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mirror of https://gitlab.os-k.eu/os-k-team/os-k.git synced 2023-08-25 14:03:10 +02:00
This commit is contained in:
Adrien Bourmault 2019-03-19 13:43:48 +01:00
commit a2cf863cd0
10 changed files with 119 additions and 127 deletions

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@ -77,7 +77,7 @@ noreturn void __assert_handler(const char *, const char *, int, const char *);
// When debugging //
//------------------------------------------//
#if !defined(_NO_DEBUG) && !defined(NDEBUG) && !defined(KalAssert)
#if /*!defined(_NO_DEBUG) && !defined(NDEBUG) &&*/ !defined(KalAssert)
//
// Check whether (x) holds, if not call __assert_handler

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@ -51,7 +51,7 @@ enum LockType_t
// Mutex-type lock
//
// WARNING
// AquireLock() panics when used on a mutex while not running a process
// AcquireLock() panics when used on a mutex while not running a process
KLOCK_MUTEX,
// Spinlock-type lock
@ -121,18 +121,18 @@ void DestroyLock(Lock_t *lock)
}
//
// Aquire the lock
// Panic on double aquisition since that should never happen
// Acquire the lock
// Panic on double acquisition since that should never happen
// until we have at least a basic scheduler
//
static inline
void AquireLock(Lock_t *lock)
void AcquireLock(Lock_t *lock)
{
KalAssert(lock->initDone == INITOK);
while (!__sync_bool_compare_and_swap(&lock->locked, 0, 1)) {
#ifdef _KALEID_KERNEL
StartPanic("AquireLock on an already locked object");
StartPanic("AcquireLock on an already locked object");
#else
if likely (lock->type == KLOCK_SPINLOCK) continue;
#ifdef _OSK_SOURCE
@ -146,8 +146,8 @@ void AquireLock(Lock_t *lock)
}
//
// Release an already aquired lock
// Panic if the lock was never aquired
// Release an already acquired lock
// Panic if the lock was never acquired
//
static inline
void ReleaseLock(Lock_t *lock)
@ -161,7 +161,7 @@ void ReleaseLock(Lock_t *lock)
}
//
// Tries to aquire lock
// Tries to acquire lock
//
static inline
bool AttemptLock(Lock_t *lock)

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@ -31,9 +31,7 @@
//------------------------------------------//
// Can't use the macro because panicStr is an array
static inline char *GetPanicStr(void)
{ return GetCurCPU().panicStr; }
extern volatile char *PanicStr;
//------------------------------------------//

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@ -80,46 +80,35 @@ struct Terminal_t
TermColor_t bgColor;
// Defined in driver
error_t (*ClearTermUnlocked)(Terminal_t *);
error_t (*PutOnTermUnlocked)(Terminal_t *, char);
error_t (*PrintOnTermUnlocked)(Terminal_t *, const char *);
error_t (*clear)(Terminal_t *);
error_t (*putchar)(Terminal_t *, char);
};
//------------------------------------------//
void InitTerms(void);
error_t ClearTerm(Terminal_t *);
error_t PutOnTerm(Terminal_t *, char);
error_t PrintOnTerm(Terminal_t *, const char *);
error_t ChTermColor(Terminal_t *, TermColor_t, TermColor_t);
error_t PutOnTerm(Terminal_t *, char);
error_t PutOnTermUnlocked(Terminal_t *, char);
error_t PrintOnTerm(Terminal_t *, const char *);
error_t PrintOnTermUnlocked(Terminal_t *, const char *);
error_t KernLog(const char *, ...);
//------------------------------------------//
extern Terminal_t *stdOut;
#define GetStdOut() (stdOut)
#define SetStdOut(x) (stdOut = (x))
// Debug purposes
volatile ushort *vga;
extern Terminal_t *StdOut;
extern Terminal_t *StdDbg;
//------------------------------------------//
#ifndef _NO_DEBUG
extern Terminal_t *stdDbg;
#define GetStdDbg() (stdDbg)
#define SetStdDbg(x) (stdDbg = (x))
error_t DebugLog(const char *, ...);
#else // _NO_DEBUG
#define GetStdDbg() NULL
#define SetStdDbg(x) ((void)0)
#define DebugLog(fmt, ...) EOK
#endif
//------------------------------------------//

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@ -27,6 +27,8 @@
int cpuCount = 1;
Processor_t cpuTable[NCPUS] = {0};
BootInfo_t bootTab = {0};
BootInfo_t bootTab = {0}
Terminal_t *StdOut = 0, *StdDbg = 0;
volatile char *PanicStr = 0;
Terminal_t *stdOut = 0, *stdDbg = 0;

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@ -32,14 +32,14 @@ extern Terminal_t VGA_Terminal;
//
void InitTerms(void)
{
KalAssert(!GetStdOut() && !GetStdDbg());
KalAssert(!StdOut && !StdDbg);
VGA_Init();
SetStdDbg(&VGA_Terminal);
SetStdOut(&VGA_Terminal);
StdDbg = &VGA_Terminal;
StdOut = &VGA_Terminal;
ClearTerm(GetStdOut());
ClearTerm(StdOut);
}
//
@ -52,8 +52,8 @@ error_t ClearTerm(Terminal_t *term)
if (term == NULL) return EINVAL;
KalAssert(term->initDone == INITOK);
AquireLock(&term->lock);
retcode = term->ClearTermUnlocked(term);
AcquireLock(&term->lock);
retcode = term->clear(term);
ReleaseLock(&term->lock);
return retcode;
@ -70,7 +70,7 @@ error_t ChTermColor(Terminal_t *term, TermColor_t fgColor, TermColor_t bgColor)
if (term == NULL)
return EINVAL;
AquireLock(&term->lock);
AcquireLock(&term->lock);
term->fgColor = fgColor;
term->bgColor = bgColor;
@ -81,39 +81,99 @@ error_t ChTermColor(Terminal_t *term, TermColor_t fgColor, TermColor_t bgColor)
}
//
// Writes a single character on the terminal
// Writes a single character on the terminal (UNLOCKED version)
//
error_t PutOnTermUnlocked(Terminal_t *term, char ch)
{
uint i;
size_t prevY;
error_t rc = EOK;
if (ch == '\r') {
term->currentX = 0;
return EOK;
}
// Line feed first takes us to the very end of the line
// Later in this function we actually do the line feed
else if (ch == '\n') {
term->currentX = term->width - 1;
}
// Tabulations account for "term->tabSize" spaces
else if (ch == '\t') {
prevY = term->currentX;
for (i = 0; i < term->tabSize; i++) {
// Make sure tabulations can't spread over two lines
if (term->currentX == prevY) {
rc = term->putchar(term, ' ');
if (rc) return rc;
}
}
}
else rc = term->putchar(term, ch);
// Did we reach the end of line?
if (!rc && ++term->currentX == term->width) {
term->currentX = 0;
// Did we reach the buffer's end?
if (++term->currentY == term->height) {
term->currentY = 0;
}
}
return rc;
}
//
// Writes a single character on the terminal (LOCKED version)
//
error_t PutOnTerm(Terminal_t *term, char ch)
{
error_t retcode;
error_t rc;
if (term == NULL) return EINVAL;
KalAssert(term->initDone == INITOK);
AquireLock(&term->lock);
retcode = term->PutOnTermUnlocked(term, ch);
AcquireLock(&term->lock);
rc = PutOnTermUnlocked(term, ch);
ReleaseLock(&term->lock);
return retcode;
return rc;
}
//
// Prints string on terminal
// Prints string on terminal (UNLOCKED version)
//
error_t PrintOnTermUnlocked(Terminal_t *term, const char *str)
{
error_t rc = EOK;
while (*str && rc == EOK) {
rc = PutOnTermUnlocked(term, *str++);
}
return rc;
}
//
// Prints string on terminal (LOCKED version)
//
error_t PrintOnTerm(Terminal_t *term, const char *str)
{
error_t retcode = EOK;
error_t rc = EOK;
if (term == NULL) return EINVAL;
KalAssert(term->initDone == INITOK);
AquireLock(&term->lock);
while (*str && retcode == EOK) {
retcode = term->PutOnTermUnlocked(term, *str++);
}
AcquireLock(&term->lock);
rc = PrintOnTermUnlocked(term, str);
ReleaseLock(&term->lock);
return retcode;
return rc;
}
//
@ -130,7 +190,7 @@ error_t KernLog(const char *fmt, ...)
vsnprintf(logbuf, KLOG_MAX_BUFSIZE, fmt, ap);
va_end(ap);
return PrintOnTerm(GetStdOut(), logbuf);
return PrintOnTerm(StdOut, logbuf);
}
#ifndef _NO_DEBUG
@ -148,7 +208,7 @@ error_t DebugLog(const char *fmt, ...)
vsnprintf(logbuf, KLOG_MAX_BUFSIZE, fmt, ap);
va_end(ap);
return PrintOnTerm(GetStdDbg(), logbuf);
return PrintOnTerm(StdDbg, logbuf);
}
#endif

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@ -59,69 +59,15 @@ error_t VGA_ClearTermUnlocked(Terminal_t *term)
//
error_t VGA_PutOnTermUnlocked(Terminal_t *term, char ch)
{
uint i;
size_t prevY;
if (ch == '\r') {
term->currentX = 0;
return EOK;
}
// Line feed first takes us to the very end of the line
// Later in this function we actually do the line feed
else if (ch == '\n') {
term->currentX = term->width - 1;
}
// Tabulations account for "term->tabSize" spaces
else if (ch == '\t') {
prevY = term->currentX;
for (i = 0; i < term->tabSize; i++) {
// Make sure tabulations can't spread over two lines
if (term->currentX == prevY) {
VGA_PutOnTermUnlocked(term, ' ');
}
}
}
else {
ushort *buffer = (ushort *)term->data;
const size_t offset = VGA_ComputeOffset(term, term->currentX, term->currentY);
buffer[offset] = VGA_ComputeEntry(ch, VGA_ComputeColorCode(term->fgColor, term->bgColor));
}
// Did we reach the end of line?
if (++term->currentX == term->width) {
term->currentX = 0;
// Did we reach the buffer's end?
if (++term->currentY == term->height) {
// XXX scroll up
term->currentY = 0;
}
}
// Nothing can go wrong
return EOK;
}
//
// Prints string on terminal
//
error_t VGA_PrintOnTermUnlocked(Terminal_t *term, const char *str)
{
error_t retcode = EOK;
while (*str && retcode == EOK) {
retcode = term->PutOnTermUnlocked(term, *str++);
}
return retcode;
}
//
// VGA output
// XXX custom sizes
//
Terminal_t VGA_Terminal = {
.initDone = FALSE,
@ -140,9 +86,8 @@ Terminal_t VGA_Terminal = {
.fgColor = KTERM_COLOR_LGREY,
.bgColor = KTERM_COLOR_BLACK,
.ClearTermUnlocked = VGA_ClearTermUnlocked,
.PutOnTermUnlocked = VGA_PutOnTermUnlocked,
.PrintOnTermUnlocked = VGA_PrintOnTermUnlocked,
.clear = VGA_ClearTermUnlocked,
.putchar = VGA_PutOnTermUnlocked,
};

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@ -37,7 +37,7 @@ noreturn void __assert_handler(const char *msg,
(void)file; (void)line; (void)func;
StartPanic("cpu%d: In function '%s', from %s line %d - assert() failed: '%s'",
StartPanic("cpu%d: In function '%s', from %s line %d - assertion failed: '%s'",
_GetCurCPU(), func, file, line, msg);
}
@ -52,25 +52,23 @@ noreturn void StartPanic(const char *fmt, ...)
DisableIRQs();
if (GetCurProc()) _SetCurProc(NULL);
if (GetStdOut() == NULL) CrashSystem();
GetStdOut()->ClearTermUnlocked(GetStdOut());
if (StdOut == NULL) CrashSystem();
if (fmt == NULL) {
fmt = "(no message given)";
}
if (*GetPanicStr()) {
GetStdOut()->PrintOnTermUnlocked(GetStdOut(), "\nDouble panic!");
if (PanicStr[0] != 0) {
PrintOnTermUnlocked(StdOut, "\nDouble panic!");
HaltCPU();
}
va_start(ap, fmt);
vsnprintf(GetPanicStr(), PANICSTR_SIZE, fmt, ap);
vsnprintf(PanicStr, PANICSTR_SIZE, fmt, ap);
va_end(ap);
GetStdOut()->PrintOnTermUnlocked(GetStdOut(), "\nPanic!\n\n");
GetStdOut()->PrintOnTermUnlocked(GetStdOut(), GetPanicStr());
PrintOnTermUnlocked(StdOut, "\nPanic!\n\n");
PrintOnTermUnlocked(StdOut, PanicStr);
HaltCPU();
}

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@ -47,11 +47,11 @@ void InitHeap(void)
}
//
// Aquires control of the heap's lock
// Acquires control of the heap's lock
//
void LockHeap(void)
{
AquireLock(&_heap_lock);
AcquireLock(&_heap_lock);
}
//

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@ -46,7 +46,7 @@ error_t KalAllocMemory(void **ptr, size_t req, int flags, size_t align)
UnlockHeap();
if (rc) {
if ((flags & M_CANFAIL) == 0)
if ((flags & M_CANFAIL) != 0)
return rc;
StartPanic("Out of memory");
}