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author | Matthias P. Braendli <matthias.braendli@mpb.li> | 2016-03-04 10:33:13 +0100 |
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committer | Matthias P. Braendli <matthias.braendli@mpb.li> | 2016-03-04 10:33:13 +0100 |
commit | 57eb1f4cb909c233131b48ae481a3e4826e309ff (patch) | |
tree | 5d2edf3013b8a40580e505192adac0934344707b | |
parent | 76d3a7b66262bddfc7625f24c000bb1a889a07de (diff) | |
download | dabmux-57eb1f4cb909c233131b48ae481a3e4826e309ff.tar.gz dabmux-57eb1f4cb909c233131b48ae481a3e4826e309ff.tar.bz2 dabmux-57eb1f4cb909c233131b48ae481a3e4826e309ff.zip |
EDI: handle fec=0, fragment AF packets
-rw-r--r-- | src/dabOutput/edi/PFT.cpp | 104 |
1 files changed, 69 insertions, 35 deletions
diff --git a/src/dabOutput/edi/PFT.cpp b/src/dabOutput/edi/PFT.cpp index 7f463cc..6bed4c1 100644 --- a/src/dabOutput/edi/PFT.cpp +++ b/src/dabOutput/edi/PFT.cpp @@ -115,52 +115,84 @@ RSBlock PFT::Protect(AFPacket af_packet) vector< vector<uint8_t> > PFT::ProtectAndFragment(AFPacket af_packet) { - RSBlock rs_block = Protect(af_packet); + const bool enable_RS = (m_m > 0); + + if (enable_RS) { + RSBlock rs_block = Protect(af_packet); #if 0 - fprintf(stderr, " af_packet (%zu):", af_packet.size()); - for (size_t i = 0; i < af_packet.size(); i++) { - fprintf(stderr, "%02x ", af_packet[i]); - } - fprintf(stderr, "\n"); + fprintf(stderr, " af_packet (%zu):", af_packet.size()); + for (size_t i = 0; i < af_packet.size(); i++) { + fprintf(stderr, "%02x ", af_packet[i]); + } + fprintf(stderr, "\n"); - fprintf(stderr, " rs_block (%zu):", rs_block.size()); - for (size_t i = 0; i < rs_block.size(); i++) { - fprintf(stderr, "%02x ", rs_block[i]); - } - fprintf(stderr, "\n"); + fprintf(stderr, " rs_block (%zu):", rs_block.size()); + for (size_t i = 0; i < rs_block.size(); i++) { + fprintf(stderr, "%02x ", rs_block[i]); + } + fprintf(stderr, "\n"); #endif - // TS 102 821 7.2.2: s_max = MIN(floor(c*p/(m+1)), MTU - h)) - const size_t max_payload_size = ( m_num_chunks * ParityBytes ) / (m_m + 1); + // TS 102 821 7.2.2: s_max = MIN(floor(c*p/(m+1)), MTU - h)) + const size_t max_payload_size = ( m_num_chunks * ParityBytes ) / (m_m + 1); - // Calculate fragment count and size - // TS 102 821 7.2.2: ceil((l + c*p + z) / s_max) - // l + c*p + z = length of RS block - const size_t num_fragments = CEIL_DIV(rs_block.size(), max_payload_size); + // Calculate fragment count and size + // TS 102 821 7.2.2: ceil((l + c*p + z) / s_max) + // l + c*p + z = length of RS block + const size_t num_fragments = CEIL_DIV(rs_block.size(), max_payload_size); - // TS 102 821 7.2.2: ceil((l + c*p + z) / f) - const size_t fragment_size = CEIL_DIV(rs_block.size(), num_fragments); + // TS 102 821 7.2.2: ceil((l + c*p + z) / f) + const size_t fragment_size = CEIL_DIV(rs_block.size(), num_fragments); - if (m_verbose) - fprintf(stderr, " PnF fragment_size %zu, num frag %zu\n", - fragment_size, num_fragments); + if (m_verbose) + fprintf(stderr, " PnF fragment_size %zu, num frag %zu\n", + fragment_size, num_fragments); - vector< vector<uint8_t> > fragments(num_fragments); + vector< vector<uint8_t> > fragments(num_fragments); - for (size_t i = 0; i < num_fragments; i++) { - fragments[i].resize(fragment_size); - for (size_t j = 0; j < fragment_size; j++) { - if (j*num_fragments + i > rs_block.size()) { - fragments[i][j] = 0; - } - else { - fragments[i][j] = rs_block[j*num_fragments + i]; + for (size_t i = 0; i < num_fragments; i++) { + fragments[i].resize(fragment_size); + for (size_t j = 0; j < fragment_size; j++) { + if (j*num_fragments + i > rs_block.size()) { + fragments[i][j] = 0; + } + else { + fragments[i][j] = rs_block[j*num_fragments + i]; + } } } + + return fragments; } + else { // No RS, only fragmentation + // TS 102 821 7.2.2: s_max = MTU - h + const size_t max_payload_size = 1000; // TODO define properly + + // Calculate fragment count and size + // TS 102 821 7.2.2: ceil((l + c*p + z) / s_max) + // l + c*p + z = length of AF packet + const size_t num_fragments = CEIL_DIV(af_packet.size(), max_payload_size); + + // TS 102 821 7.2.2: ceil((l + c*p + z) / f) + const size_t fragment_size = CEIL_DIV(af_packet.size(), num_fragments); + vector< vector<uint8_t> > fragments(num_fragments); + + for (size_t i = 0; i < num_fragments; i++) { + //fragments[i].reserve(fragment_size); + + for (size_t j = 0; j < fragment_size; j++) { + if (i*fragment_size + j > af_packet.size()) { + break; + } + else { + fragments[i].push_back(af_packet[i*fragment_size + j]); + } + } + } - return fragments; + return fragments; + } } std::vector< PFTFragment > PFT::Assemble(AFPacket af_packet) @@ -168,7 +200,7 @@ std::vector< PFTFragment > PFT::Assemble(AFPacket af_packet) vector< vector<uint8_t> > fragments = ProtectAndFragment(af_packet); vector< vector<uint8_t> > pft_fragments; // These contain PF headers - const bool enable_RS = true; + const bool enable_RS = (m_m > 0); const bool enable_transport = true; unsigned int findex = 0; @@ -178,11 +210,13 @@ std::vector< PFTFragment > PFT::Assemble(AFPacket af_packet) // calculate size of chunk: // TS 102 821 7.2.2: k = ceil(l / c) // chunk_len does not include the 48 bytes of protection. - const size_t chunk_len = CEIL_DIV(af_packet.size(), m_num_chunks); + const size_t chunk_len = enable_RS ? + CEIL_DIV(af_packet.size(), m_num_chunks) : 0; // The last RS chunk is zero padded // TS 102 821 7.2.2: z = c*k - l - const size_t zero_pad = m_num_chunks * chunk_len - af_packet.size(); + const size_t zero_pad = enable_RS ? + m_num_chunks * chunk_len - af_packet.size() : 0; for (size_t i = 0; i < fragments.size(); i++) { const vector<uint8_t>& fragment = fragments[i]; |