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Ignore whitespace Rev 3129 → Rev 3149

/branches/dynload/kernel/generic/include/stackarg.h
52,9 → 52,9
(ap).last = (uint8_t *) &(lst)
 
#define va_arg(ap, type) \
(*((type *)((ap).last + ((ap).pos += sizeof(type) ) - sizeof(type))))
(*((type *)((ap).last + ((ap).pos += sizeof(type)) - sizeof(type))))
 
#define va_copy(dst,src) dst=src
#define va_copy(dst, src) dst = src
#define va_end(ap)
 
 
/branches/dynload/kernel/generic/include/proc/task.h
118,8 → 118,8
extern void task_done(void);
extern task_t *task_create(as_t *as, char *name);
extern void task_destroy(task_t *t);
extern task_t *task_create_from_as(as_t *as, uintptr_t entry_addr, char *name);
extern int task_parse_initial(void *program_addr, char *name, task_t **task);
extern task_t *task_create_from_as(as_t *as, uintptr_t entry_addr, char *name, struct thread **t);
extern int task_parse_initial(void *program_addr, char *name, struct thread **t);
extern int task_create_from_loader(char *name, task_t **task);
extern void task_ready(task_t *t);
extern task_t *task_find_by_id(task_id_t id);
139,7 → 139,8
#endif
 
extern unative_t sys_task_get_id(task_id_t *uspace_task_id);
extern unative_t sys_task_spawn(int *uspace_phone_id);
extern unative_t sys_task_spawn_loader(int *uspace_phone_id);
extern unative_t sys_task_spawn(void *image, size_t size);
 
#endif
 
/branches/dynload/kernel/generic/include/proc/thread.h
248,6 → 248,8
extern void thread_update_accounting(void);
extern bool thread_exists(thread_t *t);
 
extern thread_t *thread_create_program(void *program_addr, char *name);
 
/** Fpu context slab cache. */
extern slab_cache_t *fpu_context_slab;
 
/branches/dynload/kernel/generic/include/debug.h
38,11 → 38,11
#include <panic.h>
#include <arch/debug.h>
 
#define CALLER ((uintptr_t)__builtin_return_address(0))
#define CALLER ((uintptr_t) __builtin_return_address(0))
 
#ifndef HERE
/** Current Instruction Pointer address */
# define HERE ((uintptr_t *) 0)
# define HERE ((uintptr_t *) 0)
#endif
 
/** Debugging ASSERT macro
55,12 → 55,51
*
*/
#ifdef CONFIG_DEBUG
# define ASSERT(expr) if (!(expr)) { panic("assertion failed (%s), caller=%.*p\n", #expr, sizeof(uintptr_t) * 2, CALLER); }
# define ASSERT(expr) \
if (!(expr)) { \
panic("assertion failed (%s), caller=%p\n", #expr, CALLER); \
}
#else
# define ASSERT(expr)
#endif
 
/** Extensive debugging output macro
*
* If CONFIG_EDEBUG is set, the LOG() macro
* will print whatever message is indicated plus
* an information about the location.
*
*/
 
#ifdef CONFIG_EDEBUG
# define LOG(format, ...) \
printf("%s() at %s:%u: " format "\n", __func__, __FILE__, \
__LINE__, ##__VA_ARGS__);
#else
# define LOG(format, ...)
#endif
 
/** Extensive debugging execute macro
*
* If CONFIG_EDEBUG is set, the LOG_EXEC() macro
* will print an information about calling a given
* function and call it.
*
*/
 
#ifdef CONFIG_EDEBUG
# define LOG_EXEC(fnc) \
{ \
printf("%s() at %s:%u: " #fnc "\n", __func__, __FILE__, \
__LINE__); \
fnc; \
}
#else
# define LOG_EXEC(fnc) fnc
#endif
 
 
#endif
 
/** @}
*/
/branches/dynload/kernel/generic/include/panic.h
36,15 → 36,15
#define KERN_PANIC_H_
 
#ifdef CONFIG_DEBUG
#define panic(format, ...) \
panic_printf("Kernel panic in %s() at %s on line %d: " format, __func__, \
__FILE__, __LINE__, ##__VA_ARGS__);
# define panic(format, ...) \
panic_printf("Kernel panic in %s() at %s:%u: " format, __func__, \
__FILE__, __LINE__, ##__VA_ARGS__);
#else
#define panic(format, ...) \
panic_printf("Kernel panic: " format, ##__VA_ARGS__);
# define panic(format, ...) \
panic_printf("Kernel panic: " format, ##__VA_ARGS__);
#endif
 
extern void panic_printf(char *fmt, ...) __attribute__((noreturn)) ;
extern void panic_printf(char *fmt, ...) __attribute__((noreturn));
 
#endif
 
/branches/dynload/kernel/generic/include/interrupt.h
40,7 → 40,6
#include <proc/task.h>
#include <proc/thread.h>
#include <arch.h>
#include <console/klog.h>
#include <ddi/irq.h>
 
typedef void (* iroutine)(int n, istate_t *istate);
49,8 → 48,8
{ \
if (istate_from_uspace(istate)) { \
task_t *task = TASK; \
klog_printf("Task %llu killed due to an exception at %p.", task->taskid, istate_get_pc(istate)); \
klog_printf(" " cmd, ##__VA_ARGS__); \
printf("Task %" PRIu64 " killed due to an exception at %p.", task->taskid, istate_get_pc(istate)); \
printf(" " cmd, ##__VA_ARGS__); \
task_kill(task->taskid); \
thread_exit(); \
} \
/branches/dynload/kernel/generic/include/synch/spinlock.h
110,8 → 110,8
#define DEADLOCK_PROBE(pname, value) \
if ((pname)++ > (value)) { \
(pname) = 0; \
printf("Deadlock probe %s: exceeded threshold %d\n", \
"cpu%d: function=%s, line=%d\n", \
printf("Deadlock probe %s: exceeded threshold %u\n", \
"cpu%u: function=%s, line=%u\n", \
#pname, (value), CPU->id, __func__, __LINE__); \
}
#else
/branches/dynload/kernel/generic/include/ddi/device.h
35,6 → 35,9
#ifndef KERN_DEVICE_H_
#define KERN_DEVICE_H_
 
#include <arch/types.h>
#include <typedefs.h>
 
extern devno_t device_assign_devno(void);
 
#endif
/branches/dynload/kernel/generic/include/console/klog.h
File deleted
/branches/dynload/kernel/generic/include/adt/list.h
36,6 → 36,7
#define KERN_LIST_H_
 
#include <arch/types.h>
#include <typedefs.h>
 
/** Doubly linked list head and link type. */
typedef struct link {
/branches/dynload/kernel/generic/include/adt/avl.h
36,6 → 36,7
#define KERN_AVLTREE_H_
 
#include <arch/types.h>
#include <typedefs.h>
 
/**
* Macro for getting a pointer to the structure which contains the avltree
/branches/dynload/kernel/generic/include/typedefs.h
35,8 → 35,20
#ifndef KERN_TYPEDEFS_H_
#define KERN_TYPEDEFS_H_
 
#define NULL 0
#define false 0
#define true 1
 
typedef void (* function)();
 
typedef uint8_t bool;
typedef uint64_t thread_id_t;
typedef uint64_t task_id_t;
typedef uint32_t context_id_t;
 
typedef int32_t inr_t;
typedef int32_t devno_t;
 
#endif
 
/** @}
/branches/dynload/kernel/generic/include/syscall/syscall.h
38,17 → 38,22
typedef enum {
SYS_IO = 0,
SYS_TLS_SET = 1, /* Hardcoded in AMD64, IA32 uspace - fibril.S */
SYS_THREAD_CREATE,
SYS_THREAD_EXIT,
SYS_THREAD_GET_ID,
SYS_TASK_GET_ID,
SYS_TASK_SPAWN,
SYS_TASK_SPAWN_LOADER,
SYS_FUTEX_SLEEP,
SYS_FUTEX_WAKEUP,
SYS_AS_AREA_CREATE,
SYS_AS_AREA_RESIZE,
SYS_AS_AREA_CHANGE_FLAGS,
SYS_AS_AREA_DESTROY,
SYS_IPC_CALL_SYNC_FAST,
SYS_IPC_CALL_SYNC_SLOW,
SYS_IPC_CALL_ASYNC_FAST,
60,15 → 65,20
SYS_IPC_HANGUP,
SYS_IPC_REGISTER_IRQ,
SYS_IPC_UNREGISTER_IRQ,
SYS_CAP_GRANT,
SYS_CAP_REVOKE,
SYS_PHYSMEM_MAP,
SYS_IOSPACE_ENABLE,
SYS_PREEMPT_CONTROL,
SYS_SYSINFO_VALID,
SYS_SYSINFO_VALUE,
 
SYS_DEBUG_PUTINT,
SYS_DEBUG_ENABLE_CONSOLE,
 
SYSCALL_END
} syscall_t;
 
/branches/dynload/kernel/generic/src/synch/rwlock.c
231,7 → 231,7
interrupts_restore(ipl);
break;
case ESYNCH_OK_ATOMIC:
panic("_mutex_lock_timeout()==ESYNCH_OK_ATOMIC\n");
panic("_mutex_lock_timeout() == ESYNCH_OK_ATOMIC\n");
break;
default:
panic("invalid ESYNCH\n");
/branches/dynload/kernel/generic/src/synch/spinlock.c
106,9 → 106,8
continue;
#endif
if (i++ > DEADLOCK_THRESHOLD) {
printf("cpu%d: looping on spinlock %.*p:%s, "
"caller=%.*p", CPU->id, sizeof(uintptr_t) * 2, sl,
sl->name, sizeof(uintptr_t) * 2, CALLER);
printf("cpu%u: looping on spinlock %" PRIp ":%s, caller=%" PRIp,
CPU->id, sl, sl->name, CALLER);
symbol = get_symtab_entry(CALLER);
if (symbol)
printf("(%s)", symbol);
119,7 → 118,7
}
 
if (deadlock_reported)
printf("cpu%d: not deadlocked\n", CPU->id);
printf("cpu%u: not deadlocked\n", CPU->id);
 
/*
* Prevent critical section code from bleeding out this way up.
/branches/dynload/kernel/generic/src/main/kinit.c
153,38 → 153,32
panic("thread_create/kconsole\n");
 
interrupts_enable();
 
/*
* Create user tasks, load RAM disk images.
*/
count_t i;
thread_t *threads[CONFIG_INIT_TASKS];
for (i = 0; i < init.cnt; i++) {
/*
* Parse initial images
* - Run user tasks
* - load RAM disk images.
* - register program loader
*/
if (init.tasks[i].addr % FRAME_SIZE) {
printf("init[%d].addr is not frame aligned", i);
printf("init[%" PRIc "].addr is not frame aligned", i);
continue;
}
 
task_t *utask;
int rc = task_parse_initial((void *) init.tasks[i].addr,
"uspace", &utask);
if (rc == 0 && utask) {
/* Make the task ready */
task_ready(utask);
"uspace", &threads[i]);
 
if (rc == 0 && threads[i] != NULL) {
/*
* Set capabilities to init userspace tasks.
*/
cap_set(utask, CAP_CAP | CAP_MEM_MANAGER |
cap_set(threads[i]->task, CAP_CAP | CAP_MEM_MANAGER |
CAP_IO_MANAGER | CAP_PREEMPT_CONTROL | CAP_IRQ_REG);
 
if (!ipc_phone_0)
ipc_phone_0 = &utask->answerbox;
if (!ipc_phone_0)
ipc_phone_0 = &threads[i]->task->answerbox;
} else if (rc == 0) {
/* It was the program loader and was registered */
} else {
193,11 → 187,20
init.tasks[i].size);
if (rd != RE_OK)
printf("Init binary %zd not used, error code %d.\n", i, rd);
printf("Init binary %" PRIc " not used, error code %d.\n", i, rd);
}
}
/*
* Run user tasks with reasonable delays
*/
for (i = 0; i < init.cnt; i++) {
if (threads[i] != NULL) {
thread_usleep(50000);
thread_ready(threads[i]);
}
}
 
 
if (!stdin) {
while (1) {
thread_sleep(1);
/branches/dynload/kernel/generic/src/main/main.c
78,7 → 78,6
#include <ipc/ipc.h>
#include <macros.h>
#include <adt/btree.h>
#include <console/klog.h>
#include <smp/smp.h>
#include <ddi/ddi.h>
 
140,6 → 139,8
*/
void main_bsp(void)
{
LOG();
config.cpu_count = 1;
config.cpu_active = 1;
171,6 → 172,13
if (config.stack_base < stack_safe)
config.stack_base = ALIGN_UP(stack_safe, PAGE_SIZE);
version_print();
LOG("\nconfig.base=%#" PRIp " config.kernel_size=%" PRIs
"\nconfig.stack_base=%#" PRIp " config.stack_size=%" PRIs,
config.base, config.kernel_size,
config.stack_base, config.stack_size);
context_save(&ctx);
context_set(&ctx, FADDR(main_bsp_separated_stack), config.stack_base,
THREAD_STACK_SIZE);
186,9 → 194,7
*/
void main_bsp_separated_stack(void)
{
task_t *k;
thread_t *t;
count_t i;
LOG();
the_initialize(THE);
 
197,79 → 203,74
* because other subsystems will register their respective
* commands.
*/
kconsole_init();
LOG_EXEC(kconsole_init());
/*
* Exception handler initialization, before architecture
* starts adding its own handlers
*/
exc_init();
LOG_EXEC(exc_init());
 
/*
* Memory management subsystems initialization.
*/
arch_pre_mm_init();
frame_init();
*/
LOG_EXEC(arch_pre_mm_init());
LOG_EXEC(frame_init());
/* Initialize at least 1 memory segment big enough for slab to work. */
slab_cache_init();
btree_init();
as_init();
page_init();
tlb_init();
ddi_init();
tasklet_init();
arch_post_mm_init();
LOG_EXEC(slab_cache_init());
LOG_EXEC(btree_init());
LOG_EXEC(as_init());
LOG_EXEC(page_init());
LOG_EXEC(tlb_init());
LOG_EXEC(ddi_init());
LOG_EXEC(tasklet_init());
LOG_EXEC(arch_post_mm_init());
LOG_EXEC(arch_pre_smp_init());
LOG_EXEC(smp_init());
version_print();
printf("kernel: %.*p hardcoded_ktext_size=%zd KB, "
"hardcoded_kdata_size=%zd KB\n", sizeof(uintptr_t) * 2,
config.base, SIZE2KB(hardcoded_ktext_size),
SIZE2KB(hardcoded_kdata_size));
printf("stack: %.*p size=%zd KB\n", sizeof(uintptr_t) * 2,
config.stack_base, SIZE2KB(config.stack_size));
arch_pre_smp_init();
smp_init();
/* Slab must be initialized after we know the number of processors. */
slab_enable_cpucache();
LOG_EXEC(slab_enable_cpucache());
printf("Detected %zu CPU(s), %llu MB free memory\n",
printf("Detected %" PRIc " CPU(s), %" PRIu64" MB free memory\n",
config.cpu_count, SIZE2MB(zone_total_size()));
cpu_init();
calibrate_delay_loop();
clock_counter_init();
timeout_init();
scheduler_init();
task_init();
thread_init();
futex_init();
klog_init();
LOG_EXEC(cpu_init());
LOG_EXEC(calibrate_delay_loop());
LOG_EXEC(clock_counter_init());
LOG_EXEC(timeout_init());
LOG_EXEC(scheduler_init());
LOG_EXEC(task_init());
LOG_EXEC(thread_init());
LOG_EXEC(futex_init());
if (init.cnt > 0) {
count_t i;
for (i = 0; i < init.cnt; i++)
printf("init[%zd].addr=%.*p, init[%zd].size=%zd\n", i,
sizeof(uintptr_t) * 2, init.tasks[i].addr, i,
init.tasks[i].size);
printf("init[%" PRIc "].addr=%#" PRIp
", init[%" PRIc "].size=%#" PRIs "\n",
i, init.tasks[i].addr,
i, init.tasks[i].size);
} else
printf("No init binaries found\n");
ipc_init();
LOG_EXEC(ipc_init());
 
/*
* Create kernel task.
*/
k = task_create(AS_KERNEL, "kernel");
if (!k)
panic("can't create kernel task\n");
task_t *kernel = task_create(AS_KERNEL, "kernel");
if (!kernel)
panic("Can't create kernel task\n");
/*
* Create the first thread.
*/
t = thread_create(kinit, NULL, k, 0, "kinit", true);
if (!t)
panic("can't create kinit thread\n");
thread_ready(t);
thread_t *kinit_thread = thread_create(kinit, NULL, kernel, 0, "kinit", true);
if (!kinit_thread)
panic("Can't create kinit thread\n");
LOG_EXEC(thread_ready(kinit_thread));
/*
* This call to scheduler() will return to kinit,
/branches/dynload/kernel/generic/src/debug/symtab.c
39,6 → 39,8
#include <byteorder.h>
#include <func.h>
#include <print.h>
#include <arch/types.h>
#include <typedefs.h>
 
/** Return entry that seems most likely to correspond to argument.
*
139,7 → 141,7
while (symtab_search_one(name, &i)) {
addr = uint64_t_le2host(symbol_table[i].address_le);
realname = symbol_table[i].symbol_name;
printf("%.*p: %s\n", sizeof(uintptr_t) * 2, addr, realname);
printf("%p: %s\n", addr, realname);
i++;
}
}
/branches/dynload/kernel/generic/src/cpu/cpu.c
104,7 → 104,7
if (cpus[i].active)
cpu_print_report(&cpus[i]);
else
printf("cpu%d: not active\n", i);
printf("cpu%u: not active\n", i);
}
}
 
/branches/dynload/kernel/generic/src/sysinfo/sysinfo.c
177,7 → 177,7
sysinfo_item_t *item = sysinfo_create_path(name, root);
if (item != NULL) { /* If in subsystem, unable to create or return so unable to set */
item->val.val=val;
item->val.val = val;
item->val_type = SYSINFO_VAL_VAL;
}
}
192,7 → 192,7
sysinfo_item_t *item = sysinfo_create_path(name, root);
if (item != NULL) { /* If in subsystem, unable to create or return so unable to set */
item->val.fn=fn;
item->val.fn = fn;
item->val_type = SYSINFO_VAL_FUNCTION;
}
}
244,7 → 244,7
break;
}
printf("%s %s val:%d(%x) sub:%s\n", root->name, vtype, val,
printf("%s %s val:%" PRIun "(%" PRIxn ") sub:%s\n", root->name, vtype, val,
val, (root->subinfo_type == SYSINFO_SUBINFO_NONE) ?
"NON" : ((root->subinfo_type == SYSINFO_SUBINFO_TABLE) ?
"TAB" : "FUN"));
/branches/dynload/kernel/generic/src/interrupt/interrupt.c
108,27 → 108,32
char *symbol;
 
spinlock_lock(&exctbl_lock);
 
#ifdef __32_BITS__
printf("Exc Description Handler Symbol\n");
printf("--- -------------------- ---------- --------\n");
#endif
 
#ifdef __64_BITS__
printf("Exc Description Handler Symbol\n");
printf("--- -------------------- ------------------ --------\n");
#endif
if (sizeof(void *) == 4) {
printf("Exc Description Handler Symbol\n");
printf("--- -------------------- ---------- --------\n");
} else {
printf("Exc Description Handler Symbol\n");
printf("--- -------------------- ------------------ --------\n");
}
for (i = 0; i < IVT_ITEMS; i++) {
symbol = get_symtab_entry((unative_t) exc_table[i].f);
if (!symbol)
symbol = "not found";
 
#ifdef __32_BITS__
printf("%-3u %-20s %10p %s\n", i + IVT_FIRST, exc_table[i].name,
exc_table[i].f, symbol);
#endif
 
#ifdef __64_BITS__
printf("%-3u %-20s %18p %s\n", i + IVT_FIRST, exc_table[i].name,
exc_table[i].f, symbol);
#endif
if (sizeof(void *) == 4)
printf("%-3u %-20s %#10zx %s\n", i + IVT_FIRST, exc_table[i].name,
exc_table[i].f, symbol);
else
printf("%-3u %-20s %#18zx %s\n", i + IVT_FIRST, exc_table[i].name,
exc_table[i].f, symbol);
if (((i + 1) % 20) == 0) {
printf(" -- Press any key to continue -- ");
spinlock_unlock(&exctbl_lock);
158,7 → 163,7
{
int i;
 
for (i=0;i < IVT_ITEMS; i++)
for (i = 0; i < IVT_ITEMS; i++)
exc_register(i, "undef", (iroutine) exc_undef);
 
cmd_initialize(&exc_info);
/branches/dynload/kernel/generic/src/printf/vprintf.c
37,6 → 37,8
#include <putchar.h>
#include <synch/spinlock.h>
#include <arch/asm.h>
#include <arch/types.h>
#include <typedefs.h>
 
SPINLOCK_INITIALIZE(printf_lock); /**< vprintf spinlock */
 
/branches/dynload/kernel/generic/src/printf/printf_core.c
75,7 → 75,6
PrintfQualifierInt,
PrintfQualifierLong,
PrintfQualifierLongLong,
PrintfQualifierNative,
PrintfQualifierPointer
} qualifier_t;
 
432,7 → 431,6
* - "" Signed or unsigned int (default value).@n
* - "l" Signed or unsigned long int.@n
* - "ll" Signed or unsigned long long int.@n
* - "z" unative_t (non-standard extension).@n
*
*
* CONVERSION:@n
486,7 → 484,7
while ((c = fmt[i])) {
/* control character */
if (c == '%' ) {
if (c == '%') {
/* print common characters if any processed */
if (i > j) {
if ((retval = printf_putnchars(&fmt[j],
536,7 → 534,7
} else if (fmt[i] == '*') {
/* get width value from argument list */
i++;
width = (int)va_arg(ap, int);
width = (int) va_arg(ap, int);
if (width < 0) {
/* negative width sets '-' flag */
width *= -1;
559,7 → 557,7
* list.
*/
i++;
precision = (int)va_arg(ap, int);
precision = (int) va_arg(ap, int);
if (precision < 0) {
/* ignore negative precision */
precision = 0;
585,9 → 583,6
qualifier = PrintfQualifierLongLong;
}
break;
case 'z': /* unative_t */
qualifier = PrintfQualifierNative;
break;
default:
/* default type */
qualifier = PrintfQualifierInt;
627,7 → 622,7
* Integer values
*/
case 'P': /* pointer */
flags |= __PRINTF_FLAG_BIGCHARS;
flags |= __PRINTF_FLAG_BIGCHARS;
case 'p':
flags |= __PRINTF_FLAG_PREFIX;
base = 16;
670,34 → 665,28
switch (qualifier) {
case PrintfQualifierByte:
size = sizeof(unsigned char);
number = (uint64_t)va_arg(ap, unsigned int);
number = (uint64_t) va_arg(ap, unsigned int);
break;
case PrintfQualifierShort:
size = sizeof(unsigned short);
number = (uint64_t)va_arg(ap, unsigned int);
number = (uint64_t) va_arg(ap, unsigned int);
break;
case PrintfQualifierInt:
size = sizeof(unsigned int);
number = (uint64_t)va_arg(ap, unsigned int);
number = (uint64_t) va_arg(ap, unsigned int);
break;
case PrintfQualifierLong:
size = sizeof(unsigned long);
number = (uint64_t)va_arg(ap, unsigned long);
number = (uint64_t) va_arg(ap, unsigned long);
break;
case PrintfQualifierLongLong:
size = sizeof(unsigned long long);
number = (uint64_t)va_arg(ap,
unsigned long long);
number = (uint64_t) va_arg(ap, unsigned long long);
break;
case PrintfQualifierPointer:
size = sizeof(void *);
number = (uint64_t)(unsigned long)va_arg(ap,
void *);
number = (uint64_t) (unsigned long) va_arg(ap, void *);
break;
case PrintfQualifierNative:
size = sizeof(unative_t);
number = (uint64_t)va_arg(ap, unative_t);
break;
default: /* Unknown qualifier */
counter = -counter;
goto out;
708,7 → 697,7
flags |= __PRINTF_FLAG_NEGATIVE;
if (size == sizeof(uint64_t)) {
number = -((int64_t)number);
number = -((int64_t) number);
} else {
number = ~number;
number &=
734,7 → 723,7
}
if (i > j) {
if ((retval = printf_putnchars(&fmt[j], (unative_t)(i - j),
if ((retval = printf_putnchars(&fmt[j], (unative_t) (i - j),
ps)) < 0) { /* error */
counter = -counter;
goto out;
744,7 → 733,6
}
 
out:
return counter;
}
 
/branches/dynload/kernel/generic/src/console/klog.c
File deleted
/branches/dynload/kernel/generic/src/console/console.c
43,22 → 43,23
#include <print.h>
#include <atomic.h>
 
#define BUFLEN 2048
static char debug_buffer[BUFLEN];
static size_t offset = 0;
/** Initialize stdout to something that does not print, but does not fail
*
* Save data in some buffer so that it could be retrieved in the debugger
*/
static void null_putchar(chardev_t *d, const char ch)
{
if (offset >= BUFLEN)
offset = 0;
debug_buffer[offset++] = ch;
}
#define KLOG_SIZE 4096
 
/**< Kernel log cyclic buffer */
static char klog[KLOG_SIZE];
 
/**< First kernel log characters */
static index_t klog_start = 0;
/**< Number of valid kernel log characters */
static size_t klog_len = 0;
/**< Number of stored (not printed) kernel log characters */
static size_t klog_stored = 0;
 
static chardev_operations_t null_stdout_ops = {
.write = null_putchar
.suspend = NULL,
.resume = NULL,
.write = NULL,
.read = NULL
};
 
chardev_t null_stdout = {
90,7 → 91,7
return chardev->op->read(chardev);
/* no other way of interacting with user, halt */
if (CPU)
printf("cpu%d: ", CPU->id);
printf("cpu%u: ", CPU->id);
else
printf("cpu: ");
printf("halted - no kconsole\n");
161,8 → 162,28
 
void putchar(char c)
{
if ((klog_stored > 0) && (stdout->op->write)) {
/* Print charaters stored in kernel log */
index_t i;
for (i = klog_len - klog_stored; i < klog_len; i++)
stdout->op->write(stdout, klog[(klog_start + i) % KLOG_SIZE]);
klog_stored = 0;
}
/* Store character in the cyclic kernel log */
klog[(klog_start + klog_len) % KLOG_SIZE] = c;
if (klog_len < KLOG_SIZE)
klog_len++;
else
klog_start = (klog_start + 1) % KLOG_SIZE;
if (stdout->op->write)
stdout->op->write(stdout, c);
else {
/* The character is just in the kernel log */
if (klog_stored < klog_len)
klog_stored++;
}
}
 
/** @}
/branches/dynload/kernel/generic/src/console/cmd.c
563,7 → 563,7
/* This doesn't have to be very accurate */
unative_t sec = uptime->seconds1;
printf("Up %u days, %u hours, %u minutes, %u seconds\n",
printf("Up %" PRIun " days, %" PRIun " hours, %" PRIun " minutes, %" PRIun " seconds\n",
sec / 86400, (sec % 86400) / 3600, (sec % 3600) / 60, sec % 60);
return 1;
632,7 → 632,7
printf("Duplicate symbol, be more specific.\n");
} else {
symbol = get_symtab_entry(symaddr);
printf("Calling %s() (%.*p)\n", symbol, sizeof(uintptr_t) * 2, symaddr);
printf("Calling %s() (%p)\n", symbol, symaddr);
#ifdef ia64
fptr.f = symaddr;
fptr.gp = ((unative_t *)cmd_call2)[1];
640,7 → 640,7
#else
f = (unative_t (*)(void)) symaddr;
#endif
printf("Result: %#zx\n", f());
printf("Result: %#" PRIxn "\n", f());
}
return 1;
686,7 → 686,7
struct {
unative_t f;
unative_t gp;
}fptr;
} fptr;
#endif
 
symaddr = get_symbol_addr((char *) argv->buffer);
698,7 → 698,7
} else {
symbol = get_symtab_entry(symaddr);
 
printf("Calling f(%#zx): %.*p: %s\n", arg1, sizeof(uintptr_t) * 2, symaddr, symbol);
printf("Calling f(%#" PRIxn "): %p: %s\n", arg1, symaddr, symbol);
#ifdef ia64
fptr.f = symaddr;
fptr.gp = ((unative_t *)cmd_call2)[1];
706,7 → 706,7
#else
f = (unative_t (*)(unative_t,...)) symaddr;
#endif
printf("Result: %#zx\n", f(arg1));
printf("Result: %#" PRIxn "\n", f(arg1));
}
return 1;
735,8 → 735,8
printf("Duplicate symbol, be more specific.\n");
} else {
symbol = get_symtab_entry(symaddr);
printf("Calling f(0x%zx,0x%zx): %.*p: %s\n",
arg1, arg2, sizeof(uintptr_t) * 2, symaddr, symbol);
printf("Calling f(%#" PRIxn ", %#" PRIxn "): %p: %s\n",
arg1, arg2, symaddr, symbol);
#ifdef ia64
fptr.f = symaddr;
fptr.gp = ((unative_t *)cmd_call2)[1];
744,7 → 744,7
#else
f = (unative_t (*)(unative_t,unative_t,...)) symaddr;
#endif
printf("Result: %#zx\n", f(arg1, arg2));
printf("Result: %#" PRIxn "\n", f(arg1, arg2));
}
return 1;
774,8 → 774,8
printf("Duplicate symbol, be more specific.\n");
} else {
symbol = get_symtab_entry(symaddr);
printf("Calling f(0x%zx,0x%zx, 0x%zx): %.*p: %s\n",
arg1, arg2, arg3, sizeof(uintptr_t) * 2, symaddr, symbol);
printf("Calling f(%#" PRIxn ",%#" PRIxn ", %#" PRIxn "): %p: %s\n",
arg1, arg2, arg3, symaddr, symbol);
#ifdef ia64
fptr.f = symaddr;
fptr.gp = ((unative_t *)cmd_call2)[1];
783,7 → 783,7
#else
f = (unative_t (*)(unative_t,unative_t,unative_t,...)) symaddr;
#endif
printf("Result: %#zx\n", f(arg1, arg2, arg3));
printf("Result: %#" PRIxn "\n", f(arg1, arg2, arg3));
}
return 1;
856,7 → 856,7
} else {
if (pointer)
addr = (uint32_t *)(*(unative_t *)addr);
printf("Writing 0x%x -> %.*p\n", arg1, sizeof(uintptr_t) * 2, addr);
printf("Writing %#" PRIx64 " -> %p\n", arg1, addr);
*addr = arg1;
}
1025,7 → 1025,7
char suffix;
order(dt, &cycles, &suffix);
printf("Time: %llu%c cycles\n", cycles, suffix);
printf("Time: %" PRIu64 "%c cycles\n", cycles, suffix);
if (ret == NULL) {
printf("Test passed\n");
1053,7 → 1053,7
}
for (i = 0; i < cnt; i++) {
printf("%s (%d/%d) ... ", test->name, i + 1, cnt);
printf("%s (%u/%u) ... ", test->name, i + 1, cnt);
/* Update and read thread accounting
for benchmarking */
1081,7 → 1081,7
data[i] = dt;
order(dt, &cycles, &suffix);
printf("OK (%llu%c cycles)\n", cycles, suffix);
printf("OK (%" PRIu64 "%c cycles)\n", cycles, suffix);
}
if (ret) {
1094,7 → 1094,7
}
order(sum / (uint64_t) cnt, &cycles, &suffix);
printf("Average\t\t%llu%c\n", cycles, suffix);
printf("Average\t\t%" PRIu64 "%c\n", cycles, suffix);
}
free(data);
/branches/dynload/kernel/generic/src/console/chardev.c
42,7 → 42,7
* @param chardev Character device.
* @param op Implementation of character device operations.
*/
void chardev_initialize(char *name,chardev_t *chardev,
void chardev_initialize(char *name, chardev_t *chardev,
chardev_operations_t *op)
{
chardev->name = name;
/branches/dynload/kernel/generic/src/proc/scheduler.c
451,7 → 451,7
/*
* Entering state is unexpected.
*/
panic("tid%llu: unexpected state %s\n", THREAD->tid,
panic("tid%" PRIu64 ": unexpected state %s\n", THREAD->tid,
thread_states[THREAD->state]);
break;
}
504,7 → 504,7
THREAD->state = Running;
 
#ifdef SCHEDULER_VERBOSE
printf("cpu%d: tid %llu (priority=%d, ticks=%llu, nrdy=%ld)\n",
printf("cpu%u: tid %" PRIu64 " (priority=%d, ticks=%" PRIu64 ", nrdy=%ld)\n",
CPU->id, THREAD->tid, THREAD->priority, THREAD->ticks,
atomic_get(&CPU->nrdy));
#endif
640,8 → 640,8
*/
spinlock_lock(&t->lock);
#ifdef KCPULB_VERBOSE
printf("kcpulb%d: TID %llu -> cpu%d, nrdy=%ld, "
"avg=%nd\n", CPU->id, t->tid, CPU->id,
printf("kcpulb%u: TID %" PRIu64 " -> cpu%u, nrdy=%ld, "
"avg=%ld\n", CPU->id, t->tid, CPU->id,
atomic_get(&CPU->nrdy),
atomic_get(&nrdy) / config.cpu_active);
#endif
708,7 → 708,7
continue;
 
spinlock_lock(&cpus[cpu].lock);
printf("cpu%d: address=%p, nrdy=%ld, needs_relink=%ld\n",
printf("cpu%u: address=%p, nrdy=%ld, needs_relink=%" PRIc "\n",
cpus[cpu].id, &cpus[cpu], atomic_get(&cpus[cpu].nrdy),
cpus[cpu].needs_relink);
719,11 → 719,11
spinlock_unlock(&r->lock);
continue;
}
printf("\trq[%d]: ", i);
printf("\trq[%u]: ", i);
for (cur = r->rq_head.next; cur != &r->rq_head;
cur = cur->next) {
t = list_get_instance(cur, thread_t, rq_link);
printf("%llu(%s) ", t->tid,
printf("%" PRIu64 "(%s) ", t->tid,
thread_states[t->state]);
}
printf("\n");
/branches/dynload/kernel/generic/src/proc/task.c
136,7 → 136,7
interrupts_restore(ipl);
#ifdef CONFIG_DEBUG
printf("Killing task %llu\n", id);
printf("Killing task %" PRIu64 "\n", id);
#endif
task_kill(id);
thread_usleep(10000);
249,7 → 249,8
*
* @return Task of the running program or NULL on error.
*/
task_t *task_create_from_as(as_t *as, uintptr_t entry_addr, char *name)
task_t *task_create_from_as(as_t *as, uintptr_t entry_addr, char *name
thread_t **thr)
{
as_area_t *a;
thread_t *t;
279,6 → 280,8
t = thread_create(uinit, kernel_uarg, task, THREAD_FLAG_USPACE,
"uinit", false);
ASSERT(t);
 
*thr = t;
return task;
}
295,10 → 298,11
*
* @return EOK on success or negative error code.
*/
int task_parse_initial(void *program_addr, char *name, task_t **task)
int task_parse_initial(void *program_addr, char *name, thread_t **t)
{
as_t *as;
unsigned int rc;
task_t *task;
 
as = as_create(0);
ASSERT(as);
316,8 → 320,8
return EOK;
}
 
*task = task_create_from_as(as, ((elf_header_t *) program_addr)->e_entry,
name);
task = task_create_from_as(as, ((elf_header_t *) program_addr)->e_entry,
name, t);
 
return EOK;
}
393,7 → 397,7
*
* @return 0 on success or an error code from @ref errno.h.
*/
unative_t sys_task_spawn(int *uspace_phone_id)
unative_t sys_task_spawn_loader(int *uspace_phone_id)
{
task_t *t;
int fake_id;
433,6 → 437,81
return EOK;
}
 
unative_t sys_task_spawn(void *image, size_t size)
{
void *kimage = malloc(size, 0);
if (kimage == NULL)
return ENOMEM;
int rc = copy_from_uspace(kimage, image, size);
if (rc != EOK)
return rc;
uspace_arg_t *kernel_uarg = (uspace_arg_t *) malloc(sizeof(uspace_arg_t), 0);
if (kernel_uarg == NULL) {
free(kimage);
return ENOMEM;
}
kernel_uarg->uspace_entry =
(void *) ((elf_header_t *) kimage)->e_entry;
kernel_uarg->uspace_stack = (void *) USTACK_ADDRESS;
kernel_uarg->uspace_thread_function = NULL;
kernel_uarg->uspace_thread_arg = NULL;
kernel_uarg->uspace_uarg = NULL;
as_t *as = as_create(0);
if (as == NULL) {
free(kernel_uarg);
free(kimage);
return ENOMEM;
}
unsigned int erc = elf_load((elf_header_t *) kimage, as);
if (erc != EE_OK) {
as_destroy(as);
free(kernel_uarg);
free(kimage);
return ENOENT;
}
as_area_t *area = as_area_create(as,
AS_AREA_READ | AS_AREA_WRITE | AS_AREA_CACHEABLE,
LOADED_PROG_STACK_PAGES_NO * PAGE_SIZE, USTACK_ADDRESS,
AS_AREA_ATTR_NONE, &anon_backend, NULL);
if (area == NULL) {
as_destroy(as);
free(kernel_uarg);
free(kimage);
return ENOMEM;
}
task_t *task = task_create(as, "app");
if (task == NULL) {
as_destroy(as);
free(kernel_uarg);
free(kimage);
return ENOENT;
}
// FIXME: control the capabilities
cap_set(task, cap_get(TASK));
thread_t *thread = thread_create(uinit, kernel_uarg, task,
THREAD_FLAG_USPACE, "user", false);
if (thread == NULL) {
task_destroy(task);
as_destroy(as);
free(kernel_uarg);
free(kimage);
return ENOENT;
}
thread_ready(thread);
return EOK;
}
 
/** Find task structure corresponding to task ID.
*
* The tasks_lock must be already held by the caller of this function
548,18 → 627,22
uint64_t cycles;
char suffix;
order(task_get_accounting(t), &cycles, &suffix);
if (sizeof(void *) == 4)
printf("%-6llu %-10s %-3ld %#10zx %#10zx %9llu%c %7zd %6zd",
t->taskid, t->name, t->context, t, t->as, cycles, suffix,
t->refcount, atomic_get(&t->active_calls));
else
printf("%-6llu %-10s %-3ld %#18zx %#18zx %9llu%c %7zd %6zd",
t->taskid, t->name, t->context, t, t->as, cycles, suffix,
t->refcount, atomic_get(&t->active_calls));
 
#ifdef __32_BITS__
printf("%-6" PRIu64 " %-10s %-3" PRIu32 " %10p %10p %9" PRIu64 "%c %7ld %6ld",
t->taskid, t->name, t->context, t, t->as, cycles, suffix,
atomic_get(&t->refcount), atomic_get(&t->active_calls));
#endif
 
#ifdef __64_BITS__
printf("%-6" PRIu64 " %-10s %-3" PRIu32 " %18p %18p %9" PRIu64 "%c %7ld %6ld",
t->taskid, t->name, t->context, t, t->as, cycles, suffix,
atomic_get(&t->refcount), atomic_get(&t->active_calls));
#endif
 
for (j = 0; j < IPC_MAX_PHONES; j++) {
if (t->phones[j].callee)
printf(" %zd:%#zx", j, t->phones[j].callee);
printf(" %d:%p", j, t->phones[j].callee);
}
printf("\n");
575,19 → 658,21
/* Messing with task structures, avoid deadlock */
ipl = interrupts_disable();
spinlock_lock(&tasks_lock);
if (sizeof(void *) == 4) {
printf("taskid name ctx address as "
"cycles threads calls callee\n");
printf("------ ---------- --- ---------- ---------- "
"---------- ------- ------ ------>\n");
} else {
printf("taskid name ctx address as "
"cycles threads calls callee\n");
printf("------ ---------- --- ------------------ ------------------ "
"---------- ------- ------ ------>\n");
}
 
#ifdef __32_BITS__
printf("taskid name ctx address as "
"cycles threads calls callee\n");
printf("------ ---------- --- ---------- ---------- "
"---------- ------- ------ ------>\n");
#endif
 
#ifdef __64_BITS__
printf("taskid name ctx address as "
"cycles threads calls callee\n");
printf("------ ---------- --- ------------------ ------------------ "
"---------- ------- ------ ------>\n");
#endif
 
avltree_walk(&tasks_tree, task_print_walker, NULL);
 
spinlock_unlock(&tasks_lock);
/branches/dynload/kernel/generic/src/proc/thread.c
67,9 → 67,13
#include <main/uinit.h>
#include <syscall/copy.h>
#include <errno.h>
#include <console/klog.h>
 
 
#ifndef LOADED_PROG_STACK_PAGES_NO
#define LOADED_PROG_STACK_PAGES_NO 1
#endif
 
 
/** Thread states */
char *thread_states[] = {
"Invalid",
443,9 → 447,8
*/
if (THREAD->flags & THREAD_FLAG_USPACE) {
ipc_cleanup();
futex_cleanup();
klog_printf("Cleanup of task %llu completed.",
TASK->taskid);
futex_cleanup();
LOG("Cleanup of task %" PRIu64" completed.", TASK->taskid);
}
}
 
581,33 → 584,37
 
static bool thread_walker(avltree_node_t *node, void *arg)
{
thread_t *t;
t = avltree_get_instance(node, thread_t, threads_tree_node);
 
thread_t *t = avltree_get_instance(node, thread_t, threads_tree_node);
uint64_t cycles;
char suffix;
order(t->cycles, &cycles, &suffix);
if (sizeof(void *) == 4)
printf("%-6llu %-10s %#10zx %-8s %#10zx %-3ld %#10zx %#10zx %9llu%c ",
t->tid, t->name, t, thread_states[t->state], t->task,
t->task->context, t->thread_code, t->kstack, cycles, suffix);
else
printf("%-6llu %-10s %#18zx %-8s %#18zx %-3ld %#18zx %#18zx %9llu%c ",
t->tid, t->name, t, thread_states[t->state], t->task,
t->task->context, t->thread_code, t->kstack, cycles, suffix);
 
#ifdef __32_BITS__
printf("%-6" PRIu64" %-10s %10p %-8s %10p %-3" PRIu32 " %10p %10p %9" PRIu64 "%c ",
t->tid, t->name, t, thread_states[t->state], t->task,
t->task->context, t->thread_code, t->kstack, cycles, suffix);
#endif
 
#ifdef __64_BITS__
printf("%-6" PRIu64" %-10s %18p %-8s %18p %-3" PRIu32 " %18p %18p %9" PRIu64 "%c ",
t->tid, t->name, t, thread_states[t->state], t->task,
t->task->context, t->thread_code, t->kstack, cycles, suffix);
#endif
if (t->cpu)
printf("%-4zd", t->cpu->id);
printf("%-4u", t->cpu->id);
else
printf("none");
if (t->state == Sleeping) {
if (sizeof(uintptr_t) == 4)
printf(" %#10zx", t->sleep_queue);
else
printf(" %#18zx", t->sleep_queue);
#ifdef __32_BITS__
printf(" %10p", t->sleep_queue);
#endif
 
#ifdef __64_BITS__
printf(" %18p", t->sleep_queue);
#endif
}
printf("\n");
623,23 → 630,25
/* Messing with thread structures, avoid deadlock */
ipl = interrupts_disable();
spinlock_lock(&threads_lock);
if (sizeof(uintptr_t) == 4) {
printf("tid name address state task "
"ctx code stack cycles cpu "
"waitqueue\n");
printf("------ ---------- ---------- -------- ---------- "
"--- ---------- ---------- ---------- ---- "
"----------\n");
} else {
printf("tid name address state task "
"ctx code stack cycles cpu "
"waitqueue\n");
printf("------ ---------- ------------------ -------- ------------------ "
"--- ------------------ ------------------ ---------- ---- "
"------------------\n");
}
 
#ifdef __32_BITS__
printf("tid name address state task "
"ctx code stack cycles cpu "
"waitqueue\n");
printf("------ ---------- ---------- -------- ---------- "
"--- ---------- ---------- ---------- ---- "
"----------\n");
#endif
 
#ifdef __64_BITS__
printf("tid name address state task "
"ctx code stack cycles cpu "
"waitqueue\n");
printf("------ ---------- ------------------ -------- ------------------ "
"--- ------------------ ------------------ ---------- ---- "
"------------------\n");
#endif
 
avltree_walk(&threads_tree, thread_walker, NULL);
 
spinlock_unlock(&threads_lock);
665,6 → 674,73
}
 
 
/** Create new user task with 1 thread from image
*
* @param program_addr Address of program executable image.
* @param name Program name.
*
* @return Initialized main thread of the task or NULL on error.
*/
thread_t *thread_create_program(void *program_addr, char *name)
{
as_t *as;
as_area_t *area;
unsigned int rc;
task_t *task;
uspace_arg_t *kernel_uarg;
kernel_uarg = (uspace_arg_t *) malloc(sizeof(uspace_arg_t), 0);
if (kernel_uarg == NULL)
return NULL;
kernel_uarg->uspace_entry =
(void *) ((elf_header_t *) program_addr)->e_entry;
kernel_uarg->uspace_stack = (void *) USTACK_ADDRESS;
kernel_uarg->uspace_thread_function = NULL;
kernel_uarg->uspace_thread_arg = NULL;
kernel_uarg->uspace_uarg = NULL;
 
as = as_create(0);
if (as == NULL) {
free(kernel_uarg);
return NULL;
}
 
rc = elf_load((elf_header_t *) program_addr, as);
if (rc != EE_OK) {
free(kernel_uarg);
as_destroy(as);
return NULL;
}
/*
* Create the data as_area.
*/
area = as_area_create(as,
AS_AREA_READ | AS_AREA_WRITE | AS_AREA_CACHEABLE,
LOADED_PROG_STACK_PAGES_NO * PAGE_SIZE, USTACK_ADDRESS,
AS_AREA_ATTR_NONE, &anon_backend, NULL);
if (area == NULL) {
free(kernel_uarg);
as_destroy(as);
return NULL;
}
task = task_create(as, name);
if (task == NULL) {
free(kernel_uarg);
as_destroy(as);
return NULL;
}
/*
* Create the main thread.
*/
return thread_create(uinit, kernel_uarg, task, THREAD_FLAG_USPACE,
"uinit", false);
}
 
 
/** Update accounting of current thread.
*
* Note that thread_lock on THREAD must be already held and
/branches/dynload/kernel/generic/src/lib/memstr.c
67,10 → 67,10
((uint8_t *) dst)[i] = ((uint8_t *) src)[i];
} else {
for (i = 0; i < cnt/sizeof(unative_t); i++)
for (i = 0; i < cnt / sizeof(unative_t); i++)
((unative_t *) dst)[i] = ((unative_t *) src)[i];
for (j = 0; j < cnt%sizeof(unative_t); j++)
for (j = 0; j < cnt % sizeof(unative_t); j++)
((uint8_t *)(((unative_t *) dst) + i))[j] = ((uint8_t *)(((unative_t *) src) + i))[j];
}
/branches/dynload/kernel/generic/src/lib/func.c
73,7 → 73,7
}
#endif
if (CPU)
printf("cpu%d: halted\n", CPU->id);
printf("cpu%u: halted\n", CPU->id);
else
printf("cpu: halted\n");
cpu_halt();
/branches/dynload/kernel/generic/src/lib/objc_ext.c
101,7 → 101,7
 
void __assert_fail(const char *assertion, const char *file, unsigned int line, const char *function)
{
panic("Run-time assertion (%s:%d:%s) failed (%s)", file, line, function ? function : "", assertion);
panic("Run-time assertion (%s:%u:%s) failed (%s)", file, line, function ? function : "", assertion);
}
 
void abort(void)
/branches/dynload/kernel/generic/src/adt/btree.c
124,7 → 124,7
lnode = leaf_node;
if (!lnode) {
if (btree_search(t, key, &lnode)) {
panic("B-tree %p already contains key %d\n", t, key);
panic("B-tree %p already contains key %" PRIu64 "\n", t, key);
}
}
224,7 → 224,7
lnode = leaf_node;
if (!lnode) {
if (!btree_search(t, key, &lnode)) {
panic("B-tree %p does not contain key %d\n", t, key);
panic("B-tree %p does not contain key %" PRIu64 "\n", t, key);
}
}
524,7 → 524,7
return;
}
}
panic("node %p does not contain key %d\n", node, key);
panic("node %p does not contain key %" PRIu64 "\n", node, key);
}
 
/** Remove key and its right subtree pointer from B-tree node.
551,7 → 551,7
return;
}
}
panic("node %p does not contain key %d\n", node, key);
panic("node %p does not contain key %" PRIu64 "\n", node, key);
}
 
/** Split full B-tree node and insert new key-value-right-subtree triplet.
970,7 → 970,7
 
printf("(");
for (i = 0; i < node->keys; i++) {
printf("%llu%s", node->key[i], i < node->keys - 1 ? "," : "");
printf("%" PRIu64 "%s", node->key[i], i < node->keys - 1 ? "," : "");
if (node->depth && node->subtree[i]) {
list_append(&node->subtree[i]->bfs_link, &head);
}
992,7 → 992,7
 
printf("(");
for (i = 0; i < node->keys; i++)
printf("%llu%s", node->key[i], i < node->keys - 1 ? "," : "");
printf("%" PRIu64 "%s", node->key[i], i < node->keys - 1 ? "," : "");
printf(")");
}
printf("\n");
/branches/dynload/kernel/generic/src/mm/slab.c
557,7 → 557,7
ASSERT(_slab_initialized >= 2);
 
cache->mag_cache = malloc(sizeof(slab_mag_cache_t)*config.cpu_count,0);
cache->mag_cache = malloc(sizeof(slab_mag_cache_t) * config.cpu_count,0);
for (i = 0; i < config.cpu_count; i++) {
memsetb((uintptr_t)&cache->mag_cache[i],
sizeof(cache->mag_cache[i]), 0);
813,7 → 813,10
for (cur = slab_cache_list.next; cur != &slab_cache_list; cur = cur->next) {
cache = list_get_instance(cur, slab_cache_t, link);
printf("%-16s %8zd %6zd %6zd %6zd %6zd %9zd %-3s\n", cache->name, cache->size, (1 << cache->order), cache->objects, atomic_get(&cache->allocated_slabs), atomic_get(&cache->cached_objs), atomic_get(&cache->allocated_objs), cache->flags & SLAB_CACHE_SLINSIDE ? "in" : "out");
printf("%-16s %8" PRIs " %6d %6u %6ld %6ld %9ld %-3s\n",
cache->name, cache->size, (1 << cache->order), cache->objects,
atomic_get(&cache->allocated_slabs), atomic_get(&cache->cached_objs),
atomic_get(&cache->allocated_objs), cache->flags & SLAB_CACHE_SLINSIDE ? "in" : "out");
}
spinlock_unlock(&slab_cache_lock);
interrupts_restore(ipl);
826,7 → 829,7
/* Initialize magazine cache */
_slab_cache_create(&mag_cache,
"slab_magazine",
sizeof(slab_magazine_t)+SLAB_MAG_SIZE*sizeof(void*),
sizeof(slab_magazine_t) + SLAB_MAG_SIZE * sizeof(void*),
sizeof(uintptr_t),
NULL, NULL,
SLAB_CACHE_NOMAGAZINE | SLAB_CACHE_SLINSIDE);
844,8 → 847,8
SLAB_CACHE_SLINSIDE | SLAB_CACHE_MAGDEFERRED);
 
/* Initialize structures for malloc */
for (i=0, size=(1<<SLAB_MIN_MALLOC_W);
i < (SLAB_MAX_MALLOC_W-SLAB_MIN_MALLOC_W+1);
for (i=0, size=(1 << SLAB_MIN_MALLOC_W);
i < (SLAB_MAX_MALLOC_W - SLAB_MIN_MALLOC_W + 1);
i++, size <<= 1) {
malloc_caches[i] = slab_cache_create(malloc_names[i],
size, 0,
/branches/dynload/kernel/generic/src/mm/as.c
453,10 → 453,8
cond = false; /* we are almost done */
i = (start_free - b) >> PAGE_WIDTH;
if (!used_space_remove(area, start_free,
c - i))
panic("Could not remove used "
"space.\n");
if (!used_space_remove(area, start_free, c - i))
panic("Could not remove used space.\n");
} else {
/*
* The interval of used space can be
463,8 → 461,7
* completely removed.
*/
if (!used_space_remove(area, b, c))
panic("Could not remove used "
"space.\n");
panic("Could not remove used space.\n");
}
for (; i < c; i++) {
1630,7 → 1627,7
}
}
 
panic("Inconsistency detected while adding %d pages of used space at "
panic("Inconsistency detected while adding %" PRIc " pages of used space at "
"%p.\n", count, page);
}
 
1809,7 → 1806,7
}
 
error:
panic("Inconsistency detected while removing %d pages of used space "
panic("Inconsistency detected while removing %" PRIc " pages of used space "
"from %p.\n", count, page);
}
 
1908,9 → 1905,9
as_area_t *area = node->value[i];
mutex_lock(&area->lock);
printf("as_area: %p, base=%p, pages=%d (%p - %p)\n",
printf("as_area: %p, base=%p, pages=%" PRIc " (%p - %p)\n",
area, area->base, area->pages, area->base,
area->base + area->pages*PAGE_SIZE);
area->base + FRAMES2SIZE(area->pages));
mutex_unlock(&area->lock);
}
}
/branches/dynload/kernel/generic/src/mm/buddy.c
44,6 → 44,7
#include <arch/types.h>
#include <debug.h>
#include <print.h>
#include <macros.h>
 
/** Return size needed for the buddy configuration data */
size_t buddy_conf_size(int max_order)
289,13 → 290,13
void buddy_system_structure_print(buddy_system_t *b, size_t elem_size) {
index_t i;
count_t cnt, elem_count = 0, block_count = 0;
link_t * cur;
link_t *cur;
 
printf("Order\tBlocks\tSize \tBlock size\tElems per block\n");
printf("-----\t------\t--------\t----------\t---------------\n");
for (i=0;i <= b->max_order; i++) {
for (i = 0;i <= b->max_order; i++) {
cnt = 0;
if (!list_empty(&b->order[i])) {
for (cur = b->order[i].next; cur != &b->order[i]; cur = cur->next)
302,7 → 303,8
cnt++;
}
printf("#%zd\t%5zd\t%7zdK\t%8zdK\t%6zd\t", i, cnt, (cnt * (1 << i) * elem_size) >> 10, ((1 << i) * elem_size) >> 10, 1 << i);
printf("#%" PRIi "\t%5" PRIc "\t%7" PRIc "K\t%8" PRIi "K\t%6u\t",
i, cnt, SIZE2KB(cnt * (1 << i) * elem_size), SIZE2KB((1 << i) * elem_size), 1 << i);
if (!list_empty(&b->order[i])) {
for (cur = b->order[i].next; cur != &b->order[i]; cur = cur->next) {
b->op->print_id(b, cur);
315,8 → 317,7
elem_count += (1 << i) * cnt;
}
printf("-----\t------\t--------\t----------\t---------------\n");
printf("Buddy system contains %zd free elements (%zd blocks)\n" , elem_count, block_count);
 
printf("Buddy system contains %" PRIc " free elements (%" PRIc " blocks)\n" , elem_count, block_count);
}
 
/** @}
/branches/dynload/kernel/generic/src/mm/frame.c
318,7 → 318,7
frame = list_get_instance(block, frame_t, buddy_link);
zone = (zone_t *) b->data;
index = frame_index(zone, frame);
printf("%zd", index);
printf("%" PRIi, index);
}
 
/** Buddy system find_buddy implementation
844,7 → 844,7
*/
uintptr_t zone_conf_size(count_t count)
{
int size = sizeof(zone_t) + count*sizeof(frame_t);
int size = sizeof(zone_t) + count * sizeof(frame_t);
int max_order;
 
max_order = fnzb(count);
1159,26 → 1159,31
 
ipl = interrupts_disable();
spinlock_lock(&zones.lock);
 
#ifdef __32_BITS__
printf("# base address free frames busy frames\n");
printf("-- ------------ ------------ ------------\n");
#endif
 
#ifdef __64_BITS__
printf("# base address free frames busy frames\n");
printf("-- -------------------- ------------ ------------\n");
#endif
if (sizeof(void *) == 4) {
printf("# base address free frames busy frames\n");
printf("-- ------------ ------------ ------------\n");
} else {
printf("# base address free frames busy frames\n");
printf("-- -------------------- ------------ ------------\n");
}
for (i = 0; i < zones.count; i++) {
zone = zones.info[i];
spinlock_lock(&zone->lock);
 
#ifdef __32_BITS__
printf("%-2u %10p %12" PRIc " %12" PRIc "\n", i, PFN2ADDR(zone->base),
zone->free_count, zone->busy_count);
#endif
 
#ifdef __64_BITS__
printf("%-2u %18p %12" PRIc " %12" PRIc "\n", i, PFN2ADDR(zone->base),
zone->free_count, zone->busy_count);
#endif
if (sizeof(void *) == 4)
printf("%-2d %#10zx %12zd %12zd\n", i, PFN2ADDR(zone->base),
zone->free_count, zone->busy_count);
else
printf("%-2d %#18zx %12zd %12zd\n", i, PFN2ADDR(zone->base),
zone->free_count, zone->busy_count);
spinlock_unlock(&zone->lock);
}
1211,13 → 1216,12
spinlock_lock(&zone->lock);
printf("Memory zone information\n");
printf("Zone base address: %#.*p\n", sizeof(uintptr_t) * 2,
PFN2ADDR(zone->base));
printf("Zone size: %zd frames (%zd KB)\n", zone->count,
printf("Zone base address: %p\n", PFN2ADDR(zone->base));
printf("Zone size: %" PRIc " frames (%" PRIs " KB)\n", zone->count,
SIZE2KB(FRAMES2SIZE(zone->count)));
printf("Allocated space: %zd frames (%zd KB)\n", zone->busy_count,
printf("Allocated space: %" PRIc " frames (%" PRIs " KB)\n", zone->busy_count,
SIZE2KB(FRAMES2SIZE(zone->busy_count)));
printf("Available space: %zd frames (%zd KB)\n", zone->free_count,
printf("Available space: %" PRIc " frames (%" PRIs " KB)\n", zone->free_count,
SIZE2KB(FRAMES2SIZE(zone->free_count)));
buddy_system_structure_print(zone->buddy_system, FRAME_SIZE);
spinlock_unlock(&zone->lock);
/branches/dynload/kernel/generic/src/syscall/syscall.c
51,12 → 51,11
#include <syscall/copy.h>
#include <sysinfo/sysinfo.h>
#include <console/console.h>
#include <console/klog.h>
 
/** Print using kernel facility
*
* Some simulators can print only through kernel. Userspace can use
* this syscall to facilitate it.
* Print to kernel log.
*
*/
static unative_t sys_io(int fd, const void * buf, size_t count)
{
107,8 → 106,7
if (id < SYSCALL_END)
rc = syscall_table[id](a1, a2, a3, a4, a5, a6);
else {
klog_printf("TASK %llu: Unknown syscall id %lx", TASK->taskid,
id);
printf("Task %" PRIu64": Unknown syscall %#" PRIxn, TASK->taskid, id);
task_kill(TASK->taskid);
thread_exit();
}
127,8 → 125,10
(syshandler_t) sys_thread_create,
(syshandler_t) sys_thread_exit,
(syshandler_t) sys_thread_get_id,
(syshandler_t) sys_task_get_id,
(syshandler_t) sys_task_spawn,
(syshandler_t) sys_task_spawn_loader,
/* Synchronization related syscalls. */
(syshandler_t) sys_futex_sleep_timeout,
/branches/dynload/kernel/generic/src/ipc/sysipc.c
426,7 → 426,7
phone_t *phone;
int res;
int rc;
 
GET_CHECK_PHONE(phone, phoneid, return ENOENT);
 
ipc_call_static_init(&call);
626,7 → 626,7
IPC_SET_RETVAL(call->data, EFORWARD);
ipc_answer(&TASK->answerbox, call);
return ENOENT;
});
});
 
if (!method_is_forwardable(IPC_GET_METHOD(call->data))) {
IPC_SET_RETVAL(call->data, EFORWARD);
/branches/dynload/kernel/generic/src/ipc/ipc.c
562,7 → 562,7
default:
break;
}
printf("active: %d\n",
printf("active: %ld\n",
atomic_get(&task->phones[i].active_calls));
}
mutex_unlock(&task->phones[i].lock);
573,10 → 573,11
spinlock_lock(&task->answerbox.lock);
printf("ABOX - CALLS:\n");
for (tmp = task->answerbox.calls.next; tmp != &task->answerbox.calls;
tmp = tmp->next) {
tmp = tmp->next) {
call = list_get_instance(tmp, call_t, link);
printf("Callid: %p Srctask:%llu M:%d A1:%d A2:%d A3:%d "
"A4:%d A5:%d Flags:%x\n", call, call->sender->taskid,
printf("Callid: %p Srctask:%" PRIu64 " M:%" PRIun
" A1:%" PRIun " A2:%" PRIun " A3:%" PRIun
" A4:%" PRIun " A5:%" PRIun " Flags:%x\n", call, call->sender->taskid,
IPC_GET_METHOD(call->data), IPC_GET_ARG1(call->data),
IPC_GET_ARG2(call->data), IPC_GET_ARG3(call->data),
IPC_GET_ARG4(call->data), IPC_GET_ARG5(call->data),
584,12 → 585,13
}
/* Print answerbox - calls */
printf("ABOX - DISPATCHED CALLS:\n");
for (tmp = task->answerbox.dispatched_calls.next;
tmp != &task->answerbox.dispatched_calls;
tmp = tmp->next) {
for (tmp = task->answerbox.dispatched_calls.next;
tmp != &task->answerbox.dispatched_calls;
tmp = tmp->next) {
call = list_get_instance(tmp, call_t, link);
printf("Callid: %p Srctask:%llu M:%d A1:%d A2:%d A3:%d "
"A4:%d A5:%d Flags:%x\n", call, call->sender->taskid,
printf("Callid: %p Srctask:%" PRIu64 " M:%" PRIun
" A1:%" PRIun " A2:%" PRIun " A3:%" PRIun
" A4:%" PRIun " A5:%" PRIun " Flags:%x\n", call, call->sender->taskid,
IPC_GET_METHOD(call->data), IPC_GET_ARG1(call->data),
IPC_GET_ARG2(call->data), IPC_GET_ARG3(call->data),
IPC_GET_ARG4(call->data), IPC_GET_ARG5(call->data),
598,9 → 600,10
/* Print answerbox - calls */
printf("ABOX - ANSWERS:\n");
for (tmp = task->answerbox.answers.next; tmp != &task->answerbox.answers;
tmp = tmp->next) {
tmp = tmp->next) {
call = list_get_instance(tmp, call_t, link);
printf("Callid:%p M:%d A1:%d A2:%d A3:%d A4:%d A5:%d Flags:%x\n",
printf("Callid:%p M:%" PRIun " A1:%" PRIun " A2:%" PRIun
" A3:%" PRIun " A4:%" PRIun " A5:%" PRIun " Flags:%x\n",
call, IPC_GET_METHOD(call->data), IPC_GET_ARG1(call->data),
IPC_GET_ARG2(call->data), IPC_GET_ARG3(call->data),
IPC_GET_ARG4(call->data), IPC_GET_ARG5(call->data),