*/
#include <stddef.h>
+#include <stdbool.h>
#include <arch.h>
+#ifndef HALT_CPU
+# define HALT_CPU() for(;;);
+#endif
+
//! Pack a structure
#define PACKED __attribute__((packed))
//! Mark a function as not returning
#define DEPRECATED __attribute__((deprecated))
//! Mark a parameter as unused
#define UNUSED(x) UNUSED_##x __attribute__((unused))
+//! Apply alignment to a variable
+#define ALIGN(x) __attribute__((aligned(x)))
/**
* \name Boolean constants
typedef Sint64 tTimestamp; //!< Timestamp (miliseconds since 00:00 1 Jan 1970)
typedef Sint64 tTime; //!< Same again
typedef struct sShortSpinlock tShortSpinlock; //!< Opaque (kinda) spinlock
-typedef int bool; //!< Boolean type
typedef Uint64 off_t; //!< VFS Offset
+typedef struct { char _[PAGE_SIZE];} tPage; // Representation of a page for pointer arithmatic
// --- Helper Macros ---
/**
* \{
* \todo Move to mm_virt.h
*/
-#define MM_PFLAG_RO 0x01 // Writes disallowed
-#define MM_PFLAG_EXEC 0x02 // Allow execution
-#define MM_PFLAG_NOPAGE 0x04 // Prevent from being paged out
-#define MM_PFLAG_COW 0x08 // Copy-On-Write
-#define MM_PFLAG_KERNEL 0x10 // Kernel-Only (Ring0)
+#define MM_PFLAG_RO 0x01 //!< Writes disallowed
+#define MM_PFLAG_EXEC 0x02 //!< Allow execution
+#define MM_PFLAG_NOPAGE 0x04 //!< Prevent from being paged out
+#define MM_PFLAG_COW 0x08 //!< Copy-On-Write
+#define MM_PFLAG_KERNEL 0x10 //!< Kernel-Only (Ring0)
/**
* \}
*/
* \name IRQ hander registration
* \{
*/
+//! Register a callback for when an IRQ is raised
extern int IRQ_AddHandler(int Num, void (*Callback)(int, void*), void *Ptr);
+//! Remove a previously registered IRQ handler
extern void IRQ_RemHandler(int Handle);
/**
* \}
// --- IO ---
#if NO_IO_BUS
-#define inb(a) (Log_Panic("Arch", STR(ARCHDIR)" does not support in*/out* (%s:%i)", __FILE__, __LINE__),0)
+#define inb(a) (Log_Panic("Arch", STR(ARCHDIR)" does not support in* (%s:%i)", __FILE__, __LINE__),0)
#define inw(a) inb(a)
#define ind(a) inb(a)
#define inq(a) inb(a)
-#define outb(a,b) inb(a)
-#define outw(a,b) inb(a)
-#define outd(a,b) inb(a)
-#define outq(a,b) inb(a)
+#define outb(a,b) (Log_Panic("Arch", STR(ARCHDIR)" does not support out* (%s:%i)", __FILE__, __LINE__),(void)(b))
+#define outw(a,b) outb(a,b)
+#define outd(a,b) outb(a,b)
+#define outq(a,b) outb(a,b)
#else
/**
* \name I/O Memory Access
* \param VAddr Virtual Address to allocate at
* \return Physical address allocated
*/
-extern tPAddr MM_Allocate(tVAddr VAddr) __attribute__ ((warn_unused_result));
+extern tPAddr MM_Allocate(volatile void *VAddr) __attribute__ ((warn_unused_result));
+/**
+ * \breif Allocate a zeroed COW page to \a VAddr
+ * \param VAddr Virtual address to allocate at
+ * \return Physical address allocated (don't cache)
+ */
+extern void MM_AllocateZero(volatile void *VAddr);
/**
* \brief Deallocate a page
* \param VAddr Virtual address to unmap
*/
-extern void MM_Deallocate(tVAddr VAddr);
+extern void MM_Deallocate(volatile void *VAddr);
/**
* \brief Map a physical page at \a PAddr to \a VAddr
* \param VAddr Target virtual address
* \param PAddr Physical address to map
* \return Boolean Success
*/
-extern int MM_Map(tVAddr VAddr, tPAddr PAddr);
+extern int MM_Map(volatile void * VAddr, tPAddr PAddr);
/**
* \brief Get the physical address of \a Addr
* \param Addr Address of the page to get the physical address of
* \return Physical page mapped at \a Addr
*/
-extern tPAddr MM_GetPhysAddr(const void *Addr);
+extern tPAddr MM_GetPhysAddr(volatile const void *Addr);
/**
* \brief Set the access flags on a page
* \param VAddr Virtual address of the page
* \param Flags New flags value
* \param Mask Flags to set
*/
-extern void MM_SetFlags(tVAddr VAddr, Uint Flags, Uint Mask);
+extern void MM_SetFlags(volatile void *VAddr, Uint Flags, Uint Mask);
/**
* \brief Get the flags on a flag
* \param VAddr Virtual address of page
* \return Flags value of the page
*/
-extern Uint MM_GetFlags(tVAddr VAddr);
+extern Uint MM_GetFlags(volatile const void *VAddr);
/**
* \brief Checks is a memory range is user accessable
* \param VAddr Base address to check
* \return 1 if the memory is all user-accessable, 0 otherwise
*/
-#define MM_IsUser(VAddr) (!(MM_GetFlags((VAddr))&MM_PFLAG_KERNEL))
+#define MM_IsUser(VAddr) (!(MM_GetFlags((const void*)(VAddr))&MM_PFLAG_KERNEL))
/**
* \brief Temporarily map a page into the address space
* \param PAddr Physical addres to map
* \note There is only a limited ammount of slots avaliable
*/
extern void *MM_MapTemp(tPAddr PAddr);
+/**
+ * \brief Peform a temporary map of a page from another process
+ * \param Process Source process
+ * \param Address Source virtual address
+ * \return Virtual address of page in memory
+ * \note Limited slots
+ */
+struct sProcess;
+extern void *MM_MapTempFromProc(struct sProcess *Process, const void *Address);
/**
* \brief Free a temporarily mapped page
- * \param VAddr Allocate virtual addres of page
+ * \param Ptr Pointer to page base
*/
extern void MM_FreeTemp(void *Ptr);
/**
* \param PAddr Physical address to map in
* \param Number Number of pages to map
*/
-extern tVAddr MM_MapHWPages(tPAddr PAddr, Uint Number);
+extern void *MM_MapHWPages(tPAddr PAddr, Uint Number);
/**
* \brief Allocates DMA physical memory
* \param Pages Number of pages required
* \param PhysAddr Pointer to the location to place the physical address allocated
* \return Virtual address allocate
*/
-extern tVAddr MM_AllocDMA(int Pages, int MaxBits, tPAddr *PhysAddr);
+extern void *MM_AllocDMA(int Pages, int MaxBits, tPAddr *PhysAddr);
/**
* \brief Unmaps an allocated hardware range
* \param VAddr Virtual address allocate by ::MM_MapHWPages or ::MM_AllocDMA
* \param Number Number of pages to free
*/
-extern void MM_UnmapHWPages(tVAddr VAddr, Uint Number);
+extern void MM_UnmapHWPages(volatile void *VAddr, Uint Number);
/**
* \brief Allocate a single physical page
* \return Physical address allocated
*/
// --- Strings ---
-/**
- * \name Strings
- * \{
- */
-extern int vsnprintf(char *__s, size_t __maxlen, const char *__format, va_list args);
-extern int snprintf(char *__s, size_t __n, const char *__format, ...);
-extern int sprintf(char *__s, const char *__format, ...);
-extern size_t strlen(const char *Str);
-extern char *strcpy(char *__dest, const char *__src);
-extern char *strncpy(char *__dest, const char *__src, size_t max);
-extern char *strcat(char *__dest, const char *__src);
-extern char *strncat(char *__dest, const char *__src, size_t n);
-extern int strcmp(const char *__str1, const char *__str2);
-extern int strncmp(const char *Str1, const char *Str2, size_t num);
-extern int strucmp(const char *Str1, const char *Str2);
-// strdup macro is defined in heap.h
-extern char *_strdup(const char *File, int Line, const char *Str);
-extern char **str_split(const char *__str, char __ch);
-extern char *strchr(const char *__s, int __c);
-extern char *strrchr(const char *__s, int __c);
-extern int strpos(const char *Str, char Ch);
-extern int strpos8(const char *str, Uint32 search);
-extern void itoa(char *buf, Uint64 num, int base, int minLength, char pad);
-extern int atoi(const char *string);
-extern int ParseInt(const char *string, int *Val);
-extern int ReadUTF8(const Uint8 *str, Uint32 *Val);
-extern int WriteUTF8(Uint8 *str, Uint32 Val);
-extern int ModUtil_SetIdent(char *Dest, const char *Value);
-extern int ModUtil_LookupString(const char **Array, const char *Needle);
-
-extern Uint8 ByteSum(const void *Ptr, int Size);
-extern int Hex(char *Dest, size_t Size, const Uint8 *SourceData);
-extern int UnHex(Uint8 *Dest, size_t DestSize, const char *SourceString);
-/**
- * \}
- */
+#include <acess_string.h>
#include <ctype.h>