#include "kernel.h" #include "ktypes.h" #include "ecall.h" #include "sched.h" #include "io.h" #include "malloc.h" void read_binary_table(); extern ProcessControlBlock processes[PROCESS_COUNT]; // this array is populated when the memory image is built, therefore it should // resign in a section which is not overwritten with zeros on startup loaded_binary binary_table[NUM_BINARIES] __attribute__ ((section (".data"))); extern void memset(unsigned int, void*, void*); extern void init() { init_ecall_table(); dbgln("Kernel started!", 15); read_binary_table(); scheduler_run_next(); } void read_binary_table() { char msg[28] = "found bin with id 0 at pos 0"; malloc_info info; info.allocate_memory_end = (void*) 0xFF0000; info.allocate_memory_start = (void*) 0; // calculate the end of loaded binaries for (int i = 0; i < NUM_BINARIES; i++) { if (binary_table[i].binid == 0) break; // print message msg[18] = (char) binary_table[i].binid + '0'; msg[27] = (char) i + '0'; dbgln(msg, 28); info.allocate_memory_start = binary_table[i].bounds[1]; } // initialize malloc malloc_init(&info); for (int i = 0; i < NUM_BINARIES; i++) { if (binary_table[i].binid == 0) break; // create a new process for each binary found // it should have around 4kb stack optional_pcbptr res = create_new_process(binary_table+i, 1<<12); if (has_error(res)) { dbgln("Error creating initial process!", 31); } } }