640 lines
16 KiB
C
640 lines
16 KiB
C
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/*
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Copyright (C) 2015-2019 The University of Notre Dame
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This software is distributed under the GNU General Public License.
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See the file LICENSE for details.
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*/
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#include "kernel/syscall.h"
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#include "kernel/gfxstream.h"
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#include "syscall_handler.h"
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#include "console.h"
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#include "keyboard.h"
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#include "process.h"
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#include "kmalloc.h"
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#include "kobject.h"
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#include "cdromfs.h"
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#include "string.h"
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#include "memorylayout.h"
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#include "main.h"
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#include "fs.h"
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#include "kobject.h"
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#include "pagetable.h"
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#include "clock.h"
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#include "rtc.h"
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#include "elf.h"
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#include "kmalloc.h"
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#include "page.h"
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#include "ata.h"
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#include "window.h"
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#include "is_valid.h"
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#include "bcache.h"
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/*
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syscall_handler() is responsible for decoding system calls
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as they arrive, converting raw integers into the appropriate
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types, depending on the system call number. Then, each
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individual handler routine checks the validity of each
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argument (fd in range, valid path, etc) and invokes the
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underlying system within the kernel. Ideally, each of these
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handler functions should be short (only a few lines)
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and simply make use of functionality within other kernel modules.
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sys_run/fork/exec are notable exceptions and could benefit
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from simplification.
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*/
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/*
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Here follow the handlers for each individual system call
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For all of these system calls, a return value of zero or
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greater indiciates success, and return of less than zero
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indicates an error and the reason.
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*/
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int sys_debug(const char *str)
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{
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if(!is_valid_string(str)) return KERROR_INVALID_ADDRESS;
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printf("%s", str);
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return 0;
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}
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int sys_process_yield()
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{
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process_yield();
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return 0;
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}
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int sys_process_exit(int status)
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{
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process_exit(status);
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return 0;
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}
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/* Helper routines to duplicate/free an argv array locally */
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static char **argv_copy(int argc, const char **argv)
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{
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char **pp;
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pp = kmalloc(sizeof(char *) * argc);
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int i;
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for(i = 0; i < argc; i++) {
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pp[i] = strdup(argv[i]);
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}
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return pp;
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}
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static void argv_delete(int argc, char **argv)
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{
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int i;
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for(i = 0; i < argc; i++) {
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kfree(argv[i]);
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}
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kfree(argv);
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}
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/*
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process_run() creates a child process in a more efficient
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way than fork/exec by creating the child without duplicating
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the memory state, then loading
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*/
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int sys_process_run( int fd, int argc, const char **argv)
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{
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if(!is_valid_object_type(fd,KOBJECT_FILE)) return KERROR_INVALID_OBJECT;
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struct kobject *k = current->ktable[fd];
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/* Copy argv into kernel memory. */
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char **copy_argv = argv_copy(argc, argv);
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/* Create the child process */
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struct process *p = process_create();
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process_inherit(current, p);
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/* SWITCH TO ADDRESS SPACE OF CHILD PROCESS */
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struct pagetable *old_pagetable = current->pagetable;
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current->pagetable = p->pagetable;
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pagetable_load(p->pagetable);
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/* Attempt to load the program image. */
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addr_t entry;
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int r = elf_load(p, k->data.file, &entry);
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if(r >= 0) {
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/* If load succeeded, reset stack and pass arguments */
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process_stack_reset(p, PAGE_SIZE);
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process_kstack_reset(p, entry);
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process_pass_arguments(p, argc, copy_argv);
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}
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/* SWITCH BACK TO ADDRESS SPACE OF PARENT PROCESS */
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current->pagetable = old_pagetable;
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pagetable_load(old_pagetable);
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/* Delete the argument and path copies. */
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argv_delete(argc, copy_argv);
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/* If any error happened, return in the context of the parent */
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if(r < 0) {
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if(r == KERROR_EXECUTION_FAILED) {
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process_delete(p);
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}
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return r;
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}
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/* Otherwise, launch the new child process. */
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process_launch(p);
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return p->pid;
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}
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/* Function creates a child process with the standard window replaced by wd */
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int sys_process_wrun( int fd, int argc, const char **argv, int *fds, int fd_len)
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{
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if(!is_valid_object_type(fd,KOBJECT_FILE)) return KERROR_INVALID_OBJECT;
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struct kobject *k = current->ktable[fd];
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/* Copy argv array into kernel memory. */
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char **copy_argv = argv_copy(argc, argv);
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/* Create the child process */
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struct process *p = process_create();
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process_selective_inherit(current, p, fds, fd_len);
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/* SWITCH TO ADDRESS SPACE OF CHILD PROCESS */
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struct pagetable *old_pagetable = current->pagetable;
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current->pagetable = p->pagetable;
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pagetable_load(p->pagetable);
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/* Attempt to load the program image. */
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addr_t entry;
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int r = elf_load(p, k->data.file, &entry);
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if(r >= 0) {
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/* If load succeeded, reset stack and pass arguments */
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process_stack_reset(p, PAGE_SIZE);
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process_kstack_reset(p, entry);
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process_pass_arguments(p, argc, copy_argv);
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}
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/* SWITCH BACK TO ADDRESS SPACE OF PARENT PROCESS */
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current->pagetable = old_pagetable;
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pagetable_load(old_pagetable);
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/* Delete the argument copy. */
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argv_delete(argc, copy_argv);
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/* If any error happened, return in the context of the parent */
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if(r < 0) {
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if(r == KERROR_EXECUTION_FAILED) {
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process_delete(p);
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}
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return r;
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}
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/* Otherwise, launch the new child process. */
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process_launch(p);
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return p->pid;
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}
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int sys_process_exec( int fd, int argc, const char **argv)
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{
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if(!is_valid_object_type(fd,KOBJECT_FILE)) return KERROR_INVALID_OBJECT;
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struct kobject *k = current->ktable[fd];
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addr_t entry;
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/* Duplicate the arguments into kernel space */
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char **copy_argv = argv_copy(argc, argv);
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/* Attempt to load the program image into this process. */
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int r = elf_load(current, k->data.file, &entry);
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/* On failure, return only if our address space is not corrupted. */
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if(r < 0) {
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if(r == KERROR_EXECUTION_FAILED) {
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process_kill(current->pid);
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}
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argv_delete(argc, copy_argv);
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return r;
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}
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/* Reset the stack and pass in the program arguments */
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process_stack_reset(current, PAGE_SIZE);
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process_kstack_reset(current, entry);
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process_pass_arguments(current, argc, copy_argv);
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/* Delete the local copy of the arguments. */
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argv_delete(argc, copy_argv);
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/*
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IMPORTANT: Following a successful exec, we cannot return via
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the normal path, because our stack has been reset to that
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of a fresh process. We must switch in order to jump
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to the new stack properly.
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*/
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process_yield();
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/* NOTREACHED */
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return 0;
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}
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int sys_process_fork()
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{
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struct process *p = process_create();
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p->ppid = current->pid;
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pagetable_delete(p->pagetable);
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p->pagetable = pagetable_duplicate(current->pagetable);
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process_inherit(current, p);
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process_kstack_copy(current, p);
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process_launch(p);
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return p->pid;
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}
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int sys_process_self()
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{
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return current->pid;
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}
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int sys_process_parent()
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{
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return current->ppid;
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}
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int sys_process_kill(int pid)
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{
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return process_kill(pid);
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}
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int sys_process_reap(int pid)
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{
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return process_reap(pid);
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}
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int sys_process_wait(struct process_info *info, int timeout)
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{
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if(!is_valid_pointer(info,sizeof(*info))) return KERROR_INVALID_ADDRESS;
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return process_wait_child(0, info, timeout);
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}
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int sys_process_sleep(unsigned int ms)
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{
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clock_wait(ms);
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return 0;
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}
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int sys_process_stats(struct process_stats *s, int pid)
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{
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if(!is_valid_pointer(s,sizeof(*s))) return KERROR_INVALID_ADDRESS;
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return process_stats(pid, s);
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}
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int sys_process_heap(int delta)
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{
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process_data_size_set(current, current->vm_data_size + delta);
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return PROCESS_ENTRY_POINT + current->vm_data_size;
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}
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int sys_object_list( int fd, char *buffer, int length)
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{
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if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
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if(!is_valid_pointer(buffer,length)) return KERROR_INVALID_ADDRESS;
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if(kobject_get_type(current->ktable[fd])!=KOBJECT_DIR) return KERROR_NOT_A_DIRECTORY;
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return kobject_list(current->ktable[fd],buffer,length);
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}
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int sys_open_file( int fd, const char *path, int mode, kernel_flags_t flags)
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{
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if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
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if(!is_valid_path(path)) return KERROR_INVALID_PATH;
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int newfd = process_available_fd(current);
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if(newfd<0) return KERROR_OUT_OF_OBJECTS;
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struct kobject *newobj;
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int result = kobject_lookup(current->ktable[fd],path,&newobj);
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if(result>=0) {
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current->ktable[newfd] = newobj;
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return newfd;
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} else {
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return result;
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}
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}
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int sys_open_dir( int fd, const char *path, kernel_flags_t flags )
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{
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if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
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if(!is_valid_path(path)) return KERROR_INVALID_PATH;
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int newfd = process_available_fd(current);
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if(newfd<0) return KERROR_OUT_OF_OBJECTS;
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struct kobject *newobj;
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int result;
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if(flags&KERNEL_FLAGS_CREATE) {
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newobj = kobject_create_dir_from_dir( current->ktable[fd], path );
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if(newobj) {
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result = 0;
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} else {
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result = KERROR_NOT_FOUND;
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}
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} else {
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result = kobject_lookup( current->ktable[fd], path, &newobj );
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}
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if(result>=0) {
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current->ktable[newfd] = newobj;
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return newfd;
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} else {
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return result;
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}
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}
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int sys_open_console(int wd)
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{
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if(!is_valid_object_type(wd,KOBJECT_WINDOW)) return KERROR_INVALID_OBJECT;
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int fd = process_available_fd(current);
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if(fd<0) return KERROR_OUT_OF_OBJECTS;
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current->ktable[fd] = kobject_create_console_from_window(current->ktable[wd]);
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return fd;
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}
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int sys_open_window(int wd, int x, int y, int w, int h)
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{
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if(!is_valid_object_type(wd,KOBJECT_WINDOW)) return KERROR_INVALID_OBJECT;
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struct kobject *k = current->ktable[wd];
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int fd = process_available_fd(current);
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if(fd<0) return KERROR_OUT_OF_OBJECTS;
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k = kobject_create_window_from_window(k,x,y,w,h);
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if(!k) {
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// XXX choose better errno
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return KERROR_INVALID_REQUEST;
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}
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current->ktable[fd] = k;
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return fd;
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}
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int sys_open_pipe()
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{
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int fd = process_available_fd(current);
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if(fd < 0) {
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return KERROR_NOT_FOUND;
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}
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struct pipe *p = pipe_create();
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if(!p) {
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return KERROR_NOT_FOUND;
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}
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current->ktable[fd] = kobject_create_pipe(p);
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return fd;
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}
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int sys_object_type(int fd)
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{
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if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
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int fd_type = kobject_get_type(current->ktable[fd]);
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if(!fd_type)
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return 0;
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return fd_type;
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}
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int sys_object_copy( int src, int dst )
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{
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if(!is_valid_object(src)) return KERROR_INVALID_OBJECT;
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if(dst>PROCESS_MAX_OBJECTS) return KERROR_INVALID_OBJECT;
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if(dst < 0) {
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dst = process_available_fd(current);
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if(dst<0) return KERROR_NOT_FOUND;
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}
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sys_object_close(dst);
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current->ktable[dst] = kobject_copy(current->ktable[src]);
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return src;
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}
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int sys_object_read(int fd, void *data, int length, kernel_io_flags_t flags )
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{
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if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
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if(!is_valid_pointer(data,length)) return KERROR_INVALID_ADDRESS;
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struct kobject *p = current->ktable[fd];
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return kobject_read(p, data, length, flags);
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}
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int sys_object_write(int fd, void *data, int length, kernel_io_flags_t flags )
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{
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if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
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if(!is_valid_pointer(data,length)) return KERROR_INVALID_ADDRESS;
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struct kobject *p = current->ktable[fd];
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return kobject_write(p, data, length, flags);
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}
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int sys_object_seek(int fd, int offset, int whence)
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{
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if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
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// XXX add kobject method here
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return KERROR_NOT_IMPLEMENTED;
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}
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int sys_object_remove( int fd, const char *name )
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{
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if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
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if(!is_valid_path(name)) return KERROR_INVALID_PATH;
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return kobject_remove( current->ktable[fd], name );
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}
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|
int sys_object_close(int fd)
|
||
|
{
|
||
|
if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
|
||
|
|
||
|
struct kobject *p = current->ktable[fd];
|
||
|
kobject_close(p);
|
||
|
current->ktable[fd] = 0;
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int sys_object_set_tag(int fd, char *tag)
|
||
|
{
|
||
|
if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
|
||
|
kobject_set_tag(current->ktable[fd], tag);
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int sys_object_get_tag(int fd, char *buffer, int buffer_size)
|
||
|
{
|
||
|
if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
|
||
|
return kobject_get_tag(current->ktable[fd], buffer, buffer_size);
|
||
|
}
|
||
|
|
||
|
int sys_object_size(int fd, int *dims, int n)
|
||
|
{
|
||
|
if(!is_valid_object(fd)) return KERROR_INVALID_OBJECT;
|
||
|
if(!is_valid_pointer(dims,sizeof(*dims)*n)) return KERROR_INVALID_ADDRESS;
|
||
|
|
||
|
struct kobject *p = current->ktable[fd];
|
||
|
return kobject_size(p, dims, n);
|
||
|
}
|
||
|
|
||
|
int sys_object_max()
|
||
|
{
|
||
|
int max_fd = process_object_max(current);
|
||
|
return max_fd;
|
||
|
}
|
||
|
|
||
|
int sys_system_stats(struct system_stats *s)
|
||
|
{
|
||
|
if(!is_valid_pointer(s,sizeof(*s))) return KERROR_INVALID_ADDRESS;
|
||
|
|
||
|
struct rtc_time t = { 0 };
|
||
|
rtc_read(&t);
|
||
|
s->time = rtc_time_to_timestamp(&t) - boottime;
|
||
|
|
||
|
struct ata_count a = ata_stats();
|
||
|
for(int i = 0; i < 4; i++) {
|
||
|
s->blocks_written[i] = a.blocks_written[i];
|
||
|
s->blocks_read[i] = a.blocks_read[i];
|
||
|
}
|
||
|
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int sys_bcache_stats(struct bcache_stats * s)
|
||
|
{
|
||
|
if(!is_valid_pointer(s,sizeof(*s))) return KERROR_INVALID_ADDRESS;
|
||
|
bcache_get_stats( s );
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int sys_bcache_flush()
|
||
|
{
|
||
|
bcache_flush_all();
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int sys_system_time( uint32_t *tm )
|
||
|
{
|
||
|
if(!is_valid_pointer(tm,sizeof(*tm))) return KERROR_INVALID_ADDRESS;
|
||
|
struct rtc_time t;
|
||
|
rtc_read(&t);
|
||
|
*tm = rtc_time_to_timestamp(&t);
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int sys_system_rtc( struct rtc_time *t )
|
||
|
{
|
||
|
if(!is_valid_pointer(t,sizeof(*t))) return KERROR_INVALID_ADDRESS;
|
||
|
rtc_read(t);
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int sys_device_driver_stats(const char * name, struct device_driver_stats * stats)
|
||
|
{
|
||
|
if(!is_valid_string(name)) return KERROR_INVALID_ADDRESS;
|
||
|
if(!is_valid_pointer(stats,sizeof(*stats))) return KERROR_INVALID_ADDRESS;
|
||
|
|
||
|
device_driver_get_stats(name, stats);
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int32_t syscall_handler(syscall_t n, uint32_t a, uint32_t b, uint32_t c, uint32_t d, uint32_t e)
|
||
|
{
|
||
|
if((n < MAX_SYSCALL) && current) {
|
||
|
current->stats.syscall_count[n]++;
|
||
|
}
|
||
|
switch (n) {
|
||
|
case SYSCALL_DEBUG:
|
||
|
return sys_debug((const char *) a);
|
||
|
case SYSCALL_PROCESS_YIELD:
|
||
|
return sys_process_yield();
|
||
|
case SYSCALL_PROCESS_EXIT:
|
||
|
return sys_process_exit(a);
|
||
|
case SYSCALL_PROCESS_RUN:
|
||
|
return sys_process_run(a, b, (const char **)c);
|
||
|
case SYSCALL_PROCESS_WRUN:
|
||
|
return sys_process_wrun(a, b, (const char **) c, (int *) d, e);
|
||
|
case SYSCALL_PROCESS_FORK:
|
||
|
return sys_process_fork();
|
||
|
case SYSCALL_PROCESS_EXEC:
|
||
|
return sys_process_exec(a, b, (const char **) c);
|
||
|
case SYSCALL_PROCESS_SELF:
|
||
|
return sys_process_self();
|
||
|
case SYSCALL_PROCESS_PARENT:
|
||
|
return sys_process_parent();
|
||
|
case SYSCALL_PROCESS_KILL:
|
||
|
return sys_process_kill(a);
|
||
|
case SYSCALL_PROCESS_REAP:
|
||
|
return sys_process_reap(a);
|
||
|
case SYSCALL_PROCESS_WAIT:
|
||
|
return sys_process_wait((struct process_info *) a, b);
|
||
|
case SYSCALL_PROCESS_SLEEP:
|
||
|
return sys_process_sleep(a);
|
||
|
case SYSCALL_PROCESS_STATS:
|
||
|
return sys_process_stats((struct process_stats *) a, b);
|
||
|
case SYSCALL_PROCESS_HEAP:
|
||
|
return sys_process_heap(a);
|
||
|
case SYSCALL_OPEN_FILE:
|
||
|
return sys_open_file(a, (const char *)b, c, d);
|
||
|
case SYSCALL_OPEN_DIR:
|
||
|
return sys_open_dir(a, (const char *)b, c );
|
||
|
case SYSCALL_OPEN_WINDOW:
|
||
|
return sys_open_window(a, b, c, d, e);
|
||
|
case SYSCALL_OPEN_CONSOLE:
|
||
|
return sys_open_console(a);
|
||
|
case SYSCALL_OPEN_PIPE:
|
||
|
return sys_open_pipe();
|
||
|
case SYSCALL_OBJECT_TYPE:
|
||
|
return sys_object_type(a);
|
||
|
case SYSCALL_OBJECT_COPY:
|
||
|
return sys_object_copy(a,b);
|
||
|
case SYSCALL_OBJECT_READ:
|
||
|
return sys_object_read(a, (void *) b, c, d );
|
||
|
case SYSCALL_OBJECT_LIST:
|
||
|
return sys_object_list(a, (char *) b, (int) c);
|
||
|
case SYSCALL_OBJECT_WRITE:
|
||
|
return sys_object_write(a, (void *) b, c, d);
|
||
|
case SYSCALL_OBJECT_SEEK:
|
||
|
return sys_object_seek(a, b, c);
|
||
|
case SYSCALL_OBJECT_REMOVE:
|
||
|
return sys_object_remove(a,(const char*)b);
|
||
|
case SYSCALL_OBJECT_CLOSE:
|
||
|
return sys_object_close(a);
|
||
|
case SYSCALL_OBJECT_SET_TAG:
|
||
|
return sys_object_set_tag(a, (char *) b);
|
||
|
case SYSCALL_OBJECT_GET_TAG:
|
||
|
return sys_object_get_tag(a, (char *) b, c);
|
||
|
case SYSCALL_OBJECT_SIZE:
|
||
|
return sys_object_size(a, (int *) b, c);
|
||
|
case SYSCALL_OBJECT_MAX:
|
||
|
return sys_object_max(a);
|
||
|
case SYSCALL_SYSTEM_STATS:
|
||
|
return sys_system_stats((struct system_stats *) a);
|
||
|
case SYSCALL_BCACHE_STATS:
|
||
|
return sys_bcache_stats((struct bcache_stats *) a);
|
||
|
case SYSCALL_BCACHE_FLUSH:
|
||
|
return sys_bcache_flush();
|
||
|
case SYSCALL_SYSTEM_TIME:
|
||
|
return sys_system_time((uint32_t*)a);
|
||
|
case SYSCALL_SYSTEM_RTC:
|
||
|
return sys_system_rtc((struct rtc_time *) a);
|
||
|
case SYSCALL_DEVICE_DRIVER_STATS:
|
||
|
return sys_device_driver_stats((char *) a, (struct device_driver_stats *) b);
|
||
|
default:
|
||
|
return KERROR_INVALID_SYSCALL;
|
||
|
}
|
||
|
}
|