Introduce a LWS_WITH_WOL and an api to wake a mac address, optionally with
an address bind to the local interface to go out on.
Add a helper to parse ascii mac addresses well, and add tests.
Also thanks to OgreTransporter
https://github.com/warmcat/libwebsockets/issues/3016
Linux has a sockopt flag defined by RFC5014 that informs IPv6 systems with
SLAAC config to prefer to bind the socket to a public address instead of
any temporary private address.
This patch adds a client info flag LCCSCF_IPV6_PREFER_PUBLIC_ADDR that lets
the user indicate the client socket should be prepared with the public
address binding preference.
Currently it's only implemented on Linux.
Introduce a very lightweight html5 + css2.1+ stateful stream parser, along
the same lines as the lws json and cbor ones.
This is interesting primarily because of just how low-resource it is for
modest css + html, it uses an lwsac to hold the entirity of the css in
memory at once but the html is parsed in chunks without any need to keep
previous chunks around (chunks may be as small as 1 byte).
A user callback receives element entry and exit callbacks with payload and
all attributes parsed out, CSS related to the active element stack is
parsed to provide a list of active css attributes, which takes heap for the
duration of the parsing.
In effect this provides rich information about the html and css state to
the callback, which has the job of producing the layout in a user-defined
way.
As such, there is no DOM in memory at one time, there is only a stack of
active elements like <html><body><div>xxx with their associated attributes
(like class). So as it is, it does not support DOM modification such as
JS changing elements after parsing, although elements with interesting IDs
could be kept around by the callback. There is a corresponding tiny and
relatively flat heap usage regardless of html size.
Default CSS is specified as recommended in the CSS 2.1 standard.
Inline <style></style> elements are supported, but not pre-html5 style= in
element attributes, since these are incompatible with strict CSP.
What the attributes should mean on your system, eg, font-size, font-family
etc is left for the user callback to decide, along with how to lay out the
items using the CSS attributes, and render them.
Fixed point 32.32 constants are used (fraction expressed at parts in 100M)
instead of floating point.
If you have presentation needs, even on a constrained display on a
constrained microcontroller, this makes it feasible to use standardized
markup and styling instead of roll your own.
Use pkg-config to search for wolfssl.pc which is available since version
3.3.3 and
a50af85e95
This will avoid setting manually LWS_WOLFSSL_{INCLUDE_DIRS,LIBRARIES}
Signed-off-by: Fabrice Fontaine <fontaine.fabrice@gmail.com>
Fix the following build failure without C++ raised since version 4.2.0
and
962e9ee345:
CMake Error at /nvmedata/autobuild/instance-11/output-1/per-package/libwebsockets/host/share/cmake-3.18/Modules/CMakeTestCXXCompiler.cmake:59 (message):
The C++ compiler
"/usr/bin/clang++"
is not able to compile a simple test program.
Fixes:
- http://autobuild.buildroot.org/results/550e7f7d54adf74f8cc078be5b91b3567d622ede
Signed-off-by: Fabrice Fontaine <fontaine.fabrice@gmail.com>
This adds optional display list support to lws_display, using DLOs (Display
List Objects). DLOs for rectangle / rounded rectangle (with circle as the
degenerate case), PNGs, JPEG and compressed, antialiased bitmapped fonts
and text primitives are provided.
Logical DLOs are instantiated on heap and listed into an lws_display_list
owner, DLOs handle attributes like position, bounding box, colour +
opacity, and local error diffusion backing buffer.
When the display list is complete, it can be rasterized a line at a time,
with scoped error diffusion resolved, such that no allocation for the
framebuffer is required at any point. DLOs are freed as the rasterization
moves beyond their bounding box.
Adds a platform registry binding names and other metadata to lws_display
fonts / PNGs / JPEGs. Provides registration, destruction and best match
selection apis.
Introduce a rewritten picojpeg that is able to operate statefully and
rasterize into an internal line ringbuffer, emitting a line of pixels
at a time to the caller. This is the JPEG equivalent of the lws
PNG decoder.
JPEG is based around 8- or 16- line height MCU blocks, depending on
the chroma coding, mandating a corresponding internal line buffer
requirement.
Example total heap requirement for various kinds of 600px width jpeg
decoding:
Grayscale: 6.5KB
RGB 4:4:4: 16.4KB
RGB 4:2:2v: 16.4KB
RGB 4:4:2h: 31KB
RGB 4:4:0: 31KB
No other allocations occur during decode.
Stateful stream parsing means decode can be paused for lack of input
at any time and resumed seamlessly when more input becomes available.
The adapted upng has a very compact fully-stateful lws-aligned
implementation already.
Adapt it to also be buildable and operable standalone, and to
understand gzip headers.
Provide some apis to inflate gzip simply reusing opaque inflator
contexts from upng.
Provide an api test that inflates gzip files from stdin -> stdout
Add a rewritten version of upng that decodes statefully line by line, and so
does not require a bitmap buffer for the output. This compares to original
upng approach that needs heap allocations for the input, the whole output
and intermediate allocations.
Instead of buffers for input, decompression and output, it only allocates
2 x lines of RGBA pixels (ie, a few KB), and 32KB of decompressed data for
backward references in the decoder, and decodes as needed into the 2-line
buffer to produce line rasterized results. For a 600px width PNG, this is
just 40KB heap for the duration.
This adds apis that enable usage of compressed backtraces in heap
instrumentation.
A decompressor tool is also provided that emits a textual
call stack suitable for use with addr2line.
Although many of the examples must be run from the example directory as
cwd, everyone getting started probably wants to try the examples, cmake
knows how to do it, so let's enable it by default.
There's no problem for library build, also with LWS_WITH_MINIMAL_EXAMPLES,
but after install at least on OSX, there are problems finding the installed
lws include dir (concealed on most platforms by the path being in the
default search list for the toolchain), and the references in the lws
includes to the tls includes meaning that explicit paths for that must be
available at consuming cmakes.
This patch enhances the cmake config installed by lws to deal with adding
the lws include paths to CMAKE_REQUIRED_INCLUDES and include_directories,
so it can be found before the target is introduced.
The tls include is passed back up the CMakeLists layers and the lws targets
marked with target_include_directories(PUBLIC) with them, so they are
understood as needed by consumers.
More boilerplate is moved out of the example consuming cmakes.
After this, on machines with previous installs of older lws, you may have to
clean out the cmake install path, that is usually something like
/usr/local/lib/cmake/libwebsockets/*
before make installing lws and putting the latest content in there.
lws_sequencer and lws_abstract were both false starts trying to do the
functionality of secure streams.
Since Secure Streams does a better job for both and there are no known
out-of-tree users of them, let's remove them and focus on Secure Streams.
This is a NOP for existing usecases.
At the moment the only implemented transport for serialized SS is wsi, it's
typically used with Unix Domain Sockets, but it also works over tcp the
same.
It generalizes the interface between serialized chunks and the
transport, separately for client and proxy. The wsi transport is migrated
to use the new transport ops structs.
It will then be possible to "bring your own transport", so long as it is
reliable, and in-order, both for proxy and client / sspc.
We also adapt minimal-secure-streams-binance to build the -client variant
via SS proxy as well.
LWS_ONLY_SSPC is added so libwebsockets can be produced with just sspc
client support even for tiny targets.
A new embedded minimal example for rpi pico is also provided that
demonstrates using Serialized SS over a UART to an SS proxy, to implement
the SS Binance example on the pico, even though it has no networking itself.
This provides very memory-efficient CBOR stream parsing
and writing.
The parser converts pieces of CBOR into callbacks that define
the structure and collate string and blobs into buffer chunks
for extensible and easy access.
It is fragementation-safe and does not need all the CBOR in
the same place at one time, chunks of CBOR are parsed and
discarded as provided.
It does not allocate and just needs a few hundred bytes of
stack for even huge CBOR objects. Huge strings and blobs
are handled without needing memory to hold them atomically.
Includes ./minimal-examples/api-tests/api-test-lecp that
unit tests it against 82 official example CBORs and
26 additional test vectors from COSE (just checking the CBOR
parsing).
The writing apis allow printf style semantics with a variety
of CBOR-aware %-formats. The apis write into a context that
manages output buffer usage, if the output buffer fills,
then the apis return with an AGAIN code that lets you issue
and reset the output buffer and repeat the api all to issue
more output. The subsequent calls can occur much later or
from a different function context, so this is perfect for
WRITEABLE-mediated output from the network parts of lws.
See ./READMEs/README.cbor-lecp.md
Add -Wextra (with -Wno-unused-parameter) to unix builds in addition to
-Wall -Werror.
This can successfully build everything in Sai without warnings / errors.
Add support for dynamically determining the CAs needed to validate server
certificates. This allows you to avoid instantiating > 120 X.509 trusted
CA certs and have them take up heap the whole time.
Works for both openssl and mbedtls.
See READMEs/README.jit-trust.md for the documentation
You likely want the next patch for http redirect enhancements as well.
