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@@ -30,14 +30,14 @@
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* @v tftp_open Pointer to a struct s_PXENV_TFTP_OPEN
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* @v s_PXENV_TFTP_OPEN::ServerIPAddress TFTP server IP address
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* @v s_PXENV_TFTP_OPEN::GatewayIPAddress Relay agent IP address, or 0.0.0.0
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- * @v s_PXENV_TFTP_OPEN::Filename Name of file to open
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+ * @v s_PXENV_TFTP_OPEN::FileName Name of file to open
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* @v s_PXENV_TFTP_OPEN::TFTPPort TFTP server UDP port
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* @v s_PXENV_TFTP_OPEN::PacketSize TFTP blksize option to request
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* @ret #PXENV_EXIT_SUCCESS File was opened
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* @ret #PXENV_EXIT_FAILURE File was not opened
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* @ret s_PXENV_TFTP_OPEN::Status PXE status code
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- * @ret s_PXENV_TFTP_OPEN::PacketSize Negotiated
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- * @err ....... ..........
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+ * @ret s_PXENV_TFTP_OPEN::PacketSize Negotiated blksize
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+ * @err #PXENV_STATUS_TFTP_INVALID_PACKET_SIZE Requested blksize too small
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*
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* Opens a TFTP connection for downloading a file a block at a time
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* using pxenv_tftp_read().
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@@ -46,11 +46,21 @@
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* routing will take place. See the relevant
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* @ref pxe_routing "implementation note" for more details.
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*
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- * s_PXENV_TFTP_OPEN::PacketSize must be at least 512.
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+ * The blksize negotiated with the TFTP server will be returned in
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+ * s_PXENV_TFTP_OPEN::PacketSize, and will be the size of data blocks
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+ * returned by subsequent calls to pxenv_tftp_read(). The TFTP server
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+ * may negotiate a smaller blksize than the caller requested.
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+ *
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+ * Some TFTP servers do not support TFTP options, and will therefore
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+ * not be able to use anything other than a fixed 512-byte blksize.
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+ * The PXE specification version 2.1 requires that the caller must
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+ * pass in s_PXENV_TFTP_OPEN::PacketSize with a value of 512 or
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+ * greater.
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*
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* You can only have one TFTP connection open at a time, because the
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- * PXE API requires the PXE stack to keep state about the open TFTP
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- * connection (rather than letting the caller do so).
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+ * PXE API requires the PXE stack to keep state (e.g. local and remote
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+ * port numbers, data block index) about the open TFTP connection,
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+ * rather than letting the caller do so.
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*
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* It is unclear precisely what constitutes a "TFTP open" operation.
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* Clearly, we must send the TFTP open request to the server. Since
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@@ -65,7 +75,15 @@
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* solution to this problem.
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*
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*
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-
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+ * @note If you pass in a value less than 512 for
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+ * s_PXENV_TFTP_OPEN::PacketSize, Etherboot will attempt to negotiate
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+ * this blksize with the TFTP server, even though such a value is not
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+ * permitted according to the PXE specification. If the TFTP server
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+ * ends up dictating a blksize larger than the value requested by the
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+ * caller (which is very probable in the case of a requested blksize
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+ * less than 512), then Etherboot will return the error
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+ * #PXENV_STATUS_TFTP_INVALID_PACKET_SIZE.
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+ *
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* @note According to the PXE specification version 2.1, this call
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* "opens a file for reading/writing", though how writing is to be
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* achieved without the existence of an API call %pxenv_tftp_write()
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@@ -253,44 +271,48 @@ file" operations. The problem is the unreliable nature of UDP
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transmissions and the lock-step mechanism employed by TFTP to
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guarantee file transfer. The lock-step mechanism requires that if we
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time out waiting for a packet to arrive, we must trigger its
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-retransmission by retransmitting our previously transmitted packet.
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+retransmission by retransmitting our own previously transmitted
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+packet.
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For example, suppose that pxenv_tftp_read() is called to read the
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first data block of a file from a server that does not support TFTP
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options, and that no data block is received within the timeout period.
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-In order to trigger the retransmission of this data block
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+In order to trigger the retransmission of this data block,
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pxenv_tftp_read() must retransmit the TFTP open request. However, the
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information used to build the TFTP open request is not available at
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-this time; it was provided only to the pxenv_tftp_open() call.
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+this time; it was provided only to the pxenv_tftp_open() call. Even
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+if we were able to retransmit a TFTP open request, we would have to
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+allocate a new local port number (and be prepared for data to arrive
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+from a new remote port number) in order to avoid violating the TFTP
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+protocol specification.
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The question of when to transmit the ACK packets is also awkward. At
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a first glance, it would seem to be fairly simple: acknowledge a
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packet immediately after receiving it. However, since the ACK packet
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may itself be lost, the next call to pxenv_tftp_read() must be
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-prepared to re-acknowledge the packet.
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+prepared to retransmit the acknowledgement.
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Another problem to consider is that the pxenv_tftp_open() API call
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must return an indication of whether or not the TFTP open request
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succeeded. In the case of a TFTP server that doesn't support TFTP
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options, the only indication of a successful open is the reception of
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the first data block. However, the pxenv_tftp_open() API provides no
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-way to return this data block at this time. Pretending that we lost
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-the data block and requesting retransmission is problematic, because
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-the only way to request retransmission of the first data block in such
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-a case is to reissue the TFTP open request, which has side effects
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-such as requiring the allocation of a new local port number.
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+way to return this data block at this time.
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At least some PXE stacks (e.g. NILO) solve this problem by violating
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the TFTP protocol and never bothering with retransmissions, relying on
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the TFTP server to retransmit when it times out waiting for an ACK.
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-This approach is dubious at best.
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+This approach is dubious at best; if, for example, the initial TFTP
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+open request is lost then NILO will believe that it has opened the
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+file and will eventually time out and give up while waiting for the
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+first packet to arrive.
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The only viable solution seems to be to allocate a buffer for the
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storage of the first data packet returned by the TFTP server, since we
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may receive this packet during the pxenv_tftp_open() call but have to
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return it from the subsequent pxenv_tftp_read() call. This buffer
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must be statically allocated and must be dedicated to providing a
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-temporary home to TFTP packets. There is nothing in the PXE
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+temporary home for TFTP packets. There is nothing in the PXE
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specification that prevents a caller from calling
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e.g. pxenv_undi_transmit() between calls to the TFTP API, so we cannot
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use the normal transmit/receive buffer for this purpose.
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@@ -334,6 +356,51 @@ acknowledgement packet.)
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In order to set up this invariant condition for the first call to
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pxenv_tftp_read(), pxenv_tftp_open() must do the following:
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- -
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+ - Construct and transmit the TFTP open request.
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+
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+ - Retransmit the TFTP open request (using a new local port number as
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+ necessary) until a response (DATA, OACK, or ERROR) is received.
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+
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+ - If the response is an OACK, acknowledge the OACK and retransmit
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+ the acknowledgement until the first DATA packet arrives.
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+
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+ - If we have a DATA packet, store it in a buffer ready for the first
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+ call to pxenv_tftp_read().
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+
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+This approach has the advantage of being fully compliant with both
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+RFC1350 (TFTP) and RFC2347 (TFTP options). It avoids unnecessary
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+retransmissions. The cost is approximately 1500 bytes of
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+uninitialised storage. Since there is demonstrably no way to avoid
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+paying this cost without either violating the protocol specifications
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+or introducing unnecessary retransmissions, we deem this to be a cost
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+worth paying.
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+
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+A small performance gain may be obtained by adding a single extra
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+"send ACK" in both pxenv_tftp_open() and pxenv_tftp_read() immediately
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+after receiving the DATA packet and copying it into the internal
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+buffer. The sequence of events for pxenv_tftp_read() then becomes:
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+
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+ - Copy the data packet from our buffer to the caller's buffer.
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+
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+ - If this was the last data packet, return immediately.
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+
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+ - Check to see if a TFTP data packet is waiting. If not, send an
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+ ACK for the data packet that we have just copied, and retransmit
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+ this ACK until the next data packet arrives.
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+
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+ - Copy the packet into our internal buffer, ready for the next call
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+ to pxenv_tftp_read().
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+
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+ - Send a single ACK for this data packet.
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+
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+Sending the ACK at this point allows the server to transmit the next
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+data block while our caller is processing the current packet. If this
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+ACK is lost, or the DATA packet it triggers is lost or is consumed by
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+something other than pxenv_tftp_read() (e.g. by calls to
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+pxenv_undi_isr()), then the next call to pxenv_tftp_read() will not
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+find a TFTP data packet waiting and will retransmit the ACK anyway.
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+
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+Note to future API designers at Intel: try to understand the
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+underlying network protocol first!
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*/
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