 3s on 64 size blocks: 20190084 aes-256-cbc's in 3.00s
Doing aes-256-cbc for 3s on 256 size blocks: 5139740 aes-256-cbc's in 3.02s
Doing aes-256-cbc for 3s on 1024 size blocks: 1286608 aes-256-cbc's in 3.02s
Doing aes-256-cbc for 3s on 8192 size blocks: 160088 aes-256-cbc's in 3.00s
OpenSSL 1.0.1s-freebsd  1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx) 
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type             16 bytes     64 bytes    256 bytes   1024 bytes   8192 bytes
aes-256-cbc     411658.39k   430721.79k   435191.22k   436886.75k   437146.97k

tnx

Derelict

~~Means you don't have AES-NI or it is disabled or ?

The first 3 secs indicates clock time. The second time interval indicates CPU time. Note that on the accelerated systems they are performing operations on more data in < 1/10 the CPU time.~~ Don't listen to that guy.

Engineer

SuperMicro with Intel N3700. Not bad for a 6W CPU (System pulls 11 Watts from the wall).

$ openssl speed -evp aes-256-cbc
Doing aes-256-cbc for 3s on 16 size blocks: 991459 aes-256-cbc's in 0.25s
Doing aes-256-cbc for 3s on 64 size blocks: 971848 aes-256-cbc's in 0.26s
Doing aes-256-cbc for 3s on 256 size blocks: 785303 aes-256-cbc's in 0.28s
Doing aes-256-cbc for 3s on 1024 size blocks: 393543 aes-256-cbc's in 0.16s
Doing aes-256-cbc for 3s on 8192 size blocks: 92318 aes-256-cbc's in 0.02s
OpenSSL 1.0.1l-freebsd 15 Jan 2015
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx)
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes
aes-256-cbc 63453.38k 241253.90k 714800.24k 2579123.40k 32267479.72k

aesguy

@Koenig: thanks, I've labelled it as Unknown(China)

@Derelict: I'm taking an indiscriminate method and keeping all data points provided. It might be due to the OS version, random timing, etc.

@bytesizedalex: thanks and added to the list

@AR15USR: as I suspected - OpenSSL -evp determines itself whether AES-NI is present and uses it - doesn't matter what you set in pfsense.

@NEK4TE: can you provide what your box & CPU are?

@Engineer: which Supermicro box is it?

aesguy

Updated results list:

170926276.61k	unknown (China)	gen 5 i5	
91090845.70k	Zotac ZBOX ID92	Core i5 4570T	
42008576.00k	Gigabyte GA-N3150N-D3V board	Celeron N3150 with AES-NI	https://forum.pfsense.org/index.php?topic=108119.0
32321306.62k	SuperMicro 2758		
32267479.72k	Supermicro	Intel N3700	
29080158.21k	hp microserver gen 8	Xeon 1265Lv2	
27986842.97k	Gigabyte GA-N3150N-D3V	Celeron N3150 with AES-NI	https://forum.pfsense.org/index.php?topic=105114.msg601520#msg601520
24435715.51k	unknown (China)	gen 5 i5	
24345837.57k	Lanner FW-7525D	Quad-core Atom C2558 @ 2.40GHz	
24332468.22k	Netgate SG-4860  	Intel(R) Atom(TM) CPU C2558 @ 2.40GHz 4 CPUs	
19462619.14k	SuperMicro 2758		
18390712.32k	AM1	Athlon 5370	
14241549.52k	pfSense SG-2440	Dual-core Atom C2358 @ 1.74GHz	
7123763.20k	Raspberry Pi 3	ARMv7l	
405686.95k	Intel i7-4510U + 2x Intel 82574 + 2x Intel i350 Mini-ITX Build		https://forum.pfsense.org/index.php?topic=115627.msg646395#msg646395
230708.57k	ci323 nano u	Celeron N3150 with AES-NI w/ -engine cryptodev	https://forum.pfsense.org/index.php?topic=115673.msg656602#msg656602
217617.75k	RCC-VE 2440	Intel Atom C2358	https://forum.pfsense.org/index.php?topic=91974.0
124788.74k	ALIX.APU2B4/APU2C4	1 GHz Quad Core AMD GX-412TC	http://wiki.ipfire.org/en/hardware/pcengines/apu2b4
34204.33k	ALIX.APU1C/APU1D	1 GHz Dual Core AMD G-T40E	http://wiki.ipfire.org/en/hardware/pcengines/apu1c

biggsy

iorx,

Interested to see you're running the same processor in a Microserver Gen 8 as I do.

Mine is running ESXi 6.0 though and produces slightly different numbers:

[2.3.2-RELEASE] /root: openssl speed -evp aes-256-cbc
Doing aes-256-cbc for 3s on 16 size blocks: 1767436 aes-256-cbc's in 0.38s
Doing aes-256-cbc for 3s on 64 size blocks: 1616969 aes-256-cbc's in 0.35s
Doing aes-256-cbc for 3s on 256 size blocks: 1308617 aes-256-cbc's in 0.27s
Doing aes-256-cbc for 3s on 1024 size blocks: 723750 aes-256-cbc's in 0.13s
Doing aes-256-cbc for 3s on 8192 size blocks: 143766 aes-256-cbc's in 0.01s
OpenSSL 1.0.1s-freebsd  1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx)
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type             16 bytes     64 bytes    256 bytes   1024 bytes   8192 bytes
aes-256-cbc      75410.60k   294360.22k  1225164.62k  5580197.65k 150749577.22k

@iorx:

Hi!

For fun or reference :). A Hyper-v hosted pfsense on a hp microserver gen 8 with a Xeon 1265Lv2.


[2.3.2-RELEASE][n23]/root: openssl speed -evp aes-256-cbc
Doing aes-256-cbc for 3s on 16 size blocks: 1084848 aes-256-cbc's in 0.45s
Doing aes-256-cbc for 3s on 64 size blocks: 1345250 aes-256-cbc's in 0.24s
Doing aes-256-cbc for 3s on 256 size blocks: 709374 aes-256-cbc's in 0.23s
Doing aes-256-cbc for 3s on 1024 size blocks: 472042 aes-256-cbc's in 0.19s
Doing aes-256-cbc for 3s on 8192 size blocks: 110932 aes-256-cbc's in 0.03s
OpenSSL 1.0.1s-freebsd  1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx)
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type             16 bytes     64 bytes    256 bytes   1024 bytes   8192 bytes
aes-256-cbc      38978.40k   355493.16k   774825.57k  2577978.71k 29080158.21k

Engineer

@aesguy:

@Engineer: which Supermicro box is it?

SuperMicro Board: X11SBA-LN4F with Intel N3700.

Running 2.2.5 and whatever FreeBSD version comes with it but not sure if there have been improvements in the newer versions or not.

Just re-ran the test with nobody using the Internet (wife and two kids on Facebook, snapchat, youtube, etc. really change the results) and got this….

$ openssl speed -evp aes-256-cbc
Doing aes-256-cbc for 3s on 16 size blocks: 951002 aes-256-cbc's in 0.28s
Doing aes-256-cbc for 3s on 64 size blocks: 961593 aes-256-cbc's in 0.26s
Doing aes-256-cbc for 3s on 256 size blocks: 770095 aes-256-cbc's in 0.23s
Doing aes-256-cbc for 3s on 1024 size blocks: 454015 aes-256-cbc's in 0.14s
Doing aes-256-cbc for 3s on 8192 size blocks: 92419 aes-256-cbc's in 0.02s
OpenSSL 1.0.1l-freebsd 15 Jan 2015
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx)
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes
aes-256-cbc 54101.45k 238708.18k 870154.24k 3306036.34k 48454172.67k

Makes more sense compared to the N3150 in the chart now.

AR15USR

@aesguy, here's the stats on my board if you want them:
Intel(R) Atom(TM) CPU C2758 @ 2.40GHz 8 CPUs

/root: openssl speed -evp aes-256-cbc
Doing aes-256-cbc for 3s on 16 size blocks: 944591 aes-256-cbc's in 0.33s
Doing aes-256-cbc for 3s on 64 size blocks: 888807 aes-256-cbc's in 0.26s
Doing aes-256-cbc for 3s on 256 size blocks: 743989 aes-256-cbc's in 0.23s
Doing aes-256-cbc for 3s on 1024 size blocks: 445355 aes-256-cbc's in 0.11s
Doing aes-256-cbc for 3s on 8192 size blocks: 92224 aes-256-cbc's in 0.02s
OpenSSL 1.0.1s-freebsd  1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx) 
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type             16 bytes     64 bytes    256 bytes   1024 bytes   8192 bytes
aes-256-cbc      46060.06k   220639.60k   840656.26k  4169540.75k 48351936.51k

VAMike

I'm amazed that nobody has pointed out yet that most of these results are COMPLETELY BOGUS. If you have an openssl speed test result based on a time of less than 3 seconds, your result is invalid. What's happening is that openssl by default bases its time on the cpu time registered to the ssl process rather than the elapsed time, because when using software encryption on a loaded system you may not get 100% of the cpu and using the cpu time figure gives a better accounting of the work actually done. But when using the freebsd crypto device most of the work is done in kernel space rather than user space, so the cpu time measurement consists entirely of the time spent making system calls. BUT YOU DID NOT ACTUALLY GET THREE SECONDS OF COMPUTATION DONE IN .01 SECONDS!!!! If using the freebsd crypto device you MUST add -elapsed to the command line to get a better idea of the real performance. If you do not, you are basing your conclusions on a meaningless number.

A simple sanity check will conclude that many (most?) of the results listed here suggest that the machines are performing crypto at a rate greater than their theoretical peak performance (based on the number of operations performed * clock rate of the machine). Any result that shows 170GB/s of work performed by a commodity PC is OBVIOUSLY INCORRECT. A report of 48GByte/s on an atom with a 25GB/s memory implementation is OBVIOUSLY INCORRECT.

It's been hard to get people to stop using the freebsd crypto interface because they really, really want these numbers to be true. But if you compare openssl performance with and without cryptodev on an AES-NI system USING THE REAL NUMBERS you'll find that cryptodev is slower than openssl's native AES-NI (it basically has to be, because they're doing the same crypto operations, but the kernel module has a penalty for going into an out of kernel space).

The real fastest implementation of AES-NI that I'm aware of is with AES GCM on the skylake core, where you should see somewhere in the neighborhood of 6GByte/s/core depending on the clock speed. (Yes, a commodity skylake desktop will completely stomp a broadwell xeon; can't wait to see the skylake xeons.) The GCM implementation on the later intel cores is significantly faster than CBC at larger block sizes when PCLMULQDQ is available.

aesguy

VAMike said:

"But when using the freebsd crypto device most of the work is done in kernel space rather than user space, so the cpu time measurement consists entirely of the time spent making system calls."

It does not appear that the crypto device is being used - OpenSSL invokes the appropriate CPU instructions directly. For example, on ARMv8, the AESE instruction is invoked directly: https://github.com/openssl/openssl/blob/master/crypto/aes/asm/aesv8-armx.pl

Secondly, we see evidence to support this - it matters not whether you set AES-NI in pfsense but rather does matter whether you invoke openssl with "-evp" or not.

I am not convinced that your assumption about kernel vs userland is valid. And therefore that these numbers are not as meaningless as you think.

Engineer

Out of curiosity, I added the -elapsed option to the original speed test and the results fell dramatically. I have never looked at or tried to understand the results, I was simply running the test and passing the supplied results on.

$ openssl speed -evp aes-256-cbc -elapsed
You have chosen to measure elapsed time instead of user CPU time.
Doing aes-256-cbc for 3s on 16 size blocks: 1006598 aes-256-cbc's in 3.02s
Doing aes-256-cbc for 3s on 64 size blocks: 965281 aes-256-cbc's in 3.00s
Doing aes-256-cbc for 3s on 256 size blocks: 779226 aes-256-cbc's in 3.02s
Doing aes-256-cbc for 3s on 1024 size blocks: 458171 aes-256-cbc's in 3.00s
Doing aes-256-cbc for 3s on 8192 size blocks: 92570 aes-256-cbc's in 3.01s
OpenSSL 1.0.1l-freebsd 15 Jan 2015
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx)
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes
aes-256-cbc 5326.91k 20592.66k 65978.50k 156389.03k 252121.25k

I have run the test multiple times now and the results are very repeatable. Without the -elapsed option, the numbers are all over the place but MUCH higher. I'm not going to argue whether the other results are real or not as I don't know enough one way or the other. Just passing on the results with and without the -elapsed command line option for others to evaluate.

VAMike

@aesguy:

It does not appear that the crypto device is being used - OpenSSL invokes the appropriate CPU instructions directly. For example, on ARMv8, the AESE instruction is invoked directly: https://github.com/openssl/openssl/blob/master/crypto/aes/asm/aesv8-armx.pl

Secondly, we see evidence to support this - it matters not whether you set AES-NI in pfsense but rather does matter whether you invoke openssl with "-evp" or not.

[2.3.2-RELEASE][admin@pfSense.localdomain]/root: openssl speed -evp aes-128-cbc
Doing aes-128-cbc for 3s on 16 size blocks: 1439217 aes-128-cbc's in 0.37s
Doing aes-128-cbc for 3s on 64 size blocks: 1282244 aes-128-cbc's in 0.30s
Doing aes-128-cbc for 3s on 256 size blocks: 1185939 aes-128-cbc's in 0.26s
Doing aes-128-cbc for 3s on 1024 size blocks: 773748 aes-128-cbc's in 0.20s
Doing aes-128-cbc for 3s on 8192 size blocks: 272141 aes-128-cbc's in 0.11s
OpenSSL 1.0.1s-freebsd 1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx)
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes
aes-128-cbc 62713.12k 276424.81k 1177601.49k 3900642.23k 20382894.37k

so there are the bogus numbers; there's no way this hardware is doing 20GByte/s of crypto. Let's see what happens with -elapsed:

[2.3.2-RELEASE][admin@pfSense.localdomain]/root: openssl speed -elapsed -evp aes-128-cbc
You have chosen to measure elapsed time instead of user CPU time.
Doing aes-128-cbc for 3s on 16 size blocks: 1392190 aes-128-cbc's in 3.03s
Doing aes-128-cbc for 3s on 64 size blocks: 1415484 aes-128-cbc's in 3.01s
Doing aes-128-cbc for 3s on 256 size blocks: 1560350 aes-128-cbc's in 3.02s
Doing aes-128-cbc for 3s on 1024 size blocks: 1176285 aes-128-cbc's in 3.01s
Doing aes-128-cbc for 3s on 8192 size blocks: 314815 aes-128-cbc's in 3.00s
OpenSSL 1.0.1s-freebsd 1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx)
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes
aes-128-cbc 7348.47k 30118.56k 132117.70k 400462.41k 859654.83k

Now those are believable numbers. A bit low, but this is in a VM. Also note just how tremendously bad the performance is with small block sizes–that's the overhead of the context switches. If your theory is that cryptodev isn't relevant, let's just unload it:

[2.3.2-RELEASE][admin@pfSense.localdomain]/root: kldunload aesni
[2.3.2-RELEASE][admin@pfSense.localdomain]/root: openssl speed -evp aes-128-cbc
Doing aes-128-cbc for 3s on 16 size blocks: 197582147 aes-128-cbc's in 2.82s
Doing aes-128-cbc for 3s on 64 size blocks: 49253757 aes-128-cbc's in 2.72s
Doing aes-128-cbc for 3s on 256 size blocks: 12996564 aes-128-cbc's in 2.82s
Doing aes-128-cbc for 3s on 1024 size blocks: 3230639 aes-128-cbc's in 2.77s
Doing aes-128-cbc for 3s on 8192 size blocks: 399946 aes-128-cbc's in 2.72s
OpenSSL 1.0.1s-freebsd 1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx)
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes
aes-128-cbc 1120909.24k 1159444.76k 1179699.19k 1192806.52k 1205097.06k
[2.3.2-RELEASE][admin@pfSense.localdomain]/root: openssl speed -elapsed -evp aes-128-cbc
You have chosen to measure elapsed time instead of user CPU time.
Doing aes-128-cbc for 3s on 16 size blocks: 172665690 aes-128-cbc's in 3.00s
Doing aes-128-cbc for 3s on 64 size blocks: 49500772 aes-128-cbc's in 3.00s
Doing aes-128-cbc for 3s on 256 size blocks: 9678881 aes-128-cbc's in 3.00s
Doing aes-128-cbc for 3s on 1024 size blocks: 2480302 aes-128-cbc's in 3.01s
Doing aes-128-cbc for 3s on 8192 size blocks: 344003 aes-128-cbc's in 3.06s
OpenSSL 1.0.1s-freebsd 1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx)
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes
aes-128-cbc 920883.68k 1056016.47k 825931.18k 844410.76k 920186.96k

Note that the wall clock and cpu clock results are much closer, and the numbers are actually plausible. The overhead of the context switches went away, and the performance is much, much better for small block sizes. You can also sanity check by ignoring the bandwidth summary and looking at the initial status output: with cryptodev it did about 1.4M small block operations in 3 seconds, and without cryptodev it did close to 200M small block operations in 3 seconds. There is no way in reality that 1.4M operations in 3s is better than 200M operations in 3s, unless you're measuring something wrong.

Another test–AES GCM isn't implemented in cryptodev so let's put the module back and see what happens:

[2.3.2-RELEASE][admin@pfSense.localdomain]/root: kldload aesni
[2.3.2-RELEASE][admin@pfSense.localdomain]/root: openssl speed -evp aes-128-gcm
Doing aes-128-gcm for 3s on 16 size blocks: 96121725 aes-128-gcm's in 2.76s
Doing aes-128-gcm for 3s on 64 size blocks: 39512692 aes-128-gcm's in 2.84s
Doing aes-128-gcm for 3s on 256 size blocks: 14260288 aes-128-gcm's in 2.95s
Doing aes-128-gcm for 3s on 1024 size blocks: 3360255 aes-128-gcm's in 2.74s
Doing aes-128-gcm for 3s on 8192 size blocks: 485825 aes-128-gcm's in 2.49s
OpenSSL 1.0.1s-freebsd 1 Mar 2016
built on: date not available
options:bn(64,64) rc4(16x,int) des(idx,cisc,16,int) aes(partial) idea(int) blowfish(idx)
compiler: clang
The 'numbers' are in 1000s of bytes per second processed.
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes
aes-128-gcm 557669.38k 891702.40k 1239472.46k 1254801.55k 1596941.80k

Plausible results again, with the proper relationship between the non-cryptodev CBC and the GCM results. (Though much slower than it should be on this hardware. I don't know if that's an artifact of the VM or the fact that pfsense has an older version of openssl.) Something newer on the bare hardware:

openssl speed -evp aes-128-gcm

Doing aes-128-gcm for 3s on 16 size blocks: 116930558 aes-128-gcm's in 3.00s
Doing aes-128-gcm for 3s on 64 size blocks: 66316891 aes-128-gcm's in 3.00s
Doing aes-128-gcm for 3s on 256 size blocks: 32782942 aes-128-gcm's in 2.99s
Doing aes-128-gcm for 3s on 1024 size blocks: 12712095 aes-128-gcm's in 3.00s
Doing aes-128-gcm for 3s on 8192 size blocks: 2004498 aes-128-gcm's in 3.00s
Doing aes-128-gcm for 3s on 16384 size blocks: 875464 aes-128-gcm's in 3.00s
OpenSSL 1.1.0c 10 Nov 2016
built on: reproducible build, date unspecified
options:bn(64,64) rc4(16x,int) des(int) aes(partial) blowfish(ptr)
compiler: gcc -DDSO_DLFCN -DHAVE_DLFCN_H -DNDEBUG -DOPENSSL_THREADS -DOPENSSL_NO_STATIC_ENGINE -DOPENSSL_PIC -DOPENSSL_IA32_SSE2 -DOPENSSL_BN_ASM_MONT -DOPENSSL_BN_ASM_MONT5 -DOPENSSL_BN_ASM_GF2m -DSHA1_ASM -DSHA256_ASM -DSHA512_ASM -DRC4_ASM -DMD5_ASM -DAES_ASM -DVPAES_ASM -DBSAES_ASM -DGHASH_ASM -DECP_NISTZ256_ASM -DPOLY1305_ASM -DOPENSSLDIR=""/usr/lib/ssl"" -DENGINESDIR=""/usr/lib/x86_64-linux-gnu/engines-1.1""
The 'numbers' are in 1000s of bytes per second processed.
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes 16384 bytes
aes-128-gcm 623629.64k 1414760.34k 2806833.83k 4339061.76k 5473615.87k 4781200.73k

and the CBC output on bare hardware with openssl 1.1:

openssl speed -evp aes-128-cbc

Doing aes-128-cbc for 3s on 16 size blocks: 170365448 aes-128-cbc's in 3.00s
Doing aes-128-cbc for 3s on 64 size blocks: 61436331 aes-128-cbc's in 2.99s
Doing aes-128-cbc for 3s on 256 size blocks: 15619487 aes-128-cbc's in 3.00s
Doing aes-128-cbc for 3s on 1024 size blocks: 4102787 aes-128-cbc's in 3.00s
Doing aes-128-cbc for 3s on 8192 size blocks: 511408 aes-128-cbc's in 3.00s
Doing aes-128-cbc for 3s on 16384 size blocks: 254687 aes-128-cbc's in 2.99s
OpenSSL 1.1.0c 10 Nov 2016
built on: reproducible build, date unspecified
options:bn(64,64) rc4(16x,int) des(int) aes(partial) blowfish(ptr)
compiler: gcc -DDSO_DLFCN -DHAVE_DLFCN_H -DNDEBUG -DOPENSSL_THREADS -DOPENSSL_NO_STATIC_ENGINE -DOPENSSL_PIC -DOPENSSL_IA32_SSE2 -DOPENSSL_BN_ASM_MONT -DOPENSSL_BN_ASM_MONT5 -DOPENSSL_BN_ASM_GF2m -DSHA1_ASM -DSHA256_ASM -DSHA512_ASM -DRC4_ASM -DMD5_ASM -DAES_ASM -DVPAES_ASM -DBSAES_ASM -DGHASH_ASM -DECP_NISTZ256_ASM -DPOLY1305_ASM -DOPENSSLDIR=""/usr/lib/ssl"" -DENGINESDIR=""/usr/lib/x86_64-linux-gnu/engines-1.1""
The 'numbers' are in 1000s of bytes per second processed.
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes 16384 bytes
aes-128-cbc 908615.72k 1315025.15k 1332862.89k 1400417.96k 1396484.78k 1395582.54k

This isn't a matter of opinion, it's a simple mistake that's been getting propagated for some time, leading to some wildly inaccurate claims about crypto performance. If you ask the guys writing the openssl code whether you can get 20GByte/s from a single core on a commodity intel chip you'll get a very clear "no". (And intel wouldn't be trying to sell very expensive quick assist hardware if it had lower performance than a cheap desktop: http://www.intel.com/content/www/us/en/ethernet-products/gigabit-server-adapters/quickassist-adapter-for-servers.html)