commit 01119bf1291a40aa309dfb7d76edf790133f05b9 Author: teor (Tim Wilson-Brown) teor2345@gmail.com Date: Fri Nov 20 11:51:58 2015 +1100
prop224: randomise revision-counter to avoid information leaks
Randomise revision-counter start value and increment to avoid leaking: * the descriptor validity start time, * the age of new hidden services, * the stability of a hidden service, * a value that could be used to link other replicas of the service.
If descriptors for different replicas cannot be linked, then it becomes much harder for a malicious HSDir to discover other replicas and attept to DoS them. --- proposals/224-rend-spec-ng.txt | 54 ++++++++++++++++++++++++++++++++++++++++ 1 file changed, 54 insertions(+)
diff --git a/proposals/224-rend-spec-ng.txt b/proposals/224-rend-spec-ng.txt index 00586fd..2575136 100644 --- a/proposals/224-rend-spec-ng.txt +++ b/proposals/224-rend-spec-ng.txt @@ -842,6 +842,60 @@ Status: Draft prevents an attacker from replacing a newer descriptor signed by a given key with a copy of an older version.)
+ The revision-counter should be updated with each upload, regardless + of whether the descriptor has changed. This avoids leaking whether + the descriptor has changed. + + [ XX/teor - is the extra load on the HSDirs worth it? ] + + Services should randomise the start and increment values of + revision-counter for each replica, to avoid leaking service + stability, and avoid linking descriptor replicas via + revision-counter values. + + Say that our goal is for services to start the period at a + random value near zero, and end it at a random value that does + not exceed 2 ^ 32 (while the length of revision-counter isn't + specified, it's included in hashes as INT_4(revision-counter)). We'd + like the revision-counters of all services to increment at + approximately the same randomised rate, regardless of RendPostPeriod. + + revision-counter could be initialised and incremented using: + two-periods-time = (2 * 24 * 60 * 60) + elapsed-ratio = elapsed-since-last-post / two-periods-time + max-increment = 2^32 * elapsed-ratio + where elapsed-since-last-post is the time elapsed since descriptors + were last uploaded for the current blinded key. + + The first upload for a blinded key for the next period sets + elapsed-since-last-post equal to the time since the current period + started. Assuming the keys have just become valid, this is: + elapsed-since-period-start = key-validity-start - period-start + where key-validity-start is when the keys became valid, and + period-start is when the current period started. + + Then, each initialisation and increment is: + revision-counter += random(1, max-increment) + + (The random() function should be careful not to leak the raw bytes + returned by the PRNG to the network. See [RANDOM-REFS].) + + This scheme increments revision-counter at a maximum rate of: + 2 ^ 32 / (2 * 24 * 60 * 60) = 24855 per second + with an expected average value of 12428 per second. This appears + sufficient to blur the exact number of revisions. + + This scheme could leak the approximate time at which the descriptor + was uploaded, and the approximate RendPostPeriod. These are easily + guessed from the current time, and by checking when descriptors + arrive at the HSDirs. Tracking unique revision-counter values would + also reveal how many times a descriptor has been uploaded (without + decrypting "encrypted"). + + Regardless of the method used to generate the revision counter, + all that HSDirs need to do is verify that new descriptors for a key + have a higher counter than the current descriptor. + "encrypted" NL encrypted-string
[Exactly once.]