#include "disk.h"
#endif
-/* Size of kernel static code and data, in 4 kB pages. */
-size_t kernel_pages;
-
/* Amount of physical memory, in 4 kB pages. */
size_t ram_pages;
int
main (void)
{
- struct thread *t;
-
- /* Initialize components needed by printk() very early. */
+ /* Initialize prerequisites for calling printk(). */
ram_init ();
vga_init ();
serial_init ();
- printk ("Booting cnachos86...\n");
- /* Calculate how much RAM the kernel uses, and find out from
- the bootloader how much RAM this machine has. */
- printk ("ram: detected %'d kB main memory.\n", ram_pages * 4);
+ /* Greet user. */
+ printk ("Booting cnachos86 with %'d kB RAM...\n", ram_pages * 4);
- /* Memory from the end of the kernel through the end of memory
- is free. Give it to the page allocator. */
- palloc_init (ptov (LOADER_KERN_BASE + kernel_pages * PGSIZE),
- ptov (ram_pages * PGSIZE));
+ /* Initialize memory system. */
+ palloc_init ();
paging_init ();
gdt_init ();
-
malloc_init ();
- random_init ();
+ random_init ();
argv_init ();
+ /* Initialize interrupt handlers. */
intr_init ();
timer_init ();
kbd_init ();
+ /* Do everything else in a system thread. */
thread_init ();
-
- t = thread_create ("main", main_thread, NULL);
- thread_start (t);
-
- printk ("Done!\n");
- return 0;
+ thread_start (thread_create ("main", main_thread, NULL));
}
static uint64_t
static void
ram_init (void)
{
- /* Start and end of kernel image,
- and start and end of BSS segment.
- These are created by kernel.lds. */
- extern char _start, _end;
- extern char _start_bss, _end_bss;
-
/* The "BSS" is 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. */
+ 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. */
+ extern char _start_bss, _end_bss;
memset (&_start_bss, 0, &_end_bss - &_start_bss);
- /* Calculate how much RAM the kernel uses,
- and find out from the bootloader how much RAM this machine
- has. */
- kernel_pages = (&_end - &_start + 4095) / 4096;
- ram_pages = *(uint32_t *) ptov (LOADER_BASE + LOADER_RAM_PAGES);
+ /* Get RAM size from loader. */
+ ram_pages = *(uint32_t *) ptov (LOADER_RAM_PAGES);
}
+\f
+/* This should be sufficient because the command line buffer is
+ only 128 bytes and arguments are space-delimited. */
+#define ARGC_MAX 64
-void
+int argc;
+char *argv[ARGC_MAX + 1];
+
+static void
argv_init (void)
{
- char *cmd_line = ptov (LOADER_BASE + LOADER_CMD_LINE);
+ char *cmd_line = ptov (LOADER_CMD_LINE);
+ char *arg, *pos;
+
+ for (arg = strtok_r (cmd_line, " \t\r\n\v", &pos); arg != NULL;
+ arg = strtok_r (NULL, " \t\r\n\v", &pos))
+ {
+ ASSERT (argc < ARGC_MAX);
+ argv[argc++] = arg;
+ }
+ argv[argc] = NULL;
}
\f
void
#include <stddef.h>
#include <stdint.h>
#include "debug.h"
+#include "init.h"
+#include "loader.h"
#include "lib.h"
#include "mmu.h"
static uint8_t *uninit_start, *uninit_end;
void
-palloc_init (uint8_t *start, uint8_t *end)
+palloc_init (void)
{
- uninit_start = start;
- uninit_end = end;
+ /* Kernel static code and data, in 4 kB pages.
+
+ We can figure this out because the linker records the start
+ and end of the kernel as _start and _end. See
+ kernel.lds. */
+ extern char _start, _end;
+ size_t kernel_pages;
+ kernel_pages = (&_end - &_start + 4095) / 4096;
+
+ /* Then we know how much is available to allocate. */
+ uninit_start = ptov (LOADER_KERN_BASE + kernel_pages * PGSIZE);
+ uninit_end = ptov (ram_pages * PGSIZE);
}
void *
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