tl;dr：在 Linux 環境下，除了 Yubico 的產品沒問題外，其他的都有問題... (只是差在問題多與少而已)
Easy one first: I can find no flaws in Yubico's U2F Security Key.
VASCO SecureClick 的則是 vendor ID 與 product ID 會跑掉：
If you're using Linux and you configure udev to grant access to the vendor ID & product ID of the token as it appears normally, nothing will work because the vendor ID and product ID are different when it's active. The Chrome extension will get very confused about this.
Feitian ePass 的 ASN.1 DER 編碼是錯的：
ASN.1 DER is designed to be a “distinguished” encoding, i.e. there should be a unique serialisation for a given value and all other representations are invalid. As such, numbers are supposed to be encoded minimally, with no leading zeros (unless necessary to make a number positive). Feitian doesn't get that right with this security key: numbers that start with 9 leading zero bits have an invalid zero byte at the beginning. Presumably, numbers starting with 17 zero bits have two invalid zero bytes at the beginning and so on, but I wasn't able to press the button enough times to get such an example. Thus something like one in 256 signatures produced by this security key are invalid.
Thetis 根本沒照 spec 走，然後也有相同的 ASN.1 DER 編碼問題：
With this device, I can't test things like key handle mutability and whether the appID is being checked because of some odd behaviour. The response to the first Check is invalid, according to the spec: it returns status 0x9000 (“NO_ERROR”), when it should be 0x6985 or 0x6a80. After that, it starts rejecting all key handles (even valid ones) with 0x6a80 until it's unplugged and reinserted.
This device has the same non-minimal signature encoding issue as the Feitian ePass. Also, if you click too fast, this security key gets upset and rejects a few requests with status 0x6ffe.
U2F Zero 直接 crash 沒辦法測 XDDD：
A 1KiB ping message crashes this device (i.e. it stops responding to USB messages and needs to be unplugged and reinserted). Testing a corrupted key handle also crashes it and thus I wasn't able to run many tests.
The Key-ID (and HyperFIDO devices, which have the same firmware, I think) have the same non-minimal encoding issue as the Feitian ePass, but also have a second ASN.1 flaw. In ASN.1 DER, if the most-significant bit of a number is set, that number is negative. If it's not supposed to be negative, then a zero pad byte is needed. I think what happened here is that, when testing the most-significant bit, the security key checks whether the first byte is > 0x80, but it should be checking whether it's >= 0x80. The upshot is the sometimes it produces signatures that contain negative numbers and are thus invalid.
所以還是乖乖用 GitHub 帳號買 Yubico 吧...