// === IMPORTS ===
extern Uint32 gaInitPageDir[1024];
extern Uint32 gaInitPageTable[1024];
-extern void Threads_SegFault(Uint Addr);
+extern void Threads_SegFault(tVAddr Addr);
extern void Error_Backtrace(Uint eip, Uint ebp);
// === PROTOTYPES ===
void MM_PreinitVirtual();
void MM_InstallVirtual();
-void MM_PageFault(Uint Addr, Uint ErrorCode, tRegs *Regs);
+void MM_PageFault(tVAddr Addr, Uint ErrorCode, tRegs *Regs);
void MM_DumpTables(tVAddr Start, tVAddr End);
-tPAddr MM_DuplicatePage(Uint VAddr);
+tPAddr MM_DuplicatePage(tVAddr VAddr);
// === GLOBALS ===
tPAddr *gaPageTable = (void*)PAGE_TABLE_ADDR;
}
/**
- * \fn void MM_PageFault(Uint Addr, Uint ErrorCode, tRegs *Regs)
+ * \fn void MM_PageFault(tVAddr Addr, Uint ErrorCode, tRegs *Regs)
* \brief Called on a page fault
*/
-void MM_PageFault(Uint Addr, Uint ErrorCode, tRegs *Regs)
+void MM_PageFault(tVAddr Addr, Uint ErrorCode, tRegs *Regs)
{
//ENTER("xAddr bErrorCode", Addr, ErrorCode);
}
/**
- * \fn void MM_DumpTables(Uint Start, Uint End)
+ * \fn void MM_DumpTables(tVAddr Start, tVAddr End)
* \brief Dumps the layout of the page tables
*/
void MM_DumpTables(tVAddr Start, tVAddr End)
}
/**
- * \fn tPAddr MM_Allocate(Uint VAddr)
+ * \fn tPAddr MM_Allocate(tVAddr VAddr)
*/
-tPAddr MM_Allocate(Uint VAddr)
+tPAddr MM_Allocate(tVAddr VAddr)
{
tPAddr paddr;
// Check if the directory is mapped
}
/**
- * \fn void MM_Deallocate(Uint VAddr)
+ * \fn void MM_Deallocate(tVAddr VAddr)
*/
-void MM_Deallocate(Uint VAddr)
+void MM_Deallocate(tVAddr VAddr)
{
if( gaPageDir[ VAddr >> 22 ] == 0 ) {
Warning("MM_Deallocate - Directory not mapped");
}
/**
- * \fn tPAddr MM_GetPhysAddr(Uint Addr)
+ * \fn tPAddr MM_GetPhysAddr(tVAddr Addr)
* \brief Checks if the passed address is accesable
*/
-tPAddr MM_GetPhysAddr(Uint Addr)
+tPAddr MM_GetPhysAddr(tVAddr Addr)
{
if( !(gaPageDir[Addr >> 22] & 1) )
return 0;
return (gaPageTable[Addr >> 12] & ~0xFFF) | (Addr & 0xFFF);
}
+
+/**
+ * \fn int MM_IsUser(tVAddr Addr)
+ * \brief Checks if a page is user accessable
+ */
+int MM_IsUser(tVAddr Addr)
+{
+ if( !(gaPageDir[Addr >> 22] & 1) )
+ return 0;
+ if( !(gaPageTable[Addr >> 12] & 1) )
+ return 0;
+ if( !(gaPageTable[Addr >> 12] & PF_USER) )
+ return 0;
+ return 1;
+}
+
/**
- * \fn void MM_SetCR3(Uint CR3)
+ * \fn void MM_SetCR3(tPAddr CR3)
* \brief Sets the current process space
*/
-void MM_SetCR3(Uint CR3)
+void MM_SetCR3(tPAddr CR3)
{
__asm__ __volatile__ ("mov %0, %%cr3"::"r"(CR3));
}
/**
- * \fn int MM_Map(Uint VAddr, tPAddr PAddr)
+ * \fn int MM_Map(tVAddr VAddr, tPAddr PAddr)
* \brief Map a physical page to a virtual one
*/
-int MM_Map(Uint VAddr, tPAddr PAddr)
+int MM_Map(tVAddr VAddr, tPAddr PAddr)
{
//ENTER("xVAddr xPAddr", VAddr, PAddr);
// Sanity check
}
/**
- * \fn Uint MM_ClearUser()
+ * \fn tVAddr MM_ClearUser()
* \brief Clear user's address space
*/
-Uint MM_ClearUser()
+tVAddr MM_ClearUser()
{
Uint i, j;
}
/**
- * \fn Uint MM_Clone()
+ * \fn tPAddr MM_Clone()
* \brief Clone the current address space
*/
-Uint MM_Clone()
+tPAddr MM_Clone()
{
Uint i, j;
- Uint ret;
+ tVAddr ret;
Uint page = 0;
- Uint kStackBase = Proc_GetCurThread()->KernelStack - KERNEL_STACK_SIZE;
+ tVAddr kStackBase = Proc_GetCurThread()->KernelStack - KERNEL_STACK_SIZE;
void *tmp;
LOCK( &gilTempFractal );
}
/**
- * \fn Uint MM_NewKStack()
+ * \fn tVAddr MM_NewKStack()
* \brief Create a new kernel stack
*/
-Uint MM_NewKStack()
+tVAddr MM_NewKStack()
{
- Uint base = KERNEL_STACKS;
+ tVAddr base = KERNEL_STACKS;
Uint i;
for(;base<KERNEL_STACKS_END;base+=KERNEL_STACK_SIZE)
{
}
/**
- * \fn Uint MM_NewWorkerStack()
+ * \fn tVAddr MM_NewWorkerStack()
* \brief Creates a new worker stack
*/
-Uint MM_NewWorkerStack()
+tVAddr MM_NewWorkerStack()
{
Uint esp, ebp;
Uint oldstack;
}
/**
- * \fn void MM_SetFlags(Uint VAddr, Uint Flags, Uint Mask)
+ * \fn void MM_SetFlags(tVAddr VAddr, Uint Flags, Uint Mask)
* \brief Sets the flags on a page
*/
-void MM_SetFlags(Uint VAddr, Uint Flags, Uint Mask)
+void MM_SetFlags(tVAddr VAddr, Uint Flags, Uint Mask)
{
tPAddr *ent;
if( !(gaPageDir[VAddr >> 22] & 1) ) return ;
}
/**
- * \fn tPAddr MM_DuplicatePage(Uint VAddr)
+ * \fn tPAddr MM_DuplicatePage(tVAddr VAddr)
* \brief Duplicates a virtual page to a physical one
*/
-tPAddr MM_DuplicatePage(Uint VAddr)
+tPAddr MM_DuplicatePage(tVAddr VAddr)
{
tPAddr ret;
Uint temp;
* \brief Create a temporary memory mapping
* \todo Show Luigi Barone (C Lecturer) and see what he thinks
*/
-Uint MM_MapTemp(tPAddr PAddr)
+tVAddr MM_MapTemp(tPAddr PAddr)
{
int i;
}
/**
- * \fn void MM_FreeTemp(Uint PAddr)
+ * \fn void MM_FreeTemp(tVAddr PAddr)
* \brief Free's a temp mapping
*/
-void MM_FreeTemp(Uint VAddr)
+void MM_FreeTemp(tVAddr VAddr)
{
int i = VAddr >> 12;
//ENTER("xVAddr", VAddr);
}
/**
- * \fn Uint MM_MapHWPage(tPAddr PAddr, Uint Number)
+ * \fn tVAddr MM_MapHWPage(tPAddr PAddr, Uint Number)
* \brief Allocates a contigous number of pages
*/
-Uint MM_MapHWPage(tPAddr PAddr, Uint Number)
+tVAddr MM_MapHWPage(tPAddr PAddr, Uint Number)
{
int i, j;
}
/**
- * \fn void MM_UnmapHWPage(Uint VAddr, Uint Number)
+ * \fn tVAddr MM_AllocDMA(int Pages, int MaxBits, tPAddr *PhysAddr)
+ * \brief Allocates DMA physical memory
+ * \param Pages Number of pages required
+ * \param MaxBits Maximum number of bits the physical address can have
+ * \param PhysAddr Pointer to the location to place the physical address allocated
+ * \return Virtual address allocate
+ */
+tVAddr MM_AllocDMA(int Pages, int MaxBits, tPAddr *PhysAddr)
+{
+ tPAddr maxCheck = (1 << MaxBits);
+ tPAddr phys;
+ tVAddr ret;
+
+ ENTER("iPages iMaxBits pPhysAddr", Pages, MaxBits, PhysAddr);
+
+ // Sanity Check
+ if(MaxBits < 12 || !PhysAddr) {
+ LEAVE('i', 0);
+ return 0;
+ }
+
+ // Bound
+ if(MaxBits >= PHYS_BITS) maxCheck = -1;
+
+ // Fast Allocate
+ if(Pages == 1 && MaxBits >= PHYS_BITS)
+ {
+ phys = MM_AllocPhys();
+ *PhysAddr = phys;
+ ret = MM_MapHWPage(phys, 1);
+ if(ret == 0) {
+ MM_DerefPhys(phys);
+ LEAVE('i', 0);
+ return 0;
+ }
+ LEAVE('x', ret);
+ return ret;
+ }
+
+ // Slow Allocate
+ phys = MM_AllocPhysRange(Pages);
+ // - Was it allocated?
+ if(phys == 0) {
+ LEAVE('i', 0);
+ return 0;
+ }
+ // - Check if the memory is OK
+ if(phys + (Pages-1)*0x1000 > maxCheck)
+ {
+ // Deallocate and return 0
+ for(;Pages--;phys+=0x1000)
+ MM_DerefPhys(phys);
+ LEAVE('i', 0);
+ return 0;
+ }
+
+ // Allocated successfully, now map
+ ret = MM_MapHWPage(phys, Pages);
+ if( ret == 0 ) {
+ // If it didn't map, free then return 0
+ for(;Pages--;phys+=0x1000)
+ MM_DerefPhys(phys);
+ LEAVE('i', 0);
+ return 0;
+ }
+
+ *PhysAddr = phys;
+ LEAVE('x', ret);
+ return ret;
+}
+
+/**
+ * \fn void MM_UnmapHWPage(tVAddr VAddr, Uint Number)
* \brief Unmap a hardware page
*/
-void MM_UnmapHWPage(Uint VAddr, Uint Number)
+void MM_UnmapHWPage(tVAddr VAddr, Uint Number)
{
int i, j;
// Sanity Check
EXPORT(MM_Map);
//EXPORT(MM_Unmap);
EXPORT(MM_MapHWPage);
+EXPORT(MM_AllocDMA);
EXPORT(MM_UnmapHWPage);