# # For a description of the syntax of this configuration file, # see the file kconfig-language.txt in the NuttX tools repository. # menu "TCP/IP Networking" config NET_TCP bool "TCP/IP Networking" default n select NET_READAHEAD if !NET_TCP_NO_STACK ---help--- Enable or disable TCP networking support. config NET_TCP_NO_STACK bool "Disable TCP/IP Stack" default n select NET_TCP ---help--- Build without TCP/IP stack even if TCP networking support enabled. if NET_TCP && !NET_TCP_NO_STACK config NET_TCP_DELAYED_ACK bool "TCP/IP Delayed ACK" default n ---help--- RFC 1122: A host that is receiving a stream of TCP data segments can increase efficiency in both the Internet and the hosts by sending fewer than one ACK (acknowledgment) segment per data segment received; this is known as a "delayed ACK". TCP should implement a delayed ACK, but an ACK should not be excessively delayed; in particular, the delay MUST be less than 0.5 seconds, and in a stream of full-sized segments there should be an ACK for at least every second segments. config NET_TCP_KEEPALIVE bool "TCP/IP Keep-alive support" default n select NET_TCPPROTO_OPTIONS ---help--- Enable support for the SO_KEEPALIVE socket option config NET_TCPURGDATA bool "Urgent data" default n ---help--- Determines if support for TCP urgent data notification should be compiled in. Urgent data (out-of-band data) is a rarely used TCP feature that is very seldom would be required. config NET_TCP_PREALLOC_CONNS int "Preallocated TCP/IP connections" default 8 ---help--- Number of TCP/IP connections (all tasks). This number of connections will be pre-allocated during system boot. If dynamic connections allocation is enabled, more connections may be allocated at a later time, as the system needs them. Else this will be the maximum number of connections available to the system at all times. Set to 0 to disable (and rely only on dynamic allocations). config NET_TCP_ALLOC_CONNS int "Dynamic TCP/IP connections allocation" default 0 ---help--- Dynamic memory allocations for TCP/IP. When set to 0 all dynamic allocations are disabled. When set to 1 a new connection will be allocated every time, and it will be free'd when no longer needed. Setting this to 2 or more will allocate the connections in batches (with batch size equal to this config). When a connection is no longer needed, it will be returned to the free connections pool, and it will never be deallocated! config NET_TCP_MAX_CONNS int "Maximum number of TCP/IP connections" default 0 depends on NET_TCP_ALLOC_CONNS > 0 ---help--- If dynamic connections allocation is selected (NET_TCP_ALLOC_CONNS > 0) this will limit the number of connections that can be allocated. This is useful in case the system is under very heavy load (or under attack), ensuring that the heap will not be exhausted. config NET_TCP_NPOLLWAITERS int "Number of TCP poll waiters" default 1 config NET_TCP_RTO int "RTO of TCP/IP connections" default 3 ---help--- RTO of TCP/IP connections (all tasks) config NET_TCP_MAXRTX int "Maximum retransmitted number of TCP/IP data packet" default 8 config NET_TCP_MAXSYNRTX int "Maximum retransmitted number of TCP/IP SYN packet" default 5 config NET_TCP_WAIT_TIMEOUT int "TIME_WAIT Length of TCP/IP connections" default 120 ---help--- TIME_WAIT Length of TCP/IP connections (all tasks). In units of seconds. config NET_MAX_LISTENPORTS int "Number of listening ports" default 20 ---help--- Maximum number of listening TCP/IP ports (all tasks). Default: 20 config NET_TCP_FAST_RETRANSMIT bool "Enable the Fast Retransmit algorithm" default y ---help--- RFC2001: 3. Fast Retransmit Modifications to the congestion avoidance algorithm were proposed in 1990 [3]. Before describing the change, realize that TCP may generate an immediate acknowledgment (a duplicate ACK) when an out- of-order segment is received (Section 4.2.2.21 of [1], with a note that one reason for doing so was for the experimental fast- retransmit algorithm). This duplicate ACK should not be delayed. The purpose of this duplicate ACK is to let the other end know that a segment was received out of order, and to tell it what sequence number is expected. Since TCP does not know whether a duplicate ACK is caused by a lost segment or just a reordering of segments, it waits for a small number of duplicate ACKs to be received. It is assumed that if there is just a reordering of the segments, there will be only one or two duplicate ACKs before the reordered segment is processed, which will then generate a new ACK. If three or more duplicate ACKs are received in a row, it is a strong indication that a segment has been lost. TCP then performs a retransmission of what appears to be the missing segment, without waiting for a retransmission timer to expire. config NET_TCP_WINDOW_SCALE bool "Enable TCP/IP Window Scale Option" default n ---help--- RFC1323: 2. TCP WINDOW SCALE OPTION The window scale extension expands the definition of the TCP window to 32 bits and then uses a scale factor to carry this 32- bit value in the 16-bit Window field of the TCP header (SEG.WND in RFC-793). if NET_TCP_WINDOW_SCALE config NET_TCP_WINDOW_SCALE_FACTOR int "TCP/IP Window Scale Factor" default 0 ---help--- This is the default value for window scale factor. endif # NET_TCP_WINDOW_SCALE config NET_TCP_OUT_OF_ORDER bool "Enable TCP/IP Out Of Order segments" default n ---help--- TCP will queue segments that arrive out of order. if NET_TCP_OUT_OF_ORDER config NET_TCP_OUT_OF_ORDER_BUFSIZE int "TCP/IP Out Of Order buffer size" default 16384 ---help--- This is the default value for out-of-order buffer size. endif # NET_TCP_OUT_OF_ORDER config NET_TCP_SELECTIVE_ACK bool "Enable TCP/IP Selective Acknowledgment Options" default n select NET_TCP_OUT_OF_ORDER ---help--- Enable RFC2018(TCP Selective Acknowledgment Options): Selective Acknowledgment (SACK) is a strategy which corrects this behavior in the face of multiple dropped segments. With selective acknowledgments, the data receiver can inform the sender about all segments that have arrived successfully, so the sender need retransmit only the segments that have actually been lost. config NET_TCP_NOTIFIER bool "Support TCP notifications" default n depends on SCHED_WORKQUEUE select WQUEUE_NOTIFIER ---help--- Enable building of TCP notifier logic that will execute a worker function on the low priority work queue when read-ahead data is available or when a TCP connection is lost. This is is a general purpose notifier, but was developed specifically to support poll() logic where the poll must wait for these events. config NET_TCP_WRITE_BUFFERS bool "Enable TCP/IP write buffering" default n select NET_WRITE_BUFFERS ---help--- Write buffers allows buffering of ongoing TCP/IP packets, providing for higher performance, streamed output. You might want to disable TCP/IP write buffering on a highly memory memory constrained system where there are no performance issues. if NET_TCP_WRITE_BUFFERS config NET_TCP_NWRBCHAINS int "Number of pre-allocated I/O buffer chain heads" default 8 ---help--- These tiny nodes are used as "containers" to support queuing of TCP write buffers. This setting will limit the number of TCP write operations that can be "in-flight" at any give time. So a good choice for this value would be the same as the maximum number of TCP connections. config NET_TCP_WRBUFFER_DEBUG bool "Force write buffer debug" default n depends on DEBUG_FEATURES select IOB_DEBUG ---help--- This option will force debug output from TCP write buffer logic, even without network debug output. This is not normally something that would want to do but is convenient if you are debugging the write buffer logic and do not want to get overloaded with other network-related debug output. config NET_TCP_WRBUFFER_DUMP bool "Force write buffer dump" default n depends on DEBUG_NET || NET_TCP_WRBUFFER_DEBUG select IOB_DEBUG ---help--- Dump the contents of the write buffers. You do not want to do this unless you really want to analyze the write buffer transfers in detail. endif # NET_TCP_WRITE_BUFFERS config NET_TCP_RECV_PACK bool "Enable TCP/IP receive data in a continuous poll" default y ---help--- This option will enable TCP/IP receive data into a continuous iob chain. Fragmentation of network data will intensify iob consumption, if the device receives a message storm of fragmented packets, the iob cache will not be effectively used, this is not allowed on iot devices since the resources of such devices are limited. Of course, this also takes some disadvantages: data needs to be copied. This option will brings some balance on resource-constrained devices, enable this config to reduce the consumption of iob, the received iob buffers will be merged into the contiguous iob chain. config NET_TCPBACKLOG bool "TCP/IP backlog support" default n ---help--- Incoming connections pend in a backlog until accept() is called. The size of the backlog is selected when listen() is called. if NET_TCPBACKLOG config NET_TCPBACKLOG_CONNS int "TCP backlog conns threshold" default 8 ---help--- Maximum number of TCP backlog connections (all tasks). endif # NET_TCPBACKLOG config NET_SENDFILE bool "Optimized network sendfile()" default n ---help--- Support larger, higher performance sendfile() for transferring files out a TCP connection. endif # NET_TCP && !NET_TCP_NO_STACK if NET_STATISTICS config NET_TCP_DEBUG_DROP_RECV bool "TCP/IP debug feature to drop receive packet" default n ---help--- This is the debug feature to drop TCP/IP received packet if NET_TCP_DEBUG_DROP_RECV config NET_TCP_DEBUG_DROP_RECV_PROBABILITY int "TCP/IP drop probability of received packet" range 50 10000 default 50 ---help--- This is the drop probability of received packet, Default: 1/50 endif # NET_TCP_DEBUG_DROP_RECV config NET_TCP_DEBUG_DROP_SEND bool "TCP/IP debug feature to drop send packet" default n ---help--- This is the debug feature to drop TCP/IP send packet if NET_TCP_DEBUG_DROP_SEND config NET_TCP_DEBUG_DROP_SEND_PROBABILITY int "TCP/IP drop probability of send packet" range 50 10000 default 50 ---help--- This is the drop probability of send packet, Default: 1/50 endif # NET_TCP_DEBUG_DROP_SEND endif # NET_STATISTICS endmenu # TCP/IP Networking