fsl_etsec: Fix Tx BD ring wrapping handling
Current code that handles Tx buffer desciprtor ring scanning employs the following algorithm: 1. Restore current buffer descriptor pointer from TBPTRn 2. Process current descriptor 3. If current descriptor has BD_WRAP flag set set current descriptor pointer to start of the descriptor ring 4. If current descriptor points to start of the ring exit the loop, otherwise increment current descriptor pointer and go to #2 5. Store current descriptor in TBPTRn The way the code is implemented results in buffer descriptor ring being scanned starting at offset/descriptor #0. While covering 99% of the cases, this algorithm becomes problematic for a number of edge cases. Consider the following scenario: guest OS driver initializes descriptor ring to N individual descriptors and starts sending data out. Depending on the volume of traffic and probably guest OS driver implementation it is possible that an edge case where a packet, spread across 2 descriptors is placed in descriptors N - 1 and 0 in that order(it is easy to imagine similar examples involving more than 2 descriptors). What happens then is aforementioned algorithm starts at descriptor 0, sees a descriptor marked as BD_LAST, which it happily sends out as a separate packet(very much malformed at this point) then the iteration continues and the first part of the original packet is tacked to the next transmission which ends up being bogus as well. This behvaiour can be pretty reliably observed when scp'ing data from a guest OS via TAP interface for files larger than 160K (every time for 700K+). This patch changes the scanning algorithm to do the following: 1. Restore "current" buffer descriptor pointer from TBPTRn 2. If "current" descriptor does not have BD_TX_READY set, goto #6 3. Process current descriptor 4. If "current" descriptor has BD_WRAP flag set "current" descriptor pointer to start of the descriptor ring otherwise set increment "current" by the size of one descriptor 5. Goto #1 6. Save "current" buffer descriptor in TBPTRn This way we preserve the information about which descriptor was processed last and always start where we left off avoiding the original problem. On top of that, judging by the following excerpt from MPC8548ERM (p. 14-48): "... When the end of the TxBD ring is reached, eTSEC initializes TBPTRn to the value in the corresponding TBASEn. The TBPTR register is internally written by the eTSEC’s DMA controller during transmission. The pointer increments by eight (bytes) each time a descriptor is closed successfully by the eTSEC..." revised algorithm might also a more correct way of emulating this aspect of eTSEC peripheral. Cc: Alexander Graf <agraf@suse.de> Cc: Scott Wood <scottwood@freescale.com> Cc: Jason Wang <jasowang@redhat.com> Cc: qemu-devel@nongnu.org Signed-off-by: Andrey Smirnov <andrew.smirnov@gmail.com> Signed-off-by: Jason Wang <jasowang@redhat.com>
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@ -358,25 +358,24 @@ void etsec_walk_tx_ring(eTSEC *etsec, int ring_nbr)
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/* Save flags before BD update */
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bd_flags = bd.flags;
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if (bd_flags & BD_TX_READY) {
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process_tx_bd(etsec, &bd);
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/* Write back BD after update */
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write_buffer_descriptor(etsec, bd_addr, &bd);
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if (!(bd_flags & BD_TX_READY)) {
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break;
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}
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process_tx_bd(etsec, &bd);
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/* Write back BD after update */
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write_buffer_descriptor(etsec, bd_addr, &bd);
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/* Wrap or next BD */
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if (bd_flags & BD_WRAP) {
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bd_addr = ring_base;
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} else {
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bd_addr += sizeof(eTSEC_rxtx_bd);
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}
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} while (TRUE);
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} while (bd_addr != ring_base);
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bd_addr = ring_base;
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/* Save the Buffer Descriptor Pointers to current bd */
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/* Save the Buffer Descriptor Pointers to last bd that was not
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* succesfully closed */
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etsec->regs[TBPTR0 + ring_nbr].value = bd_addr;
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/* Set transmit halt THLTx */
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