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since they're not for the right repository any more
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- build both Python2 and Python3 libs by default, and add separate rules
building Python2 and Python.
- use the libraries as built by setuptools, rather than building again
separately
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The library can now be installed using CMake v3.0+.
Below is an example configuration.
1. Generate configuation
cmake -H. -Bbuild
-GNinja
-DCMAKE_BUILD_TYPE=Release // The default profile.
-DCMAKE_INSTALL_PREFIX=/usr/local/
-DBUILD_SHARED_LIBS=ON
-DOLM_TESTS=1
-DOLM_FUZZERS=1
2. Build & install the targets
cmake --build build --config Release --target install
3. Run the tests
cd build/test && ctest .
The library can also be used as a dependency with CMake using
find_package(Olm::Olm REQUIRED)
target_link_libraries(my_exe Olm::Olm)
Signed-off-by: Konstantinos Sideris <sideris.konstantin@gmail.com>
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Work with PkDecryption keys by their private keys
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CircleCI Build Support
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WebAssembly support
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Mostly because the standard emscripten docker image does not have
libjson-perl, but python always comes with json. But also because
it was impenetrable.
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Call appropriate wrapper function
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Change interface to allow the app to get the private part of the
key and instantiate a decryption object from just the private part
of the key.
Changes the function generating a key from random bytes to be
initialising a key with a private key (because it's exactly the
same thing). Exports & imports private key parts as ArrayBuffer at
JS level rather than base64 assuming we are moving that way in
general.
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Remove trailing letter 'K's from the test pubkeys
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base64 encoded newlines somehow?
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Don't think this matters since there's no PkEncryption /
PkDecryption object being passed, but for the sake of consistency
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So we only init the library once.
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Change the interface again, hopefully this time a bit more normal.
Now we wrap the emscripten module completely and just expose the
high level objects.
The olm library export is now imported as normal (ie. returns
a module rather than a function returning a module) but has an
`init` method which *must* be called. This returns a promise
which resolves when the module is ready. It also rejects if the
module failed to set up, unlike before (and unlike the
promise-not-a-promise that emscripten returns).
Generally catch failures to init the module.
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The closure compiler was just renaming the variable so it never
would have picked them up. Make it an extern so it knows what to do.
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Quite a lot going on in this PR:
* Updates to support recent emscripten, switching to WASM which is now the default
* Use emscripten's MODULARIZE option rather than wrapping it ourself, since doing
so in pre-post js doesn't work anymore.
* Most changes are moving the emscripten runtime functions to top-level
calls rather than in the Module object.
* Get rid of duplicated NULL_BYTE_PADDING_LENGTH
* Fix ciphertext_length used without being declared
* Fix things that caused the closure compiler to error, eg. using
OLM_OPTIONS without a declaration.
* Wait until module is inited to do OLM_ERROR = olm_error()
The main BREAKING CHANGE here is that the module now needs to initialise
asyncronously (because it has to load the wasm file). require()ing olm
now gives a function which needs to be called to create an instance.
The resulting object has a promise-like then() method that can be used
to detect when the module is ready. (We could use MODULARIZE_INSTANCE
to return the module directly as before, rather than the function,
but then we don't get the .then() method).
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