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108 lines
6.3 KiB
Markdown
108 lines
6.3 KiB
Markdown
# ESP-NETIF architecture
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| (A) USER CODE |
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.............| init settings events |
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. +----------------------------------------+
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. . | *
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. . | *
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--------+ +===========================+ * +-----------------------+
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| | new/config get/set | * | |
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| | |...*.......| init |
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| |---------------------------| * | |
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init | | |**** | |
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start |********| event handler |***********| DHCP |
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stop | | | | |
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| |---------------------------| | |
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| | | | NETIF |
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+-----| | | +-----------------+ |
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| glue|----<---| esp_netif_transmit |--<--------| netif_output | |
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| | | | | | | |
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| |---->---| esp_netif_receive |-->--|-----| netif_input | |
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| | | | | | + ----------------+ |
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| |....<...| esp_netif_free_rx_buffer |...<.|..|..| packet buffer |
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+-----| | | | | | |
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| | | | | | (D) |
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(B) | | (C) | | | +-----------------------+
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--------+ +===========================+ | |
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communication | | NETWORK STACK
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DRIVER ESP-NETIF | |
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+-----------------------+ | |
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| l2tap_write |-------| |
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| l2tap_eth_filter |----------|
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| (E) |
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+-----------------------+
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ESP-NETIF L2 TAP
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## Data/event flow:
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* `........` Initialization line from user code to esp-netif and comm driver
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* `--<--->--` Data packets going from communication media to TCP/IP stack and back
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* `********` Events agregated in ESP-NETIP propagates to driver, user code and network stack
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* `|` User settings and runtime configuration
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## Components:
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### A) User code, boiler plate
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Overall application interaction with communication media and network stack
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* initialization code
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- create a new instance of ESP-NETIF
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- configure the object with
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1) netif specific options (flags, behaviour, name)
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2) network stack options (netif init and input functions, not publicly available)
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3) IO driver specific options (transmit, tx_free functions, IO driver handle)
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- setup event handlers
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- use default handlers for common interfaces defined in IO drivers; or define a specific handlers
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for customised behaviour/new interfaces
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- register handlers for app related events (such as IP lost/acquired)
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- interact with network interfaces using ESP-NETIF API
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### B) Communication driver, IO driver, media driver
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* event handler
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- define behaviour patterns of interaction with ESP-NETIF (example: ehternet link-up -> turn netif on)
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* glue IO layer: adapt the input/output functions to use esp-netif transmit/input/free_rx
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- install driver_transmit to appropriate ESP-NETIF object, so that outgoing packets from
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network stack are passed to the IO driver
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- calls esp_netif_receive to pass incoming data to network stack
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### C) ESP-NETIF
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* init API (new, configure)
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* IO API: for passing data between IO driver and network stack
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* event/action API (esp-netif lifecycle management)
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- building blocks for designing event handlers
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* setters, getters
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* network stack abstraction: enabling user interaction with TCP/IP stack
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- netif up/down
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- DHCP server, client
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- DNS API
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* driver conversion utilities
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### D) Network stack: no public interaction with user code (wrtt interfaces)
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### E) ESP-NETIF L2 TAP Interface
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The ESP-NETIF L2 TAP interface is ESP-IDF mechanism utilized to access Data Link Layer (L2 per OSI/ISO) for frame reception and
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transmission from user application. Its typical usage in embedded world might be implementation of non-IP related protocols
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such as PTP, Wake on LAN and others. Note that only Ethernet (IEEE 802.3)
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is currently supported.
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From user perspective, the ESP-NETIF L2 TAP interface is accessed using file descriptors of VFS which provides a file-like interfacing
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(using functions like ``open()``, ``read()``, ``write()``, etc).
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There is only one ESP-NETIF L2 TAP interface device (path name) available. However multiple file descriptors with different configuration
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can be opened at a time since the ESP-NETIF L2 TAP interface can be understood as generic entry point to the NETIF internal structure.
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Important is then specific configuration of particular file descriptor. It can be configured to give an access to specific Network Interface
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identified by ``if_key`` (e.g. `ETH_DEF`) and to filter only specific frames based on their type (e.g. Ethernet type in case of IEEE 802.3).
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Filtering only specific frames is crucial since the ESP-NETIF L2 TAP needs to work along with IP stack and so the IP related traffic
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(IP, ARP, etc.) should not be passed directly to the user application. Even though such option is still configurable, it is not recommended in
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standard use cases. Filtering is also advantageous from a perspective the user’s application gets access only to frame types it is interested
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in and the remaining traffic is either passed to other L2 TAP file descriptors or to IP stack.
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