/* vim: tabstop=4 shiftwidth=4 noexpandtab * * Syscall Tables * */ #include #include #include #include #define SPECIAL_CASE_STDIO /* * System calls themselves */ void validate(void * ptr) { if (ptr && (uintptr_t)ptr < current_process->image.entry) { kprintf("SEGFAULT: Invalid pointer passed to syscall. (0x%x < 0x%x)\n", (uintptr_t)ptr, current_process->image.entry); HALT_AND_CATCH_FIRE("Segmentation fault", NULL); } } /* * print something to the core terminal */ static int print(char * s) { validate((void *)s); ansi_print(s); return 0; } /* * Exit the current task. * DOES NOT RETURN! */ static int exit(int retval) { /* Deschedule the current task */ task_exit(retval); while (1) { }; return retval; } static int read(int fd, char * ptr, int len) { #ifdef SPECIAL_CASE_STDIO if (fd == 0) { IRQ_ON; kgets(ptr, len); IRQ_OFF; if (strlen(ptr) < (uint32_t)len) { int j = strlen(ptr); ptr[j] = '\n'; ptr[j+1] = '\0'; } return strlen(ptr); } #endif if (fd >= (int)current_process->fds.length || fd < 0) { return -1; } validate(ptr); fs_node_t * node = current_process->fds.entries[fd]; uint32_t out = read_fs(node, node->offset, len, (uint8_t *)ptr); node->offset += out; return out; } static int write(int fd, char * ptr, int len) { #ifdef SPECIAL_CASE_STDIO if (fd == 1 || fd == 2) { for (int i = 0; i < len; ++i) { ansi_put(ptr[i]); serial_send(ptr[i]); } return len; } #endif if (fd >= (int)current_process->fds.length || fd < 0) { return -1; } validate(ptr); fs_node_t * node = current_process->fds.entries[fd]; uint32_t out = write_fs(node, node->offset, len, (uint8_t *)ptr); node->offset += out; return out; } static int wait(int child) { if (child < 1) { kprintf("lol nope\n"); return 0; } process_t * volatile child_task = process_from_pid(child); /* If the child task doesn't exist, bail */ if (!child_task) return -1; /* Wait until it finishes (this is stupidly memory intensive, * but we haven't actually implemented wait() yet, so there's * not all that much we can do right now. */ while (child_task->finished == 0) { if (child_task->finished != 0) break; switch_task(); } /* Grab the child's return value */ int ret = child_task->status; delete_process(child_task); return ret; } static int open(const char * file, int flags, int mode) { validate((void *)file); fs_node_t * node = kopen((char *)file, 0); if (!node) { return -1; } node->offset = 0; return process_append_fd((process_t *)current_process, node); } static int close(int fd) { if (fd <= (int)current_process->fds.length || fd < 0) { return -1; } close_fs(current_process->fds.entries[fd]); return 0; } static int sys_sbrk(int size) { uintptr_t ret = current_process->image.heap; current_process->image.heap += size; while (current_process->image.heap > current_process->image.heap_actual) { current_process->image.heap_actual += 0x1000; alloc_frame(get_page(current_process->image.heap_actual, 1, current_directory), 0, 1); } return ret; } static int execve(const char * filename, char *const argv[], char *const envp[]) { validate((void *)argv); validate((void *)filename); validate((void *)envp); int i = 0; while (argv[i]) { ++i; } char ** argv_ = malloc(sizeof(char *) * i); for (int j = 0; j < i; ++j) { argv_[j] = malloc((strlen(argv[j]) + 1) * sizeof(char)); memcpy(argv_[j], argv[j], strlen(argv[j]) + 1); } /* Discard envp */ exec((char *)filename, i, (char **)argv_); return -1; } static int sys_fork() { uint32_t f = fork(); return f; } static int getgraphicsaddress() { return (int)bochs_get_address(); } static volatile char kbd_last = 0; static void kbd_direct_handler(char ch) { kbd_last = ch; } static int kbd_mode(int mode) { if (mode == 0) { if (keyboard_direct_handler) { keyboard_direct_handler = NULL; } } else { keyboard_direct_handler = kbd_direct_handler; } return 0; } static int kbd_get() { /* If we're requesting keyboard input, we better damn well be getting it */ IRQ_ON; char x = kbd_last; kbd_last = 0; return (int)x; } static int seek(int fd, int offset, int whence) { if (fd >= (int)current_process->fds.length || fd < 0) { return -1; } if (fd < 3) { return 0; } if (whence == 0) { current_process->fds.entries[fd]->offset = offset; } else if (whence == 1) { current_process->fds.entries[fd]->offset += offset; } else if (whence == 2) { current_process->fds.entries[fd]->offset = current_process->fds.entries[fd]->length + offset; } return current_process->fds.entries[fd]->offset; } static int stat(int fd, uint32_t * st) { return 0; } static int setgraphicsoffset(int rows) { bochs_set_y_offset(rows); return 0; } static int getgraphicswidth() { return bochs_resolution_x; } static int getgraphicsheight() { return bochs_resolution_y; } static int getgraphicsdepth() { return bochs_resolution_b; } /* * System Call Internals */ static void syscall_handler(struct regs * r); static uintptr_t syscalls[] = { /* System Call Table */ (uintptr_t)&exit, /* 0 */ (uintptr_t)&print, (uintptr_t)&open, (uintptr_t)&read, (uintptr_t)&write, /* 4 */ (uintptr_t)&close, (uintptr_t)&gettimeofday, (uintptr_t)&execve, (uintptr_t)&sys_fork, /* 8 */ (uintptr_t)&getpid, (uintptr_t)&sys_sbrk, (uintptr_t)&getgraphicsaddress, (uintptr_t)&kbd_mode, /* 12 */ (uintptr_t)&kbd_get, (uintptr_t)&seek, (uintptr_t)&stat, (uintptr_t)&setgraphicsoffset, /* 16 */ (uintptr_t)&wait, (uintptr_t)&getgraphicswidth, (uintptr_t)&getgraphicsheight, (uintptr_t)&getgraphicsdepth, }; uint32_t num_syscalls = 21; void syscalls_install() { LOG(INFO, "Initializing syscall table with %d functions", num_syscalls); isrs_install_handler(0x7F, &syscall_handler); } void syscall_handler( struct regs * r ) { if (r->eax >= num_syscalls) { return; } uintptr_t location = syscalls[r->eax]; /* In case of a fork, we need to return the PID to the correct place */ volatile uintptr_t stack = current_process->image.stack - KERNEL_STACK_SIZE; uint32_t ret; asm volatile ( "push %1\n" "push %2\n" "push %3\n" "push %4\n" "push %5\n" "call *%6\n" "pop %%ebx\n" "pop %%ebx\n" "pop %%ebx\n" "pop %%ebx\n" "pop %%ebx\n" : "=a" (ret) : "r" (r->edi), "r" (r->esi), "r" (r->edx), "r" (r->ecx), "r" (r->ebx), "r" (location)); volatile uintptr_t n_stack = current_process->image.stack - KERNEL_STACK_SIZE; if (n_stack != stack) { uintptr_t temp = ((uintptr_t)r - stack); r = (struct regs *)(n_stack + temp); } r->eax = ret; }