* Python: Disable distribution of static library on linux and macos; add environment variable LIBUNICORN_PATH to let user specify location of native library; prevent build of native library if this option is enabled; closes#869
* Python: Update README.TXT to describe how to manage the building and usage of the native library
* renamed gem unicorn to unicorn-engine
* renamed modules to unicornengine
* renamed Module Unicorn to UnicornEngine and the gem unicorn-engine to unicornengine
* unicornengine -> unicorn_engine
In order to reduce rounding problems from calculations, FPU stack
registers for x86 architectures contain values stored in an
80-bit extended precision format.
As a result, reading and writing to these registers requires
specific handling.
This update brings the Ruby bindings in line with the Python
bindings by supporting reading and writing the FPU stack registers
using 2-element arrays: [mantissa, exponent]
The mantissa array element contains the first 64 bits of the FPU
stack register.
The exponent array element contains the last 16 bits of the FPU
stack register.
Sometimes, the finalizer for an `UcRef` runs so late that the members of the
module have already been set to `None`. We need to make sure that we don't
depend on anything in the module, or we risk getting a Exception when we try
to access the `release_handle` method of `None` (`Uc`).
* fix mem_unmap and query for Ruby bindings
* ruby bindings: fix issues with GC freeing callbacks while we still have references to them
* ruby bindings: add test for garbage collection of hooks
* ruby bindings: let the VM garbage collect hooks properly this time
* ruby bindings: update garbage collection test to make sure Proc is garbage collected after Uc is collected
* ruby bindings: fix m_uc_hook_add to return the ruby VALUE with proper memory management instead of making another one with bad memory management
* ruby bindings: fix cb_hook_intr signature
* add architecture query
* ruby bindings: only treat certain x86 registers specially if we're actually on x86
* only treat certain x86 registers specially if we're actually on x86 (uc_reg_read and uc_reg_write)
* ruby bindings: read and write ARM64's 128-bit NEON registers
* arm64eb: arm64 big endian also using little endian instructions.
* arm64: using another example that depends on endians.
example:
1. store a word: 0x12345678
2. load a byte:
* little endian : 0x78
* big endian : 0x12
* uc_reg_read & uc_reg_write now support ARM64 Neon registers
* Do not reuse uc_x86_xmm for uc_arm64_neon128. TODO: refactor both classes to use the same parent.
Writing / reading to model specific registers should be as easy as
calling a function, it's a bit stupid to write shell code and run them
just to write/read to a MSR, and even worse, you need more than just a
shellcode to read...
So, add a special register ID called UC_X86_REG_MSR, which should be
passed to uc_reg_write()/uc_reg_read() as the register ID, and then a
data structure which is uc_x86_msr (12 bytes), as the value (always), where:
Byte Value Size
0 MSR ID 4
4 MSR val 8
* Changed some MSVC compatibility defines based on MSVC version.
* Added prebuild_script.bat to remove leftover configure generated files before building.
Also added project files and MSVC copies of configure generated files for all supported CPUs.