#include <mm_virt.h>
#include <threads_int.h>
#include <proc.h>
+#include <hal_proc.h>
+
+// === DEBUG OPTIONS ===
+#define TRACE_COW 0
// === CONSTANTS ===
#define PHYS_BITS 52 // TODO: Move out
extern void Error_Backtrace(Uint IP, Uint BP);
extern tPAddr gInitialPML4[512];
extern void Threads_SegFault(tVAddr Addr);
+extern char _UsertextBase[];
// === PROTOTYPES ===
void MM_InitVirt(void);
//void MM_FinishVirtualInit(void);
-void MM_PageFault(tVAddr Addr, Uint ErrorCode, tRegs *Regs);
-void MM_DumpTables(tVAddr Start, tVAddr End);
+void MM_int_ClonePageEnt( Uint64 *Ent, void *NextLevel, tVAddr Addr, int bTable );
+ int MM_PageFault(tVAddr Addr, Uint ErrorCode, tRegs *Regs);
+void MM_int_DumpTablesEnt(tVAddr RangeStart, size_t Length, tPAddr Expected);
+//void MM_DumpTables(tVAddr Start, tVAddr End);
int MM_GetPageEntryPtr(tVAddr Addr, BOOL bTemp, BOOL bAllocate, BOOL bLargePage, tPAddr **Pointer);
int MM_MapEx(tVAddr VAddr, tPAddr PAddr, BOOL bTemp, BOOL bLarge);
// int MM_Map(tVAddr VAddr, tPAddr PAddr);
void MM_Unmap(tVAddr VAddr);
-void MM_ClearUser(void);
+void MM_int_ClearTableLevel(tVAddr VAddr, int LevelBits, int MaxEnts);
+//void MM_ClearUser(void);
int MM_GetPageEntry(tVAddr Addr, tPAddr *Phys, Uint *Flags);
// === GLOBALS ===
tMutex glMM_TempFractalLock;
+tPAddr gMM_ZeroPage;
// === CODE ===
void MM_InitVirt(void)
{
- MM_DumpTables(0, -1L);
+// Log_Debug("MMVirt", "&PAGEMAPLVL4(0) = %p", &PAGEMAPLVL4(0));
+// MM_DumpTables(0, -1L);
}
void MM_FinishVirtualInit(void)
}
/**
+ * \brief Clone a page from an entry
+ * \param Ent Pointer to the entry in the PML4/PDP/PD/PT
+ * \param NextLevel Pointer to contents of the entry
+ * \param Addr Dest address
+ * \note Used in COW
+ */
+void MM_int_ClonePageEnt( Uint64 *Ent, void *NextLevel, tVAddr Addr, int bTable )
+{
+ tPAddr curpage = *Ent & PADDR_MASK;
+ int bCopied = 0;
+
+ if( MM_GetRefCount( curpage ) <= 0 ) {
+ Log_KernelPanic("MMVirt", "Page %P still marked COW, but unreferenced", curpage);
+ }
+ if( MM_GetRefCount( curpage ) == 1 )
+ {
+ *Ent &= ~PF_COW;
+ *Ent |= PF_PRESENT|PF_WRITE;
+ #if TRACE_COW
+ Log_Debug("MMVirt", "COW ent at %p (%p) only %P", Ent, NextLevel, curpage);
+ #endif
+ }
+ else
+ {
+ void *tmp;
+ tPAddr paddr;
+
+ if( !(paddr = MM_AllocPhys()) ) {
+ Threads_SegFault(Addr);
+ return ;
+ }
+
+ ASSERT(paddr != curpage);
+
+ tmp = (void*)MM_MapTemp(paddr);
+ memcpy( tmp, NextLevel, 0x1000 );
+ MM_FreeTemp( (tVAddr)tmp );
+
+ #if TRACE_COW
+ Log_Debug("MMVirt", "COW ent at %p (%p) from %P to %P", Ent, NextLevel, curpage, paddr);
+ #endif
+
+ MM_DerefPhys( curpage );
+ *Ent &= PF_USER;
+ *Ent |= paddr|PF_PRESENT|PF_WRITE;
+
+ bCopied = 1;
+ }
+ INVLPG( (tVAddr)NextLevel );
+
+ // Mark COW on contents if it's a PDPT, Dir or Table
+ if(bTable)
+ {
+ Uint64 *dp = NextLevel;
+ int i;
+ for( i = 0; i < 512; i ++ )
+ {
+ if( !(dp[i] & PF_PRESENT) )
+ continue;
+
+ if( bCopied )
+ MM_RefPhys( dp[i] & PADDR_MASK );
+ if( dp[i] & PF_WRITE ) {
+ dp[i] &= ~PF_WRITE;
+ dp[i] |= PF_COW;
+ }
+ }
+ }
+}
+
+/*
* \brief Called on a page fault
*/
-void MM_PageFault(tVAddr Addr, Uint ErrorCode, tRegs *Regs)
+int MM_PageFault(tVAddr Addr, Uint ErrorCode, tRegs *Regs)
{
+// Log_Debug("MMVirt", "Addr = %p, ErrorCode = %x", Addr, ErrorCode);
+
+ // Catch reserved bits first
+ if( ErrorCode & 0x8 )
+ {
+ Log_Warning("MMVirt", "Reserved bits trashed!");
+ Log_Warning("MMVirt", "PML4 Ent = %P", PAGEMAPLVL4(Addr>>39));
+ if( !(PAGEMAPLVL4(Addr>>39) & PF_PRESENT) ) goto print_done;
+ Log_Warning("MMVirt", "PDP Ent = %P", PAGEDIRPTR(Addr>>30));
+ if( !(PAGEDIRPTR(Addr>>30) & PF_PRESENT) ) goto print_done;
+ Log_Warning("MMVirt", "PDir Ent = %P", PAGEDIR(Addr>>21));
+ if( !(PAGEDIR(Addr>>21) & PF_PRESENT) ) goto print_done;
+ Log_Warning("MMVirt", "PTable Ent = %P", PAGETABLE(Addr>>12));
+ if( !(PAGETABLE(Addr>>12) & PF_PRESENT) ) goto print_done;
+ print_done:
+
+ for(;;);
+ }
+
// TODO: Implement Copy-on-Write
#if 1
- if( PAGEMAPLVL4(Addr>39) & PF_PRESENT
- && PAGEDIRPTR(Addr>>30) & PF_PRESENT
- && PAGEDIR(Addr>>21) & PF_PRESENT
- && PAGETABLE(Addr>>12) & PF_PRESENT
- && PAGETABLE(Addr>>12) & PF_COW )
+ if( PAGEMAPLVL4(Addr>>39) & PF_PRESENT
+ && PAGEDIRPTR (Addr>>30) & PF_PRESENT
+ && PAGEDIR (Addr>>21) & PF_PRESENT
+ && PAGETABLE (Addr>>12) & PF_PRESENT )
{
- tPAddr paddr;
- if(MM_GetRefCount( PAGETABLE(Addr>>12) & PADDR_MASK ) == 1)
+ // PML4 Entry
+ if( PAGEMAPLVL4(Addr>>39) & PF_COW )
{
- PAGETABLE(Addr>>12) &= ~PF_COW;
- PAGETABLE(Addr>>12) |= PF_PRESENT|PF_WRITE;
+ tPAddr *dp = &PAGEDIRPTR((Addr>>39)*512);
+ MM_int_ClonePageEnt( &PAGEMAPLVL4(Addr>>39), dp, Addr, 1 );
+// MM_DumpTables(Addr>>39 << 39, (((Addr>>39) + 1) << 39) - 1);
}
- else
+ // PDP Entry
+ if( PAGEDIRPTR(Addr>>30) & PF_COW )
{
- //Log("MM_PageFault: COW - MM_DuplicatePage(0x%x)", Addr);
- paddr = MM_AllocPhys();
- if( !paddr ) {
- Threads_SegFault(Addr);
- return ;
- }
- {
- void *tmp = (void*)MM_MapTemp(paddr);
- memcpy( tmp, (void*)(Addr & ~0xFFF), 0x1000 );
- MM_FreeTemp( (tVAddr)tmp );
- }
- MM_DerefPhys( PAGETABLE(Addr>>12) & PADDR_MASK );
- PAGETABLE(Addr>>12) &= PF_USER;
- PAGETABLE(Addr>>12) |= paddr|PF_PRESENT|PF_WRITE;
+ tPAddr *dp = &PAGEDIR( (Addr>>30)*512 );
+ MM_int_ClonePageEnt( &PAGEDIRPTR(Addr>>30), dp, Addr, 1 );
+// MM_DumpTables(Addr>>30 << 30, (((Addr>>30) + 1) << 30) - 1);
+ }
+ // PD Entry
+ if( PAGEDIR(Addr>>21) & PF_COW )
+ {
+ tPAddr *dp = &PAGETABLE( (Addr>>21)*512 );
+ MM_int_ClonePageEnt( &PAGEDIR(Addr>>21), dp, Addr, 1 );
+// MM_DumpTables(Addr>>21 << 21, (((Addr>>21) + 1) << 21) - 1);
+ }
+ // PT Entry
+ if( PAGETABLE(Addr>>12) & PF_COW )
+ {
+ MM_int_ClonePageEnt( &PAGETABLE(Addr>>12), (void*)(Addr & ~0xFFF), Addr, 0 );
+ INVLPG( Addr & ~0xFFF );
+ return 0;
}
-
- INVLPG( Addr & ~0xFFF );
- return;
}
#endif
Warning("User Pagefault: Instruction at %04x:%p accessed %p",
Regs->CS, Regs->RIP, Addr);
__asm__ __volatile__ ("sti"); // Restart IRQs
+ Error_Backtrace(Regs->RIP, Regs->RBP);
Threads_SegFault(Addr);
- return ;
+ return 0;
}
// Kernel #PF
);
}
- Log("Code at %p accessed %p", Regs->RIP, Addr);
+ Log("Thread %i - Code at %p accessed %p", Threads_GetTID(), Regs->RIP, Addr);
// Print Stack Backtrace
Error_Backtrace(Regs->RIP, Regs->RBP);
MM_DumpTables(0, -1);
-
- __asm__ __volatile__ ("cli");
- for( ;; )
- HALT();
+
+ return 1;
+}
+
+void MM_int_DumpTablesEnt(tVAddr RangeStart, size_t Length, tPAddr Expected)
+{
+ #define CANOICAL(addr) ((addr)&0x800000000000?(addr)|0xFFFF000000000000:(addr))
+ LogF("%016llx => ", CANOICAL(RangeStart));
+// LogF("%6llx %6llx %6llx %016llx => ",
+// MM_GetPhysAddr( (tVAddr)&PAGEDIRPTR(RangeStart>>30) ),
+// MM_GetPhysAddr( (tVAddr)&PAGEDIR(RangeStart>>21) ),
+// MM_GetPhysAddr( (tVAddr)&PAGETABLE(RangeStart>>12) ),
+// CANOICAL(RangeStart)
+// );
+ if( gMM_ZeroPage && (PAGETABLE(RangeStart>>12) & PADDR_MASK) == gMM_ZeroPage )
+ LogF("%13s", "zero" );
+ else
+ LogF("%13llx", PAGETABLE(RangeStart>>12) & PADDR_MASK );
+ LogF(" : 0x%6llx (%c%c%c%c%c%c)\r\n",
+ Length,
+ (Expected & PF_GLOBAL ? 'G' : '-'),
+ (Expected & PF_NX ? '-' : 'x'),
+ (Expected & PF_PAGED ? 'p' : '-'),
+ (Expected & PF_COW ? 'C' : '-'),
+ (Expected & PF_USER ? 'U' : '-'),
+ (Expected & PF_WRITE ? 'W' : '-')
+ );
+ #undef CANOICAL
}
/**
*/
void MM_DumpTables(tVAddr Start, tVAddr End)
{
- #define CANOICAL(addr) ((addr)&0x800000000000?(addr)|0xFFFF000000000000:(addr))
- const tPAddr CHANGEABLE_BITS = ~(PF_PRESENT|PF_WRITE|PF_USER|PF_COW|PF_PAGED) & 0xFFF;
+ const tPAddr FIXED_BITS = PF_PRESENT|PF_WRITE|PF_USER|PF_COW|PF_PAGED|PF_NX|PF_GLOBAL;
+ const tPAddr CHANGEABLE_BITS = ~FIXED_BITS & 0xFFF;
const tPAddr MASK = ~CHANGEABLE_BITS; // Physical address and access bits
tVAddr rangeStart = 0;
tPAddr expected = CHANGEABLE_BITS; // CHANGEABLE_BITS is used because it's not a vaild value
tVAddr curPos;
Uint page;
-
+ tPAddr expected_pml4 = PF_WRITE|PF_USER;
+ tPAddr expected_pdp = PF_WRITE|PF_USER;
+ tPAddr expected_pd = PF_WRITE|PF_USER;
+
Log("Table Entries: (%p to %p)", Start, End);
End &= (1L << 48) - 1;
page < End;
curPos += 0x1000, page++)
{
- if( curPos == 0x800000000000L )
- curPos = 0xFFFF800000000000L;
-
//Debug("&PAGEMAPLVL4(%i page>>27) = %p", page>>27, &PAGEMAPLVL4(page>>27));
//Debug("&PAGEDIRPTR(%i page>>18) = %p", page>>18, &PAGEDIRPTR(page>>18));
//Debug("&PAGEDIR(%i page>>9) = %p", page>>9, &PAGEDIR(page>>9));
// End of a range
if(!(PAGEMAPLVL4(page>>27) & PF_PRESENT)
+ || (PAGEMAPLVL4(page>>27) & FIXED_BITS) != expected_pml4
|| !(PAGEDIRPTR(page>>18) & PF_PRESENT)
+ || (PAGEDIRPTR(page>>18) & FIXED_BITS) != expected_pdp
|| !(PAGEDIR(page>>9) & PF_PRESENT)
+ || (PAGEDIR(page>>9) & FIXED_BITS) != expected_pd
|| !(PAGETABLE(page) & PF_PRESENT)
- || (PAGETABLE(page) & MASK) != expected)
+ || (PAGETABLE(page) & MASK) != expected)
{
if(expected != CHANGEABLE_BITS)
{
- Log("%016llx => %13llx : 0x%6llx (%c%c%c%c)",
- CANOICAL(rangeStart),
- PAGETABLE(rangeStart>>12) & PADDR_MASK,
- curPos - rangeStart,
- (expected & PF_PAGED ? 'p' : '-'),
- (expected & PF_COW ? 'C' : '-'),
- (expected & PF_USER ? 'U' : '-'),
- (expected & PF_WRITE ? 'W' : '-')
- );
+ // Merge
+ expected &= expected_pml4 | ~(PF_WRITE|PF_USER);
+ expected &= expected_pdp | ~(PF_WRITE|PF_USER);
+ expected &= expected_pd | ~(PF_WRITE|PF_USER);
+ expected |= expected_pml4 & PF_NX;
+ expected |= expected_pdp & PF_NX;
+ expected |= expected_pd & PF_NX;
+ Log("expected (pml4 = %x, pdp = %x, pd = %x)",
+ expected_pml4, expected_pdp, expected_pd);
+ // Dump
+ MM_int_DumpTablesEnt( rangeStart, curPos - rangeStart, expected );
expected = CHANGEABLE_BITS;
}
+
+ if( curPos == 0x800000000000L )
+ curPos = 0xFFFF800000000000L;
+
if( !(PAGEMAPLVL4(page>>27) & PF_PRESENT) ) {
page += (1 << 27) - 1;
curPos += (1L << 39) - 0x1000;
- //Debug("pml4 ent unset (page = 0x%x now)", page);
continue;
}
if( !(PAGEDIRPTR(page>>18) & PF_PRESENT) ) {
page += (1 << 18) - 1;
curPos += (1L << 30) - 0x1000;
- //Debug("pdp ent unset (page = 0x%x now)", page);
continue;
}
if( !(PAGEDIR(page>>9) & PF_PRESENT) ) {
page += (1 << 9) - 1;
curPos += (1L << 21) - 0x1000;
- //Debug("pd ent unset (page = 0x%x now)", page);
continue;
}
if( !(PAGETABLE(page) & PF_PRESENT) ) continue;
expected = (PAGETABLE(page) & MASK);
+ expected_pml4 = (PAGEMAPLVL4(page>>27) & FIXED_BITS);
+ expected_pdp = (PAGEDIRPTR (page>>18) & FIXED_BITS);
+ expected_pd = (PAGEDIR (page>> 9) & FIXED_BITS);
rangeStart = curPos;
}
- if(expected != CHANGEABLE_BITS)
+ if(gMM_ZeroPage && (expected & PADDR_MASK) == gMM_ZeroPage )
+ expected = expected;
+ else if(expected != CHANGEABLE_BITS)
expected += 0x1000;
}
if(expected != CHANGEABLE_BITS) {
- Log("%016llx => %13llx : 0x%6llx (%c%c%c%c)",
- CANOICAL(rangeStart),
- PAGETABLE(rangeStart>>12) & PADDR_MASK,
- curPos - rangeStart,
- (expected & PF_PAGED ? 'p' : '-'),
- (expected & PF_COW ? 'C' : '-'),
- (expected & PF_USER ? 'U' : '-'),
- (expected & PF_WRITE ? 'W' : '-')
- );
+ // Merge
+
+ // Dump
+ MM_int_DumpTablesEnt( rangeStart, curPos - rangeStart, expected );
expected = 0;
}
- #undef CANOICAL
}
/**
{
tPAddr *pmlevels[4];
tPAddr tmp;
- const int ADDR_SIZES[] = {39, 30, 21, 12};
- const int nADDR_SIZES = sizeof(ADDR_SIZES)/sizeof(ADDR_SIZES[0]);
- int i;
+ int i, size;
#define BITMASK(bits) ( (1LL << (bits))-1 )
// Mask address
Addr &= (1ULL << 48)-1;
- for( i = 0; i < nADDR_SIZES-1; i ++ )
+ for( size = 39, i = 0; size > 12; size -= 9, i ++ )
{
+ Uint64 *ent = &pmlevels[i][Addr >> size];
// INVLPG( &pmlevels[i][ (Addr >> ADDR_SIZES[i]) &
- // Check for a large page
- if( (Addr & ((1ULL << ADDR_SIZES[i])-1)) == 0 && bLargePage )
+ // Check for a free large page slot
+ // TODO: Better support with selectable levels
+ if( (Addr & ((1ULL << size)-1)) == 0 && bLargePage )
{
- if(Pointer) *Pointer = &pmlevels[i][Addr >> ADDR_SIZES[i]];
- return ADDR_SIZES[i];
+ if(Pointer) *Pointer = ent;
+ return size;
}
// Allocate an entry if required
- if( !(pmlevels[i][Addr >> ADDR_SIZES[i]] & 1) )
+ if( !(*ent & PF_PRESENT) )
{
if( !bAllocate ) return -4; // If allocation is not requested, error
if( !(tmp = MM_AllocPhys()) ) return -2;
- pmlevels[i][Addr >> ADDR_SIZES[i]] = tmp | 3;
+ *ent = tmp | 3;
if( Addr < 0x800000000000 )
- pmlevels[i][Addr >> ADDR_SIZES[i]] |= PF_USER;
- INVLPG( &pmlevels[i+1][ (Addr>>ADDR_SIZES[i])*512 ] );
- memset( &pmlevels[i+1][ (Addr>>ADDR_SIZES[i])*512 ], 0, 0x1000 );
- LOG("Init PML%i ent 0x%x %p with %P", 4 - i,
- Addr>>ADDR_SIZES[i],
- (Addr>>ADDR_SIZES[i])<<ADDR_SIZES[i], tmp);
+ *ent |= PF_USER;
+ INVLPG( &pmlevels[i+1][ (Addr>>size)*512 ] );
+ memset( &pmlevels[i+1][ (Addr>>size)*512 ], 0, 0x1000 );
+ LOG("Init PML%i ent 0x%x %p with %P (*ent = %P)", 4 - i,
+ Addr>>size, (Addr>>size) << size, tmp, *ent);
}
// Catch large pages
- else if( pmlevels[i][Addr >> ADDR_SIZES[i]] & PF_LARGE )
+ else if( *ent & PF_LARGE )
{
// Alignment
- if( (Addr & ((1ULL << ADDR_SIZES[i])-1)) != 0 ) return -3;
- if(Pointer) *Pointer = &pmlevels[i][Addr >> ADDR_SIZES[i]];
- return ADDR_SIZES[i]; // Large page warning
+ if( (Addr & ((1ULL << size)-1)) != 0 ) return -3;
+ if(Pointer) *Pointer = ent;
+ return size; // Large page warning
}
}
// And, set the page table entry
- if(Pointer) *Pointer = &pmlevels[i][Addr >> ADDR_SIZES[i]];
- return ADDR_SIZES[i];
+ if(Pointer) *Pointer = &pmlevels[i][Addr >> size];
+ return size;
}
/**
tPAddr *ent;
int rv;
- ENTER("xVAddr xPAddr", VAddr, PAddr);
+ ENTER("pVAddr PPAddr", VAddr, PAddr);
// Get page pointer (Allow allocating)
rv = MM_GetPageEntryPtr(VAddr, bTemp, 1, bLarge, &ent);
if( !(PAGEDIRPTR(VAddr >> 30) & 1) ) return ;
// Check Page Dir
if( !(PAGEDIR(VAddr >> 21) & 1) ) return ;
-
+
PAGETABLE(VAddr >> PTAB_SHIFT) = 0;
INVLPG( VAddr );
}
return ret;
}
+tPAddr MM_AllocateZero(tVAddr VAddr)
+{
+ tPAddr ret = gMM_ZeroPage;
+
+ MM_GetPageEntryPtr(VAddr, 0, 1, 0, NULL);
+
+ if(!gMM_ZeroPage) {
+ ret = gMM_ZeroPage = MM_AllocPhys();
+ MM_RefPhys(ret); // Don't free this please
+ MM_Map(VAddr, ret);
+ memset((void*)VAddr, 0, 0x1000);
+ }
+ else {
+ MM_Map(VAddr, ret);
+ }
+ MM_RefPhys(ret); // Refernce for this map
+ MM_SetFlags(VAddr, MM_PFLAG_COW, MM_PFLAG_COW);
+ return ret;
+}
+
/**
* \brief Deallocate a page at a virtual address
*/
if( Flags & MM_PFLAG_COW ) {
*ent &= ~PF_WRITE;
*ent |= PF_COW;
+ INVLPG_ALL();
}
else {
*ent &= ~PF_COW;
return ret;
}
+/**
+ * \brief Check if the provided buffer is valid
+ * \return Boolean valid
+ */
+int MM_IsValidBuffer(tVAddr Addr, size_t Size)
+{
+ int bIsUser;
+ Uint64 pml4, pdp, dir, tab;
+
+ Size += Addr & (PAGE_SIZE-1);
+ Addr &= ~(PAGE_SIZE-1);
+ Addr &= ((1UL << 48)-1); // Clap to address space
+
+ pml4 = Addr >> 39;
+ pdp = Addr >> 30;
+ dir = Addr >> 21;
+ tab = Addr >> 12;
+
+ if( !(PAGEMAPLVL4(pml4) & 1) ) return 0;
+ if( !(PAGEDIRPTR(pdp) & 1) ) return 0;
+ if( !(PAGEDIR(dir) & 1) ) return 0;
+ if( !(PAGETABLE(tab) & 1) ) return 0;
+
+ bIsUser = !!(PAGETABLE(tab) & PF_USER);
+
+ while( Size >= PAGE_SIZE )
+ {
+ if( (tab & 511) == 0 )
+ {
+ dir ++;
+ if( ((dir >> 9) & 511) == 0 )
+ {
+ pdp ++;
+ if( ((pdp >> 18) & 511) == 0 )
+ {
+ pml4 ++;
+ if( !(PAGEMAPLVL4(pml4) & 1) ) return 0;
+ }
+ if( !(PAGEDIRPTR(pdp) & 1) ) return 0;
+ }
+ if( !(PAGEDIR(dir) & 1) ) return 0;
+ }
+
+ if( !(PAGETABLE(tab) & 1) ) return 0;
+ if( bIsUser && !(PAGETABLE(tab) & PF_USER) ) return 0;
+
+ tab ++;
+ Size -= PAGE_SIZE;
+ }
+ return 1;
+}
+
// --- Hardware Mappings ---
/**
* \brief Map a range of hardware pages
}
if( num >= 0 ) continue;
+// Log_Debug("MMVirt", "Mapping %i pages to %p (base %P)", Number, ret-Number*0x1000, PAddr);
+
PAddr += 0x1000 * Number;
while( Number -- )
ret -= 0x1000;
PAddr -= 0x1000;
MM_Map(ret, PAddr);
+ MM_RefPhys(PAddr);
}
return ret;
}
- Log_KernelPanic("MM", "TODO: Implement MM_MapHWPages");
+ Log_Error("MM", "MM_MapHWPages - No space for %i pages", Number);
return 0;
}
// Log_KernelPanic("MM", "TODO: Implement MM_UnmapHWPages");
while( Number -- )
{
+ MM_DerefPhys( MM_GetPhysAddr(VAddr) );
MM_Unmap(VAddr);
VAddr += 0x1000;
}
phys = MM_AllocPhys();
*PhysAddr = phys;
ret = MM_MapHWPages(phys, 1);
- if(ret == 0) {
- MM_DerefPhys(phys);
- return 0;
- }
+ MM_DerefPhys(phys);
return ret;
}
// Allocated successfully, now map
ret = MM_MapHWPages(phys, Pages);
+ // MapHWPages references the pages, so deref them back down to 1
+ for(;Pages--;phys+=0x1000)
+ MM_DerefPhys(phys);
if( ret == 0 ) {
// If it didn't map, free then return 0
- for(;Pages--;phys+=0x1000)
- MM_DerefPhys(phys);
return 0;
}
continue ;
*ent = PAddr | 3;
+ MM_RefPhys(PAddr);
+ INVLPG(ret);
return ret;
}
return 0;
INVLPG_ALL();
// #3 Set Copy-On-Write to all user pages
- for( i = 0; i < 256; i ++)
+ if( Threads_GetPID() != 0 )
{
- TMPMAPLVL4(i) = PAGEMAPLVL4(i);
-// Log_Debug("MM", "TMPMAPLVL4(%i) = 0x%016llx", i, TMPMAPLVL4(i));
- if( TMPMAPLVL4(i) & 1 )
+ for( i = 0; i < 256; i ++)
{
+ if( PAGEMAPLVL4(i) & PF_WRITE ) {
+ PAGEMAPLVL4(i) |= PF_COW;
+ PAGEMAPLVL4(i) &= ~PF_WRITE;
+ }
+
+ TMPMAPLVL4(i) = PAGEMAPLVL4(i);
+// Log_Debug("MM", "TMPMAPLVL4(%i) = 0x%016llx", i, TMPMAPLVL4(i));
+ if( !(TMPMAPLVL4(i) & PF_PRESENT) ) continue ;
+
MM_RefPhys( TMPMAPLVL4(i) & PADDR_MASK );
- TMPMAPLVL4(i) |= PF_COW;
- TMPMAPLVL4(i) &= ~PF_WRITE;
+ }
+ }
+ else
+ {
+ for( i = 0; i < 256; i ++ )
+ {
+ TMPMAPLVL4(i) = 0;
}
}
{
// Skip addresses:
// 320 0xFFFFA.... - Kernel Stacks
- if( i == 320 ) continue;
+ if( i == MM_KSTACK_BASE>>39 ) continue;
// 509 0xFFFFFE0.. - Fractal mapping
- if( i == 508 ) continue;
+ if( i == MM_FRACTAL_BASE>>39 ) continue;
// 510 0xFFFFFE8.. - Temp fractal mapping
- if( i == 509 ) continue;
+ if( i == MM_TMPFRAC_BASE>>39 ) continue;
TMPMAPLVL4(i) = PAGEMAPLVL4(i);
if( TMPMAPLVL4(i) & 1 )
MM_RefPhys( TMPMAPLVL4(i) & PADDR_MASK );
}
+
+ // Mark Per-Process data as COW
+ TMPMAPLVL4(MM_PPD_BASE>>39) |= PF_COW;
+ TMPMAPLVL4(MM_PPD_BASE>>39) &= ~PF_WRITE;
// #5 Set fractal mapping
- TMPMAPLVL4(508) = ret | 3;
- TMPMAPLVL4(509) = 0; // Temp
+ TMPMAPLVL4(MM_FRACTAL_BASE>>39) = ret | 3; // Main
+ TMPMAPLVL4(MM_TMPFRAC_BASE>>39) = 0; // Temp
// #6 Create kernel stack
// tThread->KernelStack is the top
// There is 1 guard page below the stack
kstackbase = Proc_GetCurThread()->KernelStack - KERNEL_STACK_SIZE;
-// Log("MM_Clone: kstackbase = %p", kstackbase);
-
+ // Clone stack
TMPMAPLVL4(MM_KSTACK_BASE >> PML4_SHIFT) = 0;
for( i = 1; i < KERNEL_STACK_SIZE/0x1000; i ++ )
{
tVAddr tmpmapping;
MM_MapEx(kstackbase+i*0x1000, phys, 1, 0);
- Log_Debug("MM", "MM_Clone: Cloning stack page %p from %P to %P",
- kstackbase+i*0x1000, MM_GetPhysAddr( kstackbase+i*0x1000 ), phys
- );
tmpmapping = MM_MapTemp(phys);
if( MM_GetPhysAddr( kstackbase+i*0x1000 ) )
memcpy((void*)tmpmapping, (void*)(kstackbase+i*0x1000), 0x1000);
return ret;
}
-void MM_ClearUser(void)
+void MM_int_ClearTableLevel(tVAddr VAddr, int LevelBits, int MaxEnts)
{
- tVAddr addr = 0;
- int pml4, pdpt, pd, pt;
-
- for( pml4 = 0; pml4 < 256; pml4 ++ )
+ Uint64 * const table_bases[] = {&PAGETABLE(0), &PAGEDIR(0), &PAGEDIRPTR(0), &PAGEMAPLVL4(0)};
+ Uint64 *table = table_bases[(LevelBits-12)/9] + (VAddr >> LevelBits);
+ int i;
+// Log("MM_int_ClearTableLevel: (VAddr=%p, LevelBits=%i, MaxEnts=%i)", VAddr, LevelBits, MaxEnts);
+ for( i = 0; i < MaxEnts; i ++ )
{
- // Catch an un-allocated PML4 entry
- if( !(PAGEMAPLVL4(pml4) & 1) ) {
- addr += 1ULL << PML4_SHIFT;
+ // Skip non-present tables
+ if( !(table[i] & PF_PRESENT) ) {
+ table[i] = 0;
continue ;
}
-
- // Catch a large COW
- if( (PAGEMAPLVL4(pml4) & PF_COW) ) {
- addr += 1ULL << PML4_SHIFT;
- }
- else
- {
- // TODO: Large pages
-
- // Child entries
- for( pdpt = 0; pdpt < 512; pdpt ++ )
- {
- // Unallocated
- if( !(PAGEDIRPTR(addr >> PDP_SHIFT) & 1) ) {
- addr += 1ULL << PDP_SHIFT;
- continue;
- }
-
- // Catch a large COW
- if( (PAGEDIRPTR(addr >> PDP_SHIFT) & PF_COW) ) {
- addr += 1ULL << PDP_SHIFT;
- }
- else {
- // Child entries
- for( pd = 0; pd < 512; pd ++ )
- {
- // Unallocated PDir entry
- if( !(PAGEDIR(addr >> PDIR_SHIFT) & 1) ) {
- addr += 1ULL << PDIR_SHIFT;
- continue;
- }
-
- // COW Page Table
- if( PAGEDIR(addr >> PDIR_SHIFT) & PF_COW ) {
- addr += 1ULL << PDIR_SHIFT;
- }
- else
- {
- // TODO: Catch large pages
-
- // Child entries
- for( pt = 0; pt < 512; pt ++ )
- {
- // Free page
- if( PAGETABLE(addr >> PTAB_SHIFT) & 1 ) {
- MM_DerefPhys( PAGETABLE(addr >> PTAB_SHIFT) & PADDR_MASK );
- PAGETABLE(addr >> PTAB_SHIFT) = 0;
- }
- addr += 1ULL << 12;
- }
- }
- // Free page table
- MM_DerefPhys( PAGEDIR(addr >> PDIR_SHIFT) & PADDR_MASK );
- PAGEDIR(addr >> PDIR_SHIFT) = 0;
- }
- }
- // Free page directory
- MM_DerefPhys( PAGEDIRPTR(addr >> PDP_SHIFT) & PADDR_MASK );
- PAGEDIRPTR(addr >> PDP_SHIFT) = 0;
- }
+
+ if( (table[i] & PF_COW) && MM_GetRefCount(table[i] & PADDR_MASK) > 1 ) {
+ MM_DerefPhys(table[i] & PADDR_MASK);
+ table[i] = 0;
+ continue ;
}
- // Free page directory pointer table (PML4 entry)
- MM_DerefPhys( PAGEMAPLVL4(pml4) & PADDR_MASK );
- PAGEMAPLVL4(pml4) = 0;
+ // Clear table contents (if it is a table)
+ if( LevelBits > 12 )
+ MM_int_ClearTableLevel(VAddr + ((tVAddr)i << LevelBits), LevelBits-9, 512);
+ MM_DerefPhys(table[i] & PADDR_MASK);
+ table[i] = 0;
}
}
+void MM_ClearUser(void)
+{
+ MM_int_ClearTableLevel(0, 39, 256);
+}
+
tVAddr MM_NewWorkerStack(void *StackData, size_t StackSize)
{
tVAddr ret;
+ tPAddr phys;
int i;
// #1 Set temp fractal to PID0
Mutex_Acquire(&glMM_TempFractalLock);
TMPCR3() = ((tPAddr)gInitialPML4 - KERNEL_BASE) | 3;
+ INVLPG_ALL();
// #2 Scan for a free stack addresss < 2^47
for(ret = 0x100000; ret < (1ULL << 47); ret += KERNEL_STACK_SIZE)
{
tPAddr *ptr;
- if( MM_GetPageEntryPtr(ret, 1, 0, 0, &ptr) == 0 ) break;
+ if( MM_GetPageEntryPtr(ret, 1, 0, 0, &ptr) <= 0 ) break;
if( !(*ptr & 1) ) break;
}
if( ret >= (1ULL << 47) ) {
}
// #3 Map all save the last page in the range
- // - This acts as as guard page, and doesn't cost us anything.
+ // - This acts as as guard page
+ MM_GetPageEntryPtr(ret, 1, 1, 0, NULL); // Make sure tree is allocated
for( i = 0; i < KERNEL_STACK_SIZE/0x1000 - 1; i ++ )
{
- tPAddr phys = MM_AllocPhys();
+ phys = MM_AllocPhys();
if(!phys) {
// TODO: Clean up
Log_Error("MM", "MM_NewWorkerStack - Unable to allocate page");
return 0;
}
MM_MapEx(ret + i*0x1000, phys, 1, 0);
+ MM_SetFlags(ret + i*0x1000, MM_PFLAG_KERNEL|MM_PFLAG_RO, MM_PFLAG_KERNEL);
}
+ // Copy data
if( StackSize > 0x1000 ) {
Log_Error("MM", "MM_NewWorkerStack: StackSize(0x%x) > 0x1000, cbf handling", StackSize);
}
else {
- tPAddr *ptr, paddr;
- tVAddr tmp_addr;
- MM_GetPageEntryPtr(ret + i*0x1000, 1, 0, 0, &ptr);
- paddr = *ptr & ~0xFFF;
- tmp_addr = MM_MapTemp(paddr);
- memcpy( (void*)(tmp_addr + (0x1000 - StackSize)), StackData, StackSize );
+ tVAddr tmp_addr, dest;
+ tmp_addr = MM_MapTemp(phys);
+ dest = tmp_addr + (0x1000 - StackSize);
+ memcpy( (void*)dest, StackData, StackSize );
+ Log_Debug("MM", "MM_NewWorkerStack: %p->%p %i bytes (i=%i)", StackData, dest, StackSize, i);
+ Log_Debug("MM", "MM_NewWorkerStack: ret = %p", ret);
MM_FreeTemp(tmp_addr);
}
-
+
+ TMPCR3() = 0;
Mutex_Release(&glMM_TempFractalLock);
return ret + i*0x1000;