- Generated by
1.8.13
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lwIP
2.1.0
Lightweight IP stack
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Macros | |
| #define | LWIP_TCP 1 |
| #define | TCP_TTL IP_DEFAULT_TTL |
| #define | TCP_WND (4 * TCP_MSS) |
| #define | TCP_MAXRTX 12 |
| #define | TCP_SYNMAXRTX 6 |
| #define | TCP_QUEUE_OOSEQ LWIP_TCP |
| #define | LWIP_TCP_SACK_OUT 0 |
| #define | LWIP_TCP_MAX_SACK_NUM 4 |
| #define | TCP_MSS 536 |
| #define | TCP_CALCULATE_EFF_SEND_MSS 1 |
| #define | TCP_SND_BUF (2 * TCP_MSS) |
| #define | TCP_SND_QUEUELEN ((4 * (TCP_SND_BUF) + (TCP_MSS - 1))/(TCP_MSS)) |
| #define | TCP_SNDLOWAT LWIP_MIN(LWIP_MAX(((TCP_SND_BUF)/2), (2 * TCP_MSS) + 1), (TCP_SND_BUF) - 1) |
| #define | TCP_SNDQUEUELOWAT LWIP_MAX(((TCP_SND_QUEUELEN)/2), 5) |
| #define | TCP_OOSEQ_MAX_BYTES 0 |
| #define | TCP_OOSEQ_MAX_PBUFS 0 |
| #define | TCP_LISTEN_BACKLOG 0 |
| #define | TCP_DEFAULT_LISTEN_BACKLOG 0xff |
| #define | TCP_OVERSIZE TCP_MSS |
| #define | LWIP_TCP_TIMESTAMPS 0 |
| #define | TCP_WND_UPDATE_THRESHOLD LWIP_MIN((TCP_WND / 4), (TCP_MSS * 4)) |
| #define | LWIP_EVENT_API 0 |
| #define | LWIP_WND_SCALE 0 |
| #define | LWIP_TCP_PCB_NUM_EXT_ARGS 0 |
| #define | LWIP_ALTCP 0 |
| #define | LWIP_ALTCP_TLS 0 |
| #define LWIP_ALTCP 0 |
LWIP_ALTCP==1: enable the altcp API. altcp is an abstraction layer that prevents applications linking against the tcp.h functions but provides the same functionality. It is used to e.g. add SSL/TLS or proxy-connect support to an application written for the tcp callback API without that application knowing the protocol details.
With LWIP_ALTCP==0, applications written against the altcp API can still be compiled but are directly linked against the tcp.h callback API and then cannot use layered protocols.
| #define LWIP_ALTCP_TLS 0 |
LWIP_ALTCP_TLS==1: enable TLS support for altcp API. This needs a port of the functions in altcp_tls.h to a TLS library. A port to ARM mbedtls is provided with lwIP, see apps/altcp_tls/ directory and LWIP_ALTCP_TLS_MBEDTLS option.
| #define LWIP_EVENT_API 0 |
LWIP_EVENT_API and LWIP_CALLBACK_API: Only one of these should be set to 1. LWIP_EVENT_API==1: The user defines lwip_tcp_event() to receive all events (accept, sent, etc) that happen in the system. LWIP_CALLBACK_API==1: The PCB callback function is called directly for the event. This is the default.
| #define LWIP_TCP 1 |
LWIP_TCP==1: Turn on TCP.
| #define LWIP_TCP_MAX_SACK_NUM 4 |
LWIP_TCP_MAX_SACK_NUM: The maximum number of SACK values to include in TCP segments. Must be at least 1, but is only used if LWIP_TCP_SACK_OUT is enabled. NOTE: Even though we never send more than 3 or 4 SACK ranges in a single segment (depending on other options), setting this option to values greater than 4 is not pointless. This is basically the max number of SACK ranges we want to keep track of. As new data is delivered, some of the SACK ranges may be removed or merged. In that case some of those older SACK ranges may be used again. The amount of memory used to store SACK ranges is LWIP_TCP_MAX_SACK_NUM * 8 bytes for each TCP PCB.
| #define LWIP_TCP_PCB_NUM_EXT_ARGS 0 |
LWIP_TCP_PCB_NUM_EXT_ARGS: When this is > 0, every tcp pcb (including listen pcb) includes a number of additional argument entries in an array (see tcp_ext_arg_alloc_id)
| #define LWIP_TCP_SACK_OUT 0 |
LWIP_TCP_SACK_OUT==1: TCP will support sending selective acknowledgements (SACKs).
| #define LWIP_TCP_TIMESTAMPS 0 |
LWIP_TCP_TIMESTAMPS==1: support the TCP timestamp option. The timestamp option is currently only used to help remote hosts, it is not really used locally. Therefore, it is only enabled when a TS option is received in the initial SYN packet from a remote host.
| #define LWIP_WND_SCALE 0 |
LWIP_WND_SCALE and TCP_RCV_SCALE: Set LWIP_WND_SCALE to 1 to enable window scaling. Set TCP_RCV_SCALE to the desired scaling factor (shift count in the range of [0..14]). When LWIP_WND_SCALE is enabled but TCP_RCV_SCALE is 0, we can use a large send window while having a small receive window only.
| #define TCP_CALCULATE_EFF_SEND_MSS 1 |
TCP_CALCULATE_EFF_SEND_MSS: "The maximum size of a segment that TCP really sends, the 'effective send MSS,' MUST be the smaller of the send MSS (which reflects the available reassembly buffer size at the remote host) and the largest size permitted by the IP layer" (RFC 1122) Setting this to 1 enables code that checks TCP_MSS against the MTU of the netif used for a connection and limits the MSS if it would be too big otherwise.
| #define TCP_DEFAULT_LISTEN_BACKLOG 0xff |
The maximum allowed backlog for TCP listen netconns. This backlog is used unless another is explicitly specified. 0xff is the maximum (u8_t).
| #define TCP_LISTEN_BACKLOG 0 |
TCP_OOSEQ_PBUFS_LIMIT(pcb): Return the maximum number of pbufs to be queued on ooseq per pcb, given the pcb. Only valid for TCP_QUEUE_OOSEQ==1 && TCP_OOSEQ_MAX_PBUFS==1. Use this to override TCP_OOSEQ_MAX_PBUFS to a dynamic value per pcb. TCP_LISTEN_BACKLOG: Enable the backlog option for tcp listen pcb.
| #define TCP_MAXRTX 12 |
TCP_MAXRTX: Maximum number of retransmissions of data segments.
| #define TCP_MSS 536 |
TCP_MSS: TCP Maximum segment size. (default is 536, a conservative default, you might want to increase this.) For the receive side, this MSS is advertised to the remote side when opening a connection. For the transmit size, this MSS sets an upper limit on the MSS advertised by the remote host.
| #define TCP_OOSEQ_MAX_BYTES 0 |
TCP_OOSEQ_MAX_BYTES: The default maximum number of bytes queued on ooseq per pcb if TCP_OOSEQ_BYTES_LIMIT is not defined. Default is 0 (no limit). Only valid for TCP_QUEUE_OOSEQ==1.
| #define TCP_OOSEQ_MAX_PBUFS 0 |
TCP_OOSEQ_BYTES_LIMIT(pcb): Return the maximum number of bytes to be queued on ooseq per pcb, given the pcb. Only valid for TCP_QUEUE_OOSEQ==1 && TCP_OOSEQ_MAX_BYTES==1. Use this to override TCP_OOSEQ_MAX_BYTES to a dynamic value per pcb. TCP_OOSEQ_MAX_PBUFS: The default maximum number of pbufs queued on ooseq per pcb if TCP_OOSEQ_BYTES_LIMIT is not defined. Default is 0 (no limit). Only valid for TCP_QUEUE_OOSEQ==1.
| #define TCP_OVERSIZE TCP_MSS |
TCP_OVERSIZE: The maximum number of bytes that tcp_write may allocate ahead of time in an attempt to create shorter pbuf chains for transmission. The meaningful range is 0 to TCP_MSS. Some suggested values are:
0: Disable oversized allocation. Each tcp_write() allocates a new pbuf (old behaviour). 1: Allocate size-aligned pbufs with minimal excess. Use this if your scatter-gather DMA requires aligned fragments. 128: Limit the pbuf/memory overhead to 20%. TCP_MSS: Try to create unfragmented TCP packets. TCP_MSS/4: Try to create 4 fragments or less per TCP packet.
| #define TCP_QUEUE_OOSEQ LWIP_TCP |
TCP_QUEUE_OOSEQ==1: TCP will queue segments that arrive out of order. Define to 0 if your device is low on memory.
| #define TCP_SND_BUF (2 * TCP_MSS) |
TCP_SND_BUF: TCP sender buffer space (bytes). To achieve good performance, this should be at least 2 * TCP_MSS.
| #define TCP_SND_QUEUELEN ((4 * (TCP_SND_BUF) + (TCP_MSS - 1))/(TCP_MSS)) |
TCP_SND_QUEUELEN: TCP sender buffer space (pbufs). This must be at least as much as (2 * TCP_SND_BUF/TCP_MSS) for things to work.
| #define TCP_SNDLOWAT LWIP_MIN(LWIP_MAX(((TCP_SND_BUF)/2), (2 * TCP_MSS) + 1), (TCP_SND_BUF) - 1) |
TCP_SNDLOWAT: TCP writable space (bytes). This must be less than TCP_SND_BUF. It is the amount of space which must be available in the TCP snd_buf for select to return writable (combined with TCP_SNDQUEUELOWAT).
| #define TCP_SNDQUEUELOWAT LWIP_MAX(((TCP_SND_QUEUELEN)/2), 5) |
TCP_SNDQUEUELOWAT: TCP writable bufs (pbuf count). This must be less than TCP_SND_QUEUELEN. If the number of pbufs queued on a pcb drops below this number, select returns writable (combined with TCP_SNDLOWAT).
| #define TCP_SYNMAXRTX 6 |
TCP_SYNMAXRTX: Maximum number of retransmissions of SYN segments.
| #define TCP_TTL IP_DEFAULT_TTL |
TCP_TTL: Default Time-To-Live value.
| #define TCP_WND (4 * TCP_MSS) |
TCP_WND: The size of a TCP window. This must be at least (2 * TCP_MSS) for things to work well. ATTENTION: when using TCP_RCV_SCALE, TCP_WND is the total size with scaling applied. Maximum window value in the TCP header will be TCP_WND >> TCP_RCV_SCALE
1.8.13