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MontaukOS/programs/src/test_dl/main.cpp
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188 lines
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C++

/*
* test_dl.cpp
* Test application for dynamic library loading
* Copyright (c) 2026 Daniel Hammer
*/
#include <montauk/syscall.h>
#include <libloader/libloader.h>
// Forward declarations
static void print_int(int val);
static void print_hex(uint64_t val);
extern "C" void _start() {
montauk::print("=== Dynamic Library Test ===\n\n");
// Test loading libmath
montauk::print("Loading libmath...\n");
LibHandle* lib = libloader::dlopen("0:/os/libmath.lib");
if (!lib) {
montauk::print("ERROR: Failed to load libmath.lib\n");
montauk::exit(1);
}
montauk::print("Library loaded successfully!\n\n");
// Test dlsym for various functions
montauk::print("Resolving symbols...\n");
// math_add
typedef int (*math_fn_t)(int, int);
math_fn_t math_add = (math_fn_t)libloader::dlsym(lib, "math_add");
if (!math_add) {
montauk::print("ERROR: Failed to resolve math_add\n");
montauk::exit(1);
}
montauk::print(" math_add: OK\n");
// math_mul
math_fn_t math_mul = (math_fn_t)libloader::dlsym(lib, "math_mul");
if (!math_mul) {
montauk::print("ERROR: Failed to resolve math_mul\n");
montauk::exit(1);
}
montauk::print(" math_mul: OK\n");
// math_max
typedef int (*math_max_t)(int, int);
math_max_t math_max = (math_max_t)libloader::dlsym(lib, "math_max");
if (!math_max) {
montauk::print("ERROR: Failed to resolve math_max\n");
montauk::exit(1);
}
montauk::print(" math_max: OK\n\n");
// Test the functions
montauk::print("Testing library functions:\n");
// Test add: 10 + 5 = 15
int a = 10, b = 5;
int result = math_add(a, b);
montauk::print(" math_add(10, 5) = ");
print_int(result);
montauk::print("\n");
// Test mul: 7 * 6 = 42
result = math_mul(7, 6);
montauk::print(" math_mul(7, 6) = ");
print_int(result);
montauk::print("\n");
// Test max: max(100, 200) = 200
result = math_max(100, 200);
montauk::print(" math_max(100, 200) = ");
print_int(result);
montauk::print("\n\n");
// Unload the library
montauk::print("Unloading library...\n");
libloader::dlclose(lib);
montauk::print("Library unloaded.\n");
// Test loading libhello (GUI library)
montauk::print("\nLoading libhello (GUI library)...\n");
LibHandle* hellolib = libloader::dlopen("0:/os/libhello.lib");
if (!hellolib) {
montauk::print("ERROR: Failed to load libhello.lib\n");
montauk::exit(1);
}
montauk::print("Library loaded successfully!\n\n");
// Resolve hello_run
typedef int (*hello_run_t)(void);
hello_run_t hello_run = (hello_run_t)libloader::dlsym(hellolib, "hello_run");
if (!hello_run) {
montauk::print("ERROR: Failed to resolve hello_run\n");
montauk::exit(1);
}
montauk::print(" hello_run: OK\n\n");
// Debug: print hello_run address
montauk::print(" DEBUG: hello_run @ ");
print_hex((uint64_t)hello_run);
montauk::print("\n\n");
// Test heap allocations in the shared library
montauk::print("Testing heap allocations in libhello...\n");
typedef int (*malloc_test_t)(void);
malloc_test_t malloc_test = (malloc_test_t)libloader::dlsym(hellolib, "hello_malloc_test");
if (!malloc_test) {
montauk::print("ERROR: Failed to resolve hello_malloc_test\n");
libloader::dlclose(hellolib);
montauk::exit(1);
}
montauk::print(" hello_malloc_test: OK\n");
int malloc_result = malloc_test();
if (malloc_result != 0) {
montauk::print("ERROR: heap allocation test in libhello failed\n");
libloader::dlclose(hellolib);
montauk::exit(1);
}
montauk::print(" heap allocation test: PASSED\n\n");
// Run the GUI demo (this creates a window and event loop)
montauk::print("Running GUI demo...\n");
hello_run();
// Unload the library
montauk::print("GUI demo closed.\n");
montauk::print("Unloading library...\n");
libloader::dlclose(hellolib);
montauk::print("Library unloaded.\n");
montauk::print("\n=== All tests passed! ===\n");
montauk::exit(0);
}
// Simple integer to string conversion for printing
static void print_int(int val) {
char buf[16];
int idx = 0;
bool neg = false;
if (val < 0) {
neg = true;
val = -val;
}
if (val == 0) {
buf[idx++] = '0';
} else {
while (val > 0) {
buf[idx++] = '0' + (val % 10);
val /= 10;
}
}
if (neg) {
montauk::putchar('-');
}
for (int i = idx - 1; i >= 0; i--) {
montauk::putchar(buf[i]);
}
}
// Print hex value (uppercase, with 0x prefix)
static void print_hex(uint64_t val) {
montauk::print("0x");
char buf[20];
int idx = 0;
if (val == 0) {
buf[idx++] = '0';
} else {
while (val > 0) {
int digit = val & 0xF;
buf[idx++] = (digit < 10) ? ('0' + digit) : ('A' + digit - 10);
val >>= 4;
}
}
// Reverse the buffer
for (int i = idx - 1; i >= 0; i--) {
montauk::putchar(buf[i]);
}
}