fix: key image checker shows RingCT amounts correctly for each spent key image

master
moneroexamples 8 years ago
parent 31fbb4423e
commit 1d905bb7f3

@ -2182,7 +2182,6 @@ public:
if (!found_tx_hashes.empty())
{
string tx_hash_str = found_tx_hashes.at(0);
key_img_info["tx_hash"] = tx_hash_str;
@ -2205,15 +2204,13 @@ public:
vector<txin_to_key> tx_key_imgs = get_key_images(tx);
const vector<txin_to_key>::const_iterator it
= find_if(tx_key_imgs.begin(), tx_key_imgs.end(),
[&](txin_to_key tx_in)
{
return tx_in.k_image == key_image;
});
if (it != tx_key_imgs.end())
for (auto it = tx_key_imgs.begin(); it != tx_key_imgs.end(); ++it)
{
if ((*it).k_image != key_image)
{
continue;
}
uint64_t xmr_amount = (*it).amount;
// RingCT, i.e., tx version is 2
@ -2221,29 +2218,155 @@ public:
// otherwise they all appear to be zero.
// so to find the amount, first we need to find
// our output in the key images's mixins, and then
// decode it using ringct.
// this requires to loop over mixins of each key image,
// get its source txs, get mixin index in that tx,
// and check if its our mixin or not using private_view_key
// and public_spend_key_provided
if (tx.version == 2)
{
// bool r = decode_ringct(tx.rct_signatures,
// txd.pk,
// prv_view_key,
// i,
// tx.rct_signatures.ecdhInfo[i].mask,
// rct_amount);
}
key_img_info["amount"] = xmreg::xmr_amount_to_str(xmr_amount);
vector<uint64_t> absolute_offsets
= relative_output_offsets_to_absolute((*it).key_offsets);
// need to go through each mixin, fetch its tx
// find its index in that txs, obtain tx_public_key
// derive a deriviec_key, compare derived output key
// with the output key in txs, and decode rct amount
// if equal
for (uint64_t out_idx: absolute_offsets)
{
//tx_out_index is pair<transaction hash, output index>
tx_out_index toi;
try
{
// get pair<transaction hash, output index>
toi = core_storage->get_db()
.get_output_tx_and_index((*it).amount, out_idx);
}
catch (const OUTPUT_DNE& e)
{
string error_msg = fmt::format(
"Output with amount {:d} and index {:d} does not exist!",
(*it).amount, out_idx);
context["has_error"] = true;
context["error_msg"] = error_msg;
return mstch::render(full_page, context);
}
// get actual transaction structure from tx_hash
transaction output_source_tx;
if (!mcore->get_tx(toi.first, output_source_tx))
{
string error_msg = fmt::format(
"Cant get tx in blockchain: {:s}", toi.first);
context["has_error"] = true;
context["error_msg"] = error_msg;
return mstch::render(full_page, context);
}
uint64_t output_idx_in_tx = toi.second;
// get tx outpout key
const txout_to_key& output_pub_key
= boost::get<txout_to_key>(
output_source_tx.vout[output_idx_in_tx].target);
uint64_t rct_amount = output_source_tx.vout[output_idx_in_tx].amount;
public_key tx_pub_key = xmreg::get_tx_pub_key_from_received_outs(
output_source_tx);
// public transaction key is combined with our viewkey
// to create, so called, derived key.
key_derivation derivation;
if (!generate_key_derivation(tx_pub_key, prv_view_key, derivation))
{
string error_msg = fmt::format(
"Cant get derived key for "
"pub_tx_key: {:s}, prv_view_key: {:s}"
, tx_pub_key, prv_view_key);
context["has_error"] = true;
context["error_msg"] = error_msg;
return mstch::render(full_page, context);
}
// get the tx output public key
// that normally would be generated for us,
// if someone had sent us some xmr.
public_key derived_output_pubkey;
derive_public_key(derivation,
output_idx_in_tx,
xmr_address->m_spend_public_key,
derived_output_pubkey);
// check if generated public key matches the current output's key
bool mine_output = (output_pub_key.key == derived_output_pubkey);
if (mine_output)
{
// seems we found our output. so now lets decode its amount
// using ringct
bool r;
r = decode_ringct(output_source_tx.rct_signatures,
tx_pub_key,
prv_view_key,
output_idx_in_tx,
output_source_tx.rct_signatures.ecdhInfo[output_idx_in_tx].mask,
rct_amount);
if (!r)
{
string error_msg = fmt::format(
"Cant decode ringCT for "
"pub_tx_key: {:s} "
"using prv_view_key: {:s}",
tx_pub_key, prv_view_key);
context["has_error"] = true;
context["error_msg"] = error_msg;
return mstch::render(full_page, context);
}
xmr_amount = rct_amount;
break;
} // if (mine_output)
} // for (uint64_t out_idx: (*it).key_offsets)
} // if (tx.version == 2)
key_img_info["amount"] = xmreg::xmr_amount_to_str(xmr_amount);
key_img_info["is_ringct"] = tx.version == 2 ? true: false;
total_xmr += xmr_amount;
}
} // for (it = tx_key_imgs.begin(); it != tx_key_imgs.end(); ++it)
key_img_info["timestamp"] = xmreg::timestamp_to_str(blk_timestamp);
}
}
} // if (mcore->get_tx(tx_hash_str, tx))
} // if (!found_tx_hashes.empty())
key_imgs_ctx.push_back(key_img_info);
//signed_key_images.push_back(make_pair(key_image, signature));
}
} // for (size_t n = 0; n < no_key_images; ++n)
if (total_xmr > 0)
{

@ -41,6 +41,7 @@
<td>Key no.</td>
<td>Key image</td>
<td>Timestamp</td>
<td>RingCT</td>
<td>Amount</td>
<td>Is spent?</td>
</tr>
@ -57,6 +58,7 @@
{{/tx_hash_found}}
</td>
<td>{{timestamp}}</td>
<td>{{is_ringct}}</td>
<td>{{amount}}</td>
<td>
{{#is_spent}}

@ -948,5 +948,20 @@ is_output_ours(const size_t& output_index,
return false;
}
bool
get_real_output_for_key_image(const key_image& ki,
const transaction& tx,
const secret_key& private_view_key,
const public_key& public_spend_key,
uint64_t output_idx,
public_key output_pub_key)
{
return false;
}
}

@ -255,6 +255,14 @@ is_output_ours(const size_t& output_index,
const secret_key& private_view_key,
const public_key& public_spend_key);
bool
get_real_output_for_key_image(const key_image& ki,
const transaction& tx,
const secret_key& private_view_key,
const public_key& public_spend_key,
uint64_t output_idx,
public_key output_pub_key);
}
#endif //XMREG01_TOOLS_H

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