#include "threads/init.h" #include #include #include #include #include #include #include #include #include #include "devices/kbd.h" #include "devices/input.h" #include "devices/serial.h" #include "devices/shutdown.h" #include "devices/timer.h" #include "devices/vga.h" #include "devices/rtc.h" #include "threads/interrupt.h" #include "threads/io.h" #include "threads/loader.h" #include "threads/malloc.h" #include "threads/palloc.h" #include "threads/pte.h" #include "threads/thread.h" #ifdef USERPROG #include "userprog/process.h" #include "userprog/exception.h" #include "userprog/gdt.h" #include "userprog/syscall.h" #include "userprog/tss.h" #else #include "tests/threads/tests.h" #endif #ifdef FILESYS #include "devices/block.h" #include "devices/ide.h" #include "filesys/filesys.h" #include "filesys/fsutil.h" #endif /* Page directory with kernel mappings only. */ uint32_t *init_page_dir; #ifdef FILESYS /* -f: Format the file system? */ static bool format_filesys; /* -filesys, -scratch, -swap: Names of block devices to use, overriding the defaults. */ static const char *filesys_bdev_name; static const char *scratch_bdev_name; #ifdef VM static const char *swap_bdev_name; #endif #endif /* FILESYS */ /* -ul: Maximum number of pages to put into palloc's user pool. */ static size_t user_page_limit = SIZE_MAX; static void bss_init (void); static void paging_init (void); static char **read_command_line (void); static char **parse_options (char **argv); static void run_actions (char **argv); static void usage (void); #ifdef FILESYS static void locate_block_devices (void); static void locate_block_device (enum block_type, const char *name); #endif int main (void) NO_RETURN; /* Pintos main program. */ int main (void) { char **argv; /* Clear BSS. */ bss_init (); /* Break command line into arguments and parse options. */ argv = read_command_line (); argv = parse_options (argv); /* Initialize ourselves as a thread so we can use locks, then enable console locking. */ thread_init (); console_init (); /* Greet user. */ printf ("Pintos booting with %'"PRIu32" kB RAM...\n", init_ram_pages * PGSIZE / 1024); /* Initialize memory system. */ palloc_init (user_page_limit); malloc_init (); paging_init (); /* Segmentation. */ #ifdef USERPROG tss_init (); gdt_init (); #endif /* Initialize interrupt handlers. */ intr_init (); timer_init (); kbd_init (); input_init (); #ifdef USERPROG exception_init (); syscall_init (); #endif /* Start thread scheduler and enable interrupts. */ thread_start (); serial_init_queue (); timer_calibrate (); #ifdef FILESYS /* Initialize file system. */ ide_init (); locate_block_devices (); filesys_init (format_filesys); #endif printf ("Boot complete.\n"); /* Run actions specified on kernel command line. */ run_actions (argv); /* Finish up. */ shutdown (); thread_exit (); } /* Clear the "BSS", a segment that should be initialized to zeros. It isn't actually stored on disk or zeroed by the kernel loader, so we have to zero it ourselves. The start and end of the BSS segment is recorded by the linker as _start_bss and _end_bss. See kernel.lds. */ static void bss_init (void) { extern char _start_bss, _end_bss; memset (&_start_bss, 0, &_end_bss - &_start_bss); } /* Populates the base page directory and page table with the kernel virtual mapping, and then sets up the CPU to use the new page directory. Points init_page_dir to the page directory it creates. */ static void paging_init (void) { uint32_t *pd, *pt; size_t page; extern char _start, _end_kernel_text; pd = init_page_dir = palloc_get_page (PAL_ASSERT | PAL_ZERO); pt = NULL; for (page = 0; page < init_ram_pages; page++) { uintptr_t paddr = page * PGSIZE; char *vaddr = ptov (paddr); size_t pde_idx = pd_no (vaddr); size_t pte_idx = pt_no (vaddr); bool in_kernel_text = &_start <= vaddr && vaddr < &_end_kernel_text; if (pd[pde_idx] == 0) { pt = palloc_get_page (PAL_ASSERT | PAL_ZERO); pd[pde_idx] = pde_create (pt); } pt[pte_idx] = pte_create_kernel (vaddr, !in_kernel_text); } /* Store the physical address of the page directory into CR3 aka PDBR (page directory base register). This activates our new page tables immediately. See [IA32-v2a] "MOV--Move to/from Control Registers" and [IA32-v3a] 3.7.5 "Base Address of the Page Directory". */ asm volatile ("movl %0, %%cr3" : : "r" (vtop (init_page_dir))); } /* Breaks the kernel command line into words and returns them as an argv-like array. */ static char ** read_command_line (void) { static char *argv[LOADER_ARGS_LEN / 2 + 1]; char *p, *end; int argc; int i; argc = *(uint32_t *) ptov (LOADER_ARG_CNT); p = ptov (LOADER_ARGS); end = p + LOADER_ARGS_LEN; for (i = 0; i < argc; i++) { if (p >= end) PANIC ("command line arguments overflow"); argv[i] = p; p += strnlen (p, end - p) + 1; } argv[argc] = NULL; /* Print kernel command line. */ printf ("Kernel command line:"); for (i = 0; i < argc; i++) if (strchr (argv[i], ' ') == NULL) printf (" %s", argv[i]); else printf (" '%s'", argv[i]); printf ("\n"); return argv; } /* Parses options in ARGV[] and returns the first non-option argument. */ static char ** parse_options (char **argv) { for (; *argv != NULL && **argv == '-'; argv++) { char *save_ptr; char *name = strtok_r (*argv, "=", &save_ptr); char *value = strtok_r (NULL, "", &save_ptr); if (!strcmp (name, "-h")) usage (); else if (!strcmp (name, "-q")) shutdown_configure (SHUTDOWN_POWER_OFF); else if (!strcmp (name, "-r")) shutdown_configure (SHUTDOWN_REBOOT); #ifdef FILESYS else if (!strcmp (name, "-f")) format_filesys = true; else if (!strcmp (name, "-filesys")) filesys_bdev_name = value; else if (!strcmp (name, "-scratch")) scratch_bdev_name = value; #ifdef VM else if (!strcmp (name, "-swap")) swap_bdev_name = value; #endif #endif else if (!strcmp (name, "-rs")) random_init (atoi (value)); else if (!strcmp (name, "-mlfqs")) thread_mlfqs = true; #ifdef USERPROG else if (!strcmp (name, "-ul")) user_page_limit = atoi (value); #endif else PANIC ("unknown option `%s' (use -h for help)", name); } /* Initialize the random number generator based on the system time. This has no effect if an "-rs" option was specified. When running under Bochs, this is not enough by itself to get a good seed value, because the pintos script sets the initial time to a predictable value, not to the local time, for reproducibility. To fix this, give the "-r" option to the pintos script to request real-time execution. */ random_init (rtc_get_time ()); return argv; } /* Runs the task specified in ARGV[1]. */ static void run_task (char **argv) { const char *task = argv[1]; printf ("Executing '%s':\n", task); #ifdef USERPROG process_wait (process_execute (task)); #else run_test (task); #endif printf ("Execution of '%s' complete.\n", task); } /* Executes all of the actions specified in ARGV[] up to the null pointer sentinel. */ static void run_actions (char **argv) { /* An action. */ struct action { char *name; /* Action name. */ int argc; /* # of args, including action name. */ void (*function) (char **argv); /* Function to execute action. */ }; /* Table of supported actions. */ static const struct action actions[] = { {"run", 2, run_task}, #ifdef FILESYS {"ls", 1, fsutil_ls}, {"cat", 2, fsutil_cat}, {"rm", 2, fsutil_rm}, {"extract", 1, fsutil_extract}, {"append", 2, fsutil_append}, #endif {NULL, 0, NULL}, }; while (*argv != NULL) { const struct action *a; int i; /* Find action name. */ for (a = actions; ; a++) if (a->name == NULL) PANIC ("unknown action `%s' (use -h for help)", *argv); else if (!strcmp (*argv, a->name)) break; /* Check for required arguments. */ for (i = 1; i < a->argc; i++) if (argv[i] == NULL) PANIC ("action `%s' requires %d argument(s)", *argv, a->argc - 1); /* Invoke action and advance. */ a->function (argv); argv += a->argc; } } /* Prints a kernel command line help message and powers off the machine. */ static void usage (void) { printf ("\nCommand line syntax: [OPTION...] [ACTION...]\n" "Options must precede actions.\n" "Actions are executed in the order specified.\n" "\nAvailable actions:\n" #ifdef USERPROG " run 'PROG [ARG...]' Run PROG and wait for it to complete.\n" #else " run TEST Run TEST.\n" #endif #ifdef FILESYS " ls List files in the root directory.\n" " cat FILE Print FILE to the console.\n" " rm FILE Delete FILE.\n" "Use these actions indirectly via `pintos' -g and -p options:\n" " extract Untar from scratch device into file system.\n" " append FILE Append FILE to tar file on scratch device.\n" #endif "\nOptions:\n" " -h Print this help message and power off.\n" " -q Power off VM after actions or on panic.\n" " -r Reboot after actions.\n" #ifdef FILESYS " -f Format file system device during startup.\n" " -filesys=BDEV Use BDEV for file system instead of default.\n" " -scratch=BDEV Use BDEV for scratch instead of default.\n" #ifdef VM " -swap=BDEV Use BDEV for swap instead of default.\n" #endif #endif " -rs=SEED Set random number seed to SEED.\n" " -mlfqs Use multi-level feedback queue scheduler.\n" #ifdef USERPROG " -ul=COUNT Limit user memory to COUNT pages.\n" #endif ); shutdown_power_off (); } #ifdef FILESYS /* Figure out what block devices to cast in the various Pintos roles. */ static void locate_block_devices (void) { locate_block_device (BLOCK_FILESYS, filesys_bdev_name); locate_block_device (BLOCK_SCRATCH, scratch_bdev_name); #ifdef VM locate_block_device (BLOCK_SWAP, swap_bdev_name); #endif } /* Figures out what block device to use for the given ROLE: the block device with the given NAME, if NAME is non-null, otherwise the first block device in probe order of type ROLE. */ static void locate_block_device (enum block_type role, const char *name) { struct block *block = NULL; if (name != NULL) { block = block_get_by_name (name); if (block == NULL) PANIC ("No such block device \"%s\"", name); } else { for (block = block_first (); block != NULL; block = block_next (block)) if (block_type (block) == role) break; } if (block != NULL) { printf ("%s: using %s\n", block_type_name (role), block_name (block)); block_set_role (role, block); } } #endif