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@ -12,198 +12,144 @@ namespace tunnel
@@ -12,198 +12,144 @@ namespace tunnel
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void TunnelGatewayBuffer::PutI2NPMsg (const uint8_t * gwHash, uint32_t gwTunnel, I2NPMessage * msg) |
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{ |
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TunnelMessageBlockExt * block = new TunnelMessageBlockExt; |
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block->deliveryInstructionsLen = 1; // flag
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if (!m_CurrentTunnelDataMsg) |
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CreateCurrentTunnelDataMessage (); |
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// create delivery instructions
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uint8_t di[40]; |
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size_t diLen = 1;// flag
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TunnelDeliveryType dt = eDeliveryTypeLocal; |
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if (gwHash) |
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{ |
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block->deliveryInstructionsLen += 32; // hash
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memcpy (block->hash, gwHash, 32); |
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if (gwTunnel) |
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{ |
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block->deliveryType = eDeliveryTypeTunnel; |
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block->deliveryInstructionsLen += 4; // tunnelID
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block->tunnelID = gwTunnel; |
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} |
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else |
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block->deliveryType = eDeliveryTypeRouter; |
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*(uint32_t *)(di + diLen) = htobe32 (gwTunnel); |
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diLen += 4; // tunnelID
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dt = eDeliveryTypeTunnel; |
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} |
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else |
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block->deliveryType = eDeliveryTypeLocal; |
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block->deliveryInstructionsLen += 2; // size
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// we don't reserve 4 bytes for msgID yet
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block->totalLen = block->deliveryInstructionsLen + msg->GetLength (); |
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block->data = msg; |
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m_I2NPMsgs.push_back (block); |
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dt = eDeliveryTypeRouter; |
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if (!m_Remaining) m_Remaining = TUNNEL_DATA_MAX_PAYLOAD_SIZE; |
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if (block->totalLen <= m_Remaining) // message fits
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{ |
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block->isFragmented = false; |
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m_Remaining -= block->totalLen; |
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memcpy (di + diLen, gwHash, 32); |
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diLen += 32; //len
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} |
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else // message doesn't fit
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{ |
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if (block->deliveryInstructionsLen + 4 <= m_Remaining) |
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di[0] = dt << 5; // set delivery type
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// create fragments
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if (diLen + msg->GetLength () + 2<= m_RemainingSize) |
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{ |
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// delivery instructions of first fragment fits
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block->isFragmented = true; |
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block->deliveryInstructionsLen += 4; |
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block->totalLen += 4; |
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m_Remaining = m_Remaining + TUNNEL_DATA_MAX_PAYLOAD_SIZE - block->totalLen - 7; // TODO: handle case if more than two fragments
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// message fits. First and last fragment
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*(uint16_t *)(di + diLen) = htobe16 (msg->GetLength ()); |
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diLen += 2; // size
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memcpy (m_CurrentTunnelDataMsg->buf + m_CurrentTunnelDataMsg->len, di, diLen); |
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memcpy (m_CurrentTunnelDataMsg->buf + m_CurrentTunnelDataMsg->len + diLen, msg->GetBuffer (), msg->GetLength ()); |
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m_CurrentTunnelDataMsg->len += diLen + msg->GetLength (); |
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m_RemainingSize -= diLen + msg->GetLength (); |
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if (!m_RemainingSize) |
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CompleteCurrentTunnelDataMessage (); |
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DeleteI2NPMessage (msg); |
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} |
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else |
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{ |
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// delivery instructions of first fragment don't fit
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block->isFragmented = false; |
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m_Remaining = 0; |
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if (diLen + 6 <= m_RemainingSize) |
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{ |
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// delivery instructions fit
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uint32_t msgID = msg->GetHeader ()->msgID; |
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size_t size = m_RemainingSize - diLen - 6; // 6 = 4 (msgID) + 2 (size)
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// first fragment
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di[0] |= 0x08; // fragmented
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*(uint32_t *)(di + diLen) = htobe32 (msgID); |
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diLen += 4; // Message ID
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*(uint16_t *)(di + diLen) = htobe16 (size); |
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diLen += 2; // size
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memcpy (m_CurrentTunnelDataMsg->buf + m_CurrentTunnelDataMsg->len, di, diLen); |
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memcpy (m_CurrentTunnelDataMsg->buf + m_CurrentTunnelDataMsg->len + diLen, msg->GetBuffer (), size); |
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m_CurrentTunnelDataMsg->len += diLen + size; |
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CompleteCurrentTunnelDataMessage (); |
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// follow on fragments
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int fragmentNumber = 1; |
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while (size < msg->GetLength ()) |
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{ |
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CreateCurrentTunnelDataMessage (); |
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uint8_t * buf = m_CurrentTunnelDataMsg->GetBuffer (); |
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buf[0] = 0x80 | (fragmentNumber << 1); // frag
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bool isLastFragment = false; |
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size_t s = msg->GetLength () - size; |
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if (s > TUNNEL_DATA_MAX_PAYLOAD_SIZE - 7) // 7 follow on instructions
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s = TUNNEL_DATA_MAX_PAYLOAD_SIZE - 7; |
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else // last fragment
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{ |
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buf[0] |= 0x01; |
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isLastFragment = true; |
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} |
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*(uint32_t *)(buf + 1) = htobe32 (msgID); //Message ID
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*(uint16_t *)(buf + 5) = htobe16 (s); // size
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memcpy (buf + 7, msg->GetBuffer () + size, s); |
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m_CurrentTunnelDataMsg->len += s+7; |
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if (isLastFragment) |
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{ |
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m_RemainingSize -= s+7; |
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if (!m_RemainingSize) |
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CompleteCurrentTunnelDataMessage (); |
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} |
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else |
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CompleteCurrentTunnelDataMessage (); |
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size += s; |
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fragmentNumber++; |
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} |
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DeleteI2NPMessage (msg); |
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} |
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std::vector<I2NPMessage *> TunnelGatewayBuffer::GetTunnelDataMsgs () |
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{ |
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m_Remaining = 0; |
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m_NextOffset = 0; |
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std::vector<I2NPMessage *> res; |
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int cnt = m_I2NPMsgs.size (); |
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if (cnt > 0) |
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{ |
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int ind = 0; |
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while (ind < cnt) |
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else |
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{ |
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auto tunnelMsg = CreateNextTunnelMessage (ind); |
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if (!tunnelMsg) break; |
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res.push_back (tunnelMsg); |
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// delivery instructions don't fit. Create new message
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CompleteCurrentTunnelDataMessage (); |
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PutI2NPMsg (gwHash, gwTunnel, msg); |
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// don't delete msg because it's taken care inside
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} |
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for (auto msg: m_I2NPMsgs) |
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delete msg; |
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m_I2NPMsgs.clear (); |
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} |
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return res; |
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} |
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size_t TunnelGatewayBuffer::CreateFirstFragment (TunnelMessageBlockExt * block, uint8_t * buf, size_t len) |
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{ |
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size_t ret = 1; |
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buf[0] = block->deliveryType << 5; // flag
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if (block->deliveryType == eDeliveryTypeTunnel) |
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{ |
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*(uint32_t *)(buf + ret) = htobe32 (block->tunnelID); |
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ret += 4; |
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} |
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if (block->deliveryType == eDeliveryTypeTunnel || block->deliveryType == eDeliveryTypeRouter) |
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{ |
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memcpy (buf + ret, block->hash, 32); |
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ret += 32; |
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} |
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size_t size = block->data->GetLength (); |
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if (block->totalLen > len) // entire message doesn't fit
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std::vector<I2NPMessage *> TunnelGatewayBuffer::GetTunnelDataMsgs () |
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{ |
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buf[0] |= 0x08; // set fragmented bit
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m_NextMsgID = block->data->GetHeader ()->msgID; |
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*(uint32_t *)(buf + ret) = m_NextMsgID; |
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ret += 4; // msgID
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m_NextSeqn = 1; |
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size = len - ret - 2; // 2 bytes for size field
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m_NextOffset = size; |
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} |
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*(uint16_t *)(buf + ret) = htobe16 (size); // size
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ret += 2; |
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memcpy (buf + ret, block->data->GetBuffer (), size); |
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ret += size; |
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CompleteCurrentTunnelDataMessage (); |
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std::vector<I2NPMessage *> ret = m_TunnelDataMsgs; // TODO: implement it better
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m_TunnelDataMsgs.clear (); |
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return ret; |
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} |
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size_t TunnelGatewayBuffer::CreateFollowOnFragment (TunnelMessageBlockExt * block, uint8_t * buf, size_t len) |
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{ |
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int ret = 0; |
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buf[0] = 0x80 | (m_NextSeqn << 1);// follow-on flag and seqn
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size_t fragmentLen = len - 7; // 7 bytes of header
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if (fragmentLen >= block->data->GetLength () - m_NextOffset) |
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void TunnelGatewayBuffer::CreateCurrentTunnelDataMessage () |
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{ |
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// fragment fits
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fragmentLen = block->data->GetLength () - m_NextOffset; |
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buf[0] |= 0x01; // last fragment
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m_CurrentTunnelDataMsg = NewI2NPMessage (); |
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// we reserve space for padding
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m_CurrentTunnelDataMsg->offset += TUNNEL_DATA_MSG_SIZE + sizeof (I2NPHeader); |
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m_CurrentTunnelDataMsg->len = m_CurrentTunnelDataMsg->offset; |
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m_RemainingSize = TUNNEL_DATA_MAX_PAYLOAD_SIZE; |
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} |
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else |
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m_NextSeqn++; |
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*(uint32_t *)(buf + 1) = m_NextMsgID; // msgID
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*(uint16_t *)(buf + 5) = htobe16 (fragmentLen); // size
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memcpy (buf + 7, block->data->GetBuffer () + m_NextOffset, fragmentLen); |
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m_NextOffset += fragmentLen; |
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ret += fragmentLen + 7; |
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return ret; |
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} |
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I2NPMessage * TunnelGatewayBuffer::CreateNextTunnelMessage (int& ind) |
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{ |
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int cnt = m_I2NPMsgs.size (); |
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if (ind > cnt - 1) return nullptr; // no more messages
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// calculate payload size
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size_t size = 0; |
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int i = ind; |
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if (m_NextOffset) |
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void TunnelGatewayBuffer::CompleteCurrentTunnelDataMessage () |
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{ |
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size = m_I2NPMsgs[i]->data->GetLength () - m_NextOffset + 7; // including follow-on header
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i++; |
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} |
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while (i < cnt) |
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{ |
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auto msg = m_I2NPMsgs[i]; |
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size += msg->totalLen; |
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if (size >= TUNNEL_DATA_MAX_PAYLOAD_SIZE) |
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{ |
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size = TUNNEL_DATA_MAX_PAYLOAD_SIZE; |
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break; |
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} |
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if (msg->isFragmented) break; |
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i++; |
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} |
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if (!m_CurrentTunnelDataMsg) return; |
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uint8_t * payload = m_CurrentTunnelDataMsg->GetBuffer (); |
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size_t size = m_CurrentTunnelDataMsg->len - m_CurrentTunnelDataMsg->offset; |
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I2NPMessage * tunnelMsg = NewI2NPMessage (); |
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uint8_t * buf = tunnelMsg->GetPayload (); |
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m_CurrentTunnelDataMsg->offset = m_CurrentTunnelDataMsg->len - TUNNEL_DATA_MSG_SIZE - sizeof (I2NPHeader); |
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uint8_t * buf = m_CurrentTunnelDataMsg->GetPayload (); |
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*(uint32_t *)(buf) = htobe32 (m_TunnelID); |
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CryptoPP::RandomNumberGenerator& rnd = i2p::context.GetRandomNumberGenerator (); |
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rnd.GenerateBlock (buf + 4, 16); // original IV
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memcpy (buf + TUNNEL_DATA_MSG_SIZE, buf + 4, 16); // copy IV for checksum
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size_t zero = TUNNEL_DATA_MSG_SIZE - size -1; |
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buf[zero] = 0; // zero
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size_t s = 0; |
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while (ind < cnt) |
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{ |
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auto msg = m_I2NPMsgs[ind]; |
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if (m_NextOffset) |
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{ |
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s += CreateFollowOnFragment (msg, buf + zero + 1 + s, size - s); |
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m_NextOffset = 0; // TODO:
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} |
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else |
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{ |
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s += CreateFirstFragment (msg, buf + zero + 1 + s, size - s); |
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if (msg->isFragmented) break; // payload is full, but we stay at the same message
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} |
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ind++; |
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if (s >= size) break; // payload is full but we moved to next message
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} |
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if (s != size) |
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{ |
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LogPrint ("TunnelData payload size mismatch ", s, "!=", size); |
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return nullptr; |
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} |
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memcpy (payload + size, buf + 4, 16); // copy IV for checksum
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uint8_t hash[32]; |
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CryptoPP::SHA256().CalculateDigest(hash, buf+zero+1, size+16); |
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CryptoPP::SHA256().CalculateDigest (hash, payload, size+16); |
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memcpy (buf+20, hash, 4); // checksum
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if (zero > 24) |
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memset (buf+24, 1, zero-24); // padding TODO: fill with random data
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tunnelMsg->len += TUNNEL_DATA_MSG_SIZE; |
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payload[-1] = 0; // zero
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ssize_t paddingSize = payload - buf - 25; // 25 = 24 + 1
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if (paddingSize > 0) |
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memset (buf + 24, 1, paddingSize); // padding TODO: fill with random data
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// we can't fill message header yet because encryption is required
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return tunnelMsg; |
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m_TunnelDataMsgs.push_back (m_CurrentTunnelDataMsg); |
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m_CurrentTunnelDataMsg = nullptr; |
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} |
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void TunnelGateway::SendTunnelDataMsg (const uint8_t * gwHash, uint32_t gwTunnel, i2p::I2NPMessage * msg) |
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orignal
11 years ago