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2019-08-28Merge pull request #5707luigi11111-1/+14
3a0451a MLSAG speedup and additional checks (SarangNoether)
2019-08-27MLSAG speedup and additional checksSarang Noether1-1/+14
2019-08-15Replace std::random_shuffle with std::shuffleTom Smeding1-2/+2
According to [1], std::random_shuffle is deprecated in C++14 and removed in C++17. Since std::shuffle is available since C++11 as a replacement and monero already requires C++11, this is a good replacement. A cryptographically secure random number generator is used in all cases to prevent people from perhaps copying an insecure std::shuffle call over to a place where a secure one would be warranted. A form of defense-in-depth. [1]: https://en.cppreference.com/w/cpp/algorithm/random_shuffle
2019-04-11ringct: prevent use of full ringct signatures for more than one inputmoneromooo-monero1-77/+43
2019-03-05Update 2019 copyrightbinaryFate1-1/+1
2019-01-22ringct: the commitment mask is now deterministicmoneromooo-monero1-21/+0
saves space in the tx and is safe Found by knaccc
2019-01-22ringct: encode 8 byte amount, saving 24 bytes per outputmoneromooo-monero1-2/+2
Found by knaccc
2019-01-22add a bulletproof version, new bulletproof type, and rct configmoneromooo-monero1-7/+14
This makes it easier to modify the bulletproof format
2018-11-23remove some unused codemoneromooo-monero1-2/+0
Found by codacy.com
2018-11-04rct: add a zeroCommit cache for common pre-rct casemoneromooo-monero1-0/+19
This is called for every pre-rct output at blockchain sync time, and a lot of them wil hit the cache, saving a scalarmult each.
2018-09-11bulletproofs: speed up the latest changes a bitmoneromooo-monero1-0/+7
2018-09-11precalc the ge_p3 representation of Hmoneromooo-monero1-0/+7
2018-09-11bulletproofs: add aggregated verificationmoneromooo-monero1-0/+17
Ported from sarang's java code
2018-06-27unit_tests: do not recreate the same base rct sig all the timemoneromooo-monero1-4/+18
Helps a bit when running with valgrind
2018-06-06ringct: remove an unnecessary scalarmultBase in zeroCommitmoneromooo-monero1-0/+10
2018-03-05Correct spelling mistakes.Edward Betts1-1/+1
2018-03-04Code modifications to integrate Ledger HW device into monero-wallet-cli.cslashm1-14/+15
The basic approach it to delegate all sensitive data (master key, secret ephemeral key, key derivation, ....) and related operations to the device. As device has low memory, it does not keep itself the values (except for view/spend keys) but once computed there are encrypted (with AES are equivalent) and return back to monero-wallet-cli. When they need to be manipulated by the device, they are decrypted on receive. Moreover, using the client for storing the value in encrypted form limits the modification in the client code. Those values are transfered from one C-structure to another one as previously. The code modification has been done with the wishes to be open to any other hardware wallet. To achieve that a C++ class hw::Device has been introduced. Two initial implementations are provided: the "default", which remaps all calls to initial Monero code, and the "Ledger", which delegates all calls to Ledger device.
2018-01-27Merge pull request #3151Riccardo Spagni1-5/+5
ab2e9953 unit_tests: do not ASSERT_TRUE(decodeRct(...)) (moneromooo-monero)
2018-01-26Update 2018 copyrightxmr-eric1-1/+1
2018-01-18unit_tests: do not ASSERT_TRUE(decodeRct(...))moneromooo-monero1-5/+5
decodeRct returns the amount, which may be zero
2017-12-17Add N/N multisig tx generation and signingmoneromooo-monero1-9/+9
Scheme by luigi1111: Multisig for RingCT on Monero 2 of 2 User A (coordinator): Spendkey b,B Viewkey a,A (shared) User B: Spendkey c,C Viewkey a,A (shared) Public Address: C+B, A Both have their own watch only wallet via C+B, a A will coordinate spending process (though B could easily as well, coordinator is more needed for more participants) A and B watch for incoming outputs B creates "half" key images for discovered output D: I2_D = (Hs(aR)+c) * Hp(D) B also creates 1.5 random keypairs (one scalar and 2 pubkeys; one on base G and one on base Hp(D)) for each output, storing the scalar(k) (linked to D), and sending the pubkeys with I2_D. A also creates "half" key images: I1_D = (Hs(aR)+b) * Hp(D) Then I_D = I1_D + I2_D Having I_D allows A to check spent status of course, but more importantly allows A to actually build a transaction prefix (and thus transaction). A builds the transaction until most of the way through MLSAG_Gen, adding the 2 pubkeys (per input) provided with I2_D to his own generated ones where they are needed (secret row L, R). At this point, A has a mostly completed transaction (but with an invalid/incomplete signature). A sends over the tx and includes r, which allows B (with the recipient's address) to verify the destination and amount (by reconstructing the stealth address and decoding ecdhInfo). B then finishes the signature by computing ss[secret_index][0] = ss[secret_index][0] + k - cc[secret_index]*c (secret indices need to be passed as well). B can then broadcast the tx, or send it back to A for broadcasting. Once B has completed the signing (and verified the tx to be valid), he can add the full I_D to his cache, allowing him to verify spent status as well. NOTE: A and B *must* present key A and B to each other with a valid signature proving they know a and b respectively. Otherwise, trickery like the following becomes possible: A creates viewkey a,A, spendkey b,B, and sends a,A,B to B. B creates a fake key C = zG - B. B sends C back to A. The combined spendkey C+B then equals zG, allowing B to spend funds at any time! The signature fixes this, because B does not know a c corresponding to C (and thus can't produce a signature). 2 of 3 User A (coordinator) Shared viewkey a,A "spendkey" j,J User B "spendkey" k,K User C "spendkey" m,M A collects K and M from B and C B collects J and M from A and C C collects J and K from A and B A computes N = nG, n = Hs(jK) A computes O = oG, o = Hs(jM) B anc C compute P = pG, p = Hs(kM) || Hs(mK) B and C can also compute N and O respectively if they wish to be able to coordinate Address: N+O+P, A The rest follows as above. The coordinator possesses 2 of 3 needed keys; he can get the other needed part of the signature/key images from either of the other two. Alternatively, if secure communication exists between parties: A gives j to B B gives k to C C gives m to A Address: J+K+M, A 3 of 3 Identical to 2 of 2, except the coordinator must collect the key images from both of the others. The transaction must also be passed an additional hop: A -> B -> C (or A -> C -> B), who can then broadcast it or send it back to A. N-1 of N Generally the same as 2 of 3, except participants need to be arranged in a ring to pass their keys around (using either the secure or insecure method). For example (ignoring viewkey so letters line up): [4 of 5] User: spendkey A: a B: b C: c D: d E: e a -> B, b -> C, c -> D, d -> E, e -> A Order of signing does not matter, it just must reach n-1 users. A "remaining keys" list must be passed around with the transaction so the signers know if they should use 1 or both keys. Collecting key image parts becomes a little messy, but basically every wallet sends over both of their parts with a tag for each. Thia way the coordinating wallet can keep track of which images have been added and which wallet they come from. Reasoning: 1. The key images must be added only once (coordinator will get key images for key a from both A and B, he must add only one to get the proper key actual key image) 2. The coordinator must keep track of which helper pubkeys came from which wallet (discussed in 2 of 2 section). The coordinator must choose only one set to use, then include his choice in the "remaining keys" list so the other wallets know which of their keys to use. You can generalize it further to N-2 of N or even M of N, but I'm not sure there's legitimate demand to justify the complexity. It might also be straightforward enough to support with minimal changes from N-1 format. You basically just give each user additional keys for each additional "-1" you desire. N-2 would be 3 keys per user, N-3 4 keys, etc. The process is somewhat cumbersome: To create a N/N multisig wallet: - each participant creates a normal wallet - each participant runs "prepare_multisig", and sends the resulting string to every other participant - each participant runs "make_multisig N A B C D...", with N being the threshold and A B C D... being the strings received from other participants (the threshold must currently equal N) As txes are received, participants' wallets will need to synchronize so that those new outputs may be spent: - each participant runs "export_multisig FILENAME", and sends the FILENAME file to every other participant - each participant runs "import_multisig A B C D...", with A B C D... being the filenames received from other participants Then, a transaction may be initiated: - one of the participants runs "transfer ADDRESS AMOUNT" - this partly signed transaction will be written to the "multisig_monero_tx" file - the initiator sends this file to another participant - that other participant runs "sign_multisig multisig_monero_tx" - the resulting transaction is written to the "multisig_monero_tx" file again - if the threshold was not reached, the file must be sent to another participant, until enough have signed - the last participant to sign runs "submit_multisig multisig_monero_tx" to relay the transaction to the Monero network
2017-11-14remove "using namespace std" from headersmoneromooo-monero1-0/+1
It's nasty, and actually breaks on Solaris, where if.h fails to build due to: struct map *if_memmap;
2017-04-11Improvements for epee binary to hex functions:Lee Clagett1-0/+11
- Performance improvements - Added `span` for zero-copy pointer+length arguments - Added `std::ostream` overload for direct writing to output buffers - Removal of unused `string_tools::buff_to_hex`
2017-02-21update copyright year, fix occasional lack of newline at line endRiccardo Spagni1-1/+1
2016-12-04ringct: luigi1111's changes to fix and speedup Borromean sigsluigi11111-8/+4
2016-12-04ringct: switch to Borromean signaturesShen Noether1-28/+11
2016-10-29ringct: check the size of amount_keys is the same as destinationsmoneromooo-monero1-2/+3
2016-08-28rct amount key modified as per luigi1111's recommendationsmoneromooo-monero1-8/+8
This allows the key to be not the same for two outputs sent to the same address (eg, if you pay yourself, and also get change back). Also remove the key amounts lists and return parameters since we don't actually generate random ones, so we don't need to save them as we can recalculate them when needed if we have the correct keys.
2016-08-28rct: rework v2 txes into prunable and non prunable datamoneromooo-monero1-27/+28
Nothing is pruned, but this allows easier changes later.
2016-08-28rct: rework the verification preparation processmoneromooo-monero1-4/+4
The whole rct data apart from the MLSAGs is now included in the signed message, to avoid malleability issues. Instead of passing the data that's not serialized as extra parameters to the verification API, the transaction is modified to fill all that information. This means the transaction can not be const anymore, but it cleaner in other ways.
2016-08-28rct: make the amount key derivable by a third party with the tx keymoneromooo-monero1-14/+29
Scheme design from luigi1114.
2016-08-28tests: add basic tests for simple rct apimoneromooo-monero1-44/+378
2016-08-28integrate simple rct apimoneromooo-monero1-5/+59
2016-08-28rct: add the tx prefix hash into the MLSAGmoneromooo-monero1-5/+5
to protect the non-signatures parts of the tx from tampering.
2016-08-28ringct: do not serialize what can be reconstructedmoneromooo-monero1-2/+2
The mixRing (output keys and commitments) and II fields (key images) can be reconstructed from vin data. This saves some modest amount of space in the tx.
2016-08-28tests: test for ringct rctSig data sizesmoneromooo-monero1-3/+44
ie, more data or less data than expected in various fields
2016-08-28ringct: allow no outputs, and add tests for this and feesmoneromooo-monero1-31/+75
2016-08-28ringct: txn fee stuffShen Noether1-0/+61
2016-08-28tests: new ringct test for checking H2 valuesShen Noether1-0/+11
Ported from Shen's RingCT repo
2016-08-28tests: zero inputs/outputs are in fact supposed to be acceptedmoneromooo-monero1-14/+14
2016-08-28ringct: add a test for prooveRange being non deterministicmoneromooo-monero1-0/+9
2016-08-28tests: more ringct range proof testsmoneromooo-monero1-0/+245
2016-08-28tests: add some more ringct building block testsmoneromooo-monero1-1/+50
2016-08-28tests: add Shen Noether's basic ringct testsmoneromooo-monero1-0/+206