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@ -23,10 +23,7 @@
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#include "P25Protocol.h"
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#include "Global.h"
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#include <map>
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#include <vector>
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static std::map<CIp, std::vector<CBuffer>> g_P25Pending;
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#include "Global.h"
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const uint8_t REC62[] = {0x62U, 0x02U, 0x02U, 0x0CU, 0x0BU, 0x12U, 0x64U, 0x00U, 0x00U, 0x80U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U,0x00U, 0x00U, 0x00U, 0x00U, 0x00U};
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const uint8_t REC63[] = {0x63U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U, 0x00U, 0x02U};
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@ -98,10 +95,6 @@ void CP25Protocol::Task(void)
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// crack the packet
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if ( IsValidDvPacket(Ip, Buffer, Frame) )
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{
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if (Frame == nullptr) {
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// Buffered packet, waiting for header
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}
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else {
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if( !m_uiStreamId && IsValidDvHeaderPacket(Ip, Buffer, Header) )
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{
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// callsign muted?
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@ -112,35 +105,16 @@ void CP25Protocol::Task(void)
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// Fix Header Orphan: If Header packet 0x66 was also parsed as a Frame with ID 0,
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// update its ID now that stream is open (m_uiStreamId is set).
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if (Frame && Frame->GetStreamId() == 0 && m_uiStreamId != 0) {
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// CDvFramePacket doesn't have SetStreamId? It's often immutable or difficult.
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// But CPacket has m_uiStreamId (protected).
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// CDvFramePacket usually exposes it?
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// Check Packet.h: CPacket has m_uiStreamId.
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// We need a way to set it.
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// CPacket::SetStreamId doesn't exist?
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// Let's check CPacket in Packet.h.
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// CPacket has `uint16_t m_uiStreamId;` protected.
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// It doesn't have a setter?
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// Wait, `SetStreamId` is needed.
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// Or recreate the frame?
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// Frame is unique_ptr.
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// frame = std::unique_ptr<CDvFramePacket>(new CDvFramePacket(&(Buffer.data()[offset]), m_uiStreamId, last));
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// Recreate frame with correct ID
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// We know the offset for 0x66 is 5U.
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// Let's recreate it.
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int offset = 5U; // For 0x66
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// But Frame is generic here. Buffer[0] might not be 0x66?
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// ValidDvHeaderPacket checks Buffer[0] == 0x66.
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// So yes, it is 0x66.
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bool last = false;
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// Recreate frame with correct ID
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Frame = std::unique_ptr<CDvFramePacket>(new CDvFramePacket(&(Buffer.data()[offset]), m_uiStreamId, last));
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printf("P25_DEBUG: Fixed Orphaned Header Frame 0x%X ID 0 -> 0x%X\n", Buffer.data()[0U], m_uiStreamId);
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}
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}
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}
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// push the packet
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OnDvFramePacketIn(Frame, &Ip);
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}
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}
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else if ( IsValidConnectPacket(Buffer, &Callsign) )
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{
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@ -344,19 +318,6 @@ bool CP25Protocol::IsValidDvPacket(const CIp &Ip, const CBuffer &Buffer, std::un
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{
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if ( (Buffer.size() >= 14) )
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{
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// P25/MMDVM sends 0x62..0x65 BEFORE 0x66 (Header/StreamID).
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// We must buffer these until 0x66 arrives to avoid "Orphaned Frame" loss.
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if (m_uiStreamId == 0 && Buffer.data()[0U] != 0x66U && Buffer.data()[0U] != 0x80U) {
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// Buffer this packet
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std::vector<CBuffer>& list = g_P25Pending[Ip];
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if (list.size() < 20) { // Safety limit
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list.push_back(Buffer);
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printf("P25_DEBUG: Buffering pre-header frame 0x%02X (Count=%zu)\n", Buffer.data()[0U], list.size());
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}
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frame = nullptr;
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return true; // Claim valid to prevent "Unknown" log, but return no frame
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}
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int offset = 0;
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bool last = false;
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@ -401,36 +362,21 @@ bool CP25Protocol::IsValidDvPacket(const CIp &Ip, const CBuffer &Buffer, std::un
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case 0x73U:
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offset = 4U;
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break;
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case 0x80U:
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case 0x80U:
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{
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printf("P25_DEBUG: RX 0x80 Terminator. Resetting StreamID 0x%X -> 0\n", m_uiStreamId);
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last = true;
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uint32_t lastId = m_uiStreamId; // Capture ID before reset
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m_uiStreamId = 0;
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g_P25Pending[Ip].clear(); // Clear any pending garbage
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// Override creation with lastId
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frame = std::unique_ptr<CDvFramePacket>(new CDvFramePacket(&(Buffer.data()[0U]), lastId, last));
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// Note: 0x80 usually has no payload or minimal.
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// CDvFramePacket constructor expects data pointer.
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// Buffer.data()[0U] is the 0x80 byte itself.
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// IsValidDvPacket logic for 0x80 usually did "break".
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// It fell through to `new CDvFramePacket(&(Buffer.data()[offset]), m_uiStreamId, last));`
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// offset was 0 !
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// (Buffer.data()[0U]) is correct.
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return true;
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// Return early to avoid the fallthrough creation with ID 0
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}
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break;
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default:
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printf("P25_DEBUG: Unknown P25 Byte0=0x%02X\n", Buffer.data()[0U]);
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break;
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}
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if (m_uiStreamId == 0 && Buffer.data()[0U] != 0x66U) {
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printf("P25_DEBUG: IsValidDvPacket ID=0 for Byte0=0x%02X (Should have been buffered)\n", Buffer.data()[0U]);
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}
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frame = std::unique_ptr<CDvFramePacket>(new CDvFramePacket(&(Buffer.data()[offset]), m_uiStreamId, last));
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return true;
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}
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@ -452,42 +398,6 @@ bool CP25Protocol::IsValidDvHeaderPacket(const CIp &Ip, const CBuffer &Buffer, s
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rpt1.SetCSModule(P25_MODULE_ID);
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rpt2.SetCSModule(' ');
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header = std::unique_ptr<CDvHeaderPacket>(new CDvHeaderPacket(csMY, CCallsign("CQCQCQ"), rpt1, rpt2, m_uiStreamId, false));
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// Replay buffered packets now that we have a Stream ID
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std::vector<CBuffer>& list = g_P25Pending[Ip];
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if (!list.empty()) {
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printf("P25_DEBUG: Replaying %zu buffered frames for StreamID 0x%X\n", list.size(), m_uiStreamId);
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for (const auto& buf : list) {
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std::unique_ptr<CDvFramePacket> delayedFrame;
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// We call IsValidDvPacket recursively? No, infinite loop with header check?
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// IsValidDvPacket logic needs to be manually invoked or bypassed
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// Actually we can just perform the creation logic here since we know they are valid frames
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int offset = 0;
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switch (buf.data()[0U]) {
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case 0x62U: offset = 10U; break;
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case 0x63U: offset = 1U; break;
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case 0x64U: offset = 5U; break;
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case 0x65U: offset = 5U; break;
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// ... assume standard offsets for buffered frames (they were filtered to be valid before?)
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// No, IsValidDvPacket checks size >= 14. We should duplicate that minimal check or just trust our buffer.
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// For simplicity, handle common 0x62-0x65 range which logic covers.
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default: offset = 5U; break; // Best effort default
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}
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// For logic consistency we should probably duplicate the switch?
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// Or call IsValidDvPacket but temporarily set m_uiStreamId != 0 (which it is now)
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// The IsValidDvPacket logic will create the frame if m_uiStreamId != 0.
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// But IsValidDvPacket signature is (..., unique_ptr&).
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// Yes taking advantage of m_uiStreamId being set!
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if (IsValidDvPacket(Ip, buf, delayedFrame)) {
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if (delayedFrame) {
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// Push immediately
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OnDvFramePacketIn(delayedFrame, &Ip);
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}
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}
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}
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list.clear();
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}
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}
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return true;
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}
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Dave Behnke
1 month ago