/*
* AcessOS Microkernel Version
- * common.h
+ * acess.h
+ */
+#ifndef _ACESS_H
+#define _ACESS_H
+/**
+ * \file acess.h
+ * \brief Acess2 Kernel API Core
*/
-#ifndef _COMMON_H
-#define _COMMON_H
+//! NULL Pointer
#define NULL ((void*)0)
-#define PACKED __attribute__ ((packed))
+//! Pack a structure
+#define PACKED __attribute__((packed))
+//! Mark a function as not returning
+#define NORETURN __attribute__((noreturn))
+//! Mark a parameter as unused
+#define UNUSED(x) UNUSED_##x __attribute__((unused))
+//! Get the offset of a member in a structure
+#define offsetof(st, m) ((Uint)((char *)&((st *)(0))->m - (char *)0 ))
+
+/**
+ * \name Boolean constants
+ * \{
+ */
+#define TRUE 1
+#define FALSE 0
+/**
+ * \}
+ */
#include <arch.h>
#include <stdarg.h>
+#include "errno.h"
+
+// --- Types ---
+typedef int tPID; //!< Process ID type
+typedef int tTID; //!< Thread ID Type
+typedef Uint tUID; //!< User ID Type
+typedef Uint tGID; //!< Group ID Type
+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
// --- Helper Macros ---
/**
#define EXPAND_CONCAT(x,y) CONCAT(x,y)
#define STR(x) #x
#define EXPAND_STR(x) STR(x)
+
+extern char __buildnum[];
+#define BUILD_NUM ((int)(Uint)&__buildnum)
+extern const char gsGitHash[];
+
+#define VER2(major,minor) ((((major)&0xFF)<<8)|((minor)&0xFF))
/**
* \}
*/
/**
- * \name Per-Process Configuration Settings
+ * \name Per-Thread Configuration Settings
* \{
*/
enum eConfigTypes {
CFG_VFS_CWD,
CFG_VFS_MAXFILES,
CFG_VFS_CHROOT,
+ CFG_ERRNO,
NUM_CFG_ENTRIES
};
#define CFGINT(id) (*Threads_GetCfgPtr(id))
#define CFGPTR(id) (*(void**)Threads_GetCfgPtr(id))
+
+#define errno (CFGINT(CFG_ERRNO))
/**
* \}
*/
* \}
*/
// --- Interface Flags & Macros
+/**
+ * \name Flags for Proc_Clone
+ * \{
+ */
+//! Clone the entire process
#define CLONE_VM 0x10
+/**
+ * \}
+ */
// === Types ===
+/**
+ * \brief Thread root function
+ *
+ * Function pointer prototype of a thread entrypoint. When it
+ * returns, Threads_Exit is called
+ */
typedef void (*tThreadFunction)(void*);
// === Kernel Export Macros ===
/**
- * \name Kernel Function
+ * \name Kernel exports
* \{
*/
+//! Kernel symbol definition
typedef struct sKernelSymbol {
- char *Name;
- Uint Value;
+ const char *Name; //!< Symbolic name
+ tVAddr Value; //!< Value of the symbol
} tKernelSymbol;
-#define EXPORT(_name) tKernelSymbol _kexp_##_name __attribute__((section ("KEXPORT"),unused))={#_name, (Uint)_name}
-#define EXPORTV(_name) tKernelSymbol _kexp_##_name __attribute__((section ("KEXPORT"),unused))={#_name, (Uint)&_name}
-#define EXPORTAS(_sym,_name) tKernelSymbol _kexp_##_name __attribute__((section ("KEXPORT"),unused))={#_name, (Uint)_sym}
+//! Export a pointer symbol (function/array)
+#define EXPORT(_name) tKernelSymbol _kexp_##_name __attribute__((section ("KEXPORT"),unused))={#_name, (tVAddr)_name}
+//! Export a variable
+#define EXPORTV(_name) tKernelSymbol _kexp_##_name __attribute__((section ("KEXPORT"),unused))={#_name, (tVAddr)&_name}
+//! Export a symbol under another name
+#define EXPORTAS(_sym,_name) tKernelSymbol _kexp_##_name __attribute__((section ("KEXPORT"),unused))={#_name, (tVAddr)_sym}
/**
* \}
*/
// === FUNCTIONS ===
-// --- Core ---
-extern void System_Init(char *ArgString);
-
// --- IRQs ---
-extern int IRQ_AddHandler(int Num, void (*Callback)(int));
+/**
+ * \name IRQ hander registration
+ * \{
+ */
+extern int IRQ_AddHandler(int Num, void (*Callback)(int, void*), void *Ptr);
+extern void IRQ_RemHandler(int Handle);
+/**
+ * \}
+ */
+
+// --- Logging ---
+/**
+ * \name Logging to kernel ring buffer
+ * \{
+ */
+extern void Log_KernelPanic(const char *Ident, const char *Message, ...);
+extern void Log_Panic(const char *Ident, const char *Message, ...);
+extern void Log_Error(const char *Ident, const char *Message, ...);
+extern void Log_Warning(const char *Ident, const char *Message, ...);
+extern void Log_Notice(const char *Ident, const char *Message, ...);
+extern void Log_Log(const char *Ident, const char *Message, ...);
+extern void Log_Debug(const char *Ident, const char *Message, ...);
+/**
+ * \}
+ */
// --- Debug ---
/**
* \name Debugging and Errors
* \{
*/
-extern void Panic(char *Msg, ...);
-extern void Warning(char *Msg, ...);
-extern void Log(char *Fmt, ...);
-extern void LogV(char *Fmt, va_list Args);
-extern void LogF(char *Fmt, ...);
-extern void Debug_Enter(char *FuncName, char *ArgTypes, ...);
-extern void Debug_Log(char *FuncName, char *Fmt, ...);
-extern void Debug_Leave(char *FuncName, char RetType, ...);
-extern void Debug_HexDump(char *Header, void *Data, Uint Length);
+extern void Debug_KernelPanic(void); //!< Initiate a kernel panic
+extern void Panic(const char *Msg, ...); //!< Print a panic message (initiates a kernel panic)
+extern void Warning(const char *Msg, ...); //!< Print a warning message
+extern void LogF(const char *Fmt, ...); //!< Print a log message without a trailing newline
+extern void Log(const char *Fmt, ...); //!< Print a log message
+extern void Debug(const char *Fmt, ...); //!< Print a debug message (doesn't go to KTerm)
+extern void LogV(const char *Fmt, va_list Args); //!< va_list Log message
+extern void Debug_Enter(const char *FuncName, const char *ArgTypes, ...);
+extern void Debug_Log(const char *FuncName, const char *Fmt, ...);
+extern void Debug_Leave(const char *FuncName, char RetType, ...);
+extern void Debug_HexDump(const char *Header, const void *Data, Uint Length);
#define UNIMPLEMENTED() Warning("'%s' unimplemented", __func__)
#if DEBUG
# define ENTER(_types...) Debug_Enter((char*)__func__, _types)
*/
// --- IO ---
+#if NO_IO_BUS
+#define inb(a) (Log_Panic("Arch", "ARMv7 does not support in*/out* (%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)
+#else
/**
* \name I/O Memory Access
* \{
/**
* \}
*/
-
+#endif
// --- Memory Management ---
/**
* \name Memory Management
* \param VAddr Virtual Address to allocate at
* \return Physical address allocated
*/
-extern tPAddr MM_Allocate(tVAddr VAddr);
+extern tPAddr MM_Allocate(tVAddr VAddr) __attribute__ ((warn_unused_result));
/**
* \brief Deallocate a page
* \param VAddr Virtual address to unmap
*/
extern int MM_Map(tVAddr VAddr, tPAddr PAddr);
/**
- * \brief Get the physical address of \a VAddr
- * \param VAddr Address of the page to get the physical address of
- * \return Physical page mapped at \a VAddr
+ * \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(tVAddr 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
- */
-extern int MM_IsUser(tVAddr VAddr);
+extern tPAddr MM_GetPhysAddr(tVAddr Addr);
/**
* \brief Set the access flags on a page
* \param VAddr Virtual address of the page
* \param Mask Flags to set
*/
extern void MM_SetFlags(tVAddr 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);
+/**
+ * \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))
/**
* \brief Temporarily map a page into the address space
* \param PAddr Physical addres to map
* \param PAddr Physical address to map in
* \param Number Number of pages to map
*/
-extern tVAddr MM_MapHWPage(tPAddr PAddr, Uint Number);
+extern tVAddr MM_MapHWPages(tPAddr PAddr, Uint Number);
/**
* \brief Allocates DMA physical memory
* \param Pages Number of pages required
extern tVAddr MM_AllocDMA(int Pages, int MaxBits, tPAddr *PhysAddr);
/**
* \brief Unmaps an allocated hardware range
- * \param VAddr Virtual address allocate by ::MM_MapHWPage or ::MM_AllocDMA
+ * \param VAddr Virtual address allocate by ::MM_MapHWPages or ::MM_AllocDMA
* \param Number Number of pages to free
*/
-extern void MM_UnmapHWPage(tVAddr VAddr, Uint Number);
+extern void MM_UnmapHWPages(tVAddr VAddr, Uint Number);
/**
* \brief Allocate a single physical page
* \return Physical address allocated
*/
-extern tPAddr MM_AllocPhys();
+extern tPAddr MM_AllocPhys(void);
/**
* \brief Allocate a contiguous range of physical pages
* \param Pages Number of pages to allocate
+ * \param MaxBits Maximum number of address bits allowed
* \return First physical address allocated
*/
extern tPAddr MM_AllocPhysRange(int Pages, int MaxBits);
* \param PAddr Page to dereference
*/
extern void MM_DerefPhys(tPAddr PAddr);
+/**
+ * \brief Get the number of times a page has been referenced
+ * \param PAddr Address to check
+ * \return Reference count for the page
+ */
+extern int MM_GetRefCount(tPAddr PAddr);
+/**
+ * \brief Set the node associated with a page
+ * \param PAddr Physical address of page
+ * \param Node Node pointer (tVFS_Node)
+ * \return Boolean failure
+ * \retval 0 Success
+ * \retval 1 Page not allocated
+ */
+extern int MM_SetPageNode(tPAddr PAddr, void *Node);
+/**
+ * \brief Get the node associated with a page
+ * \param PAddr Physical address of page
+ * \param Node Node pointer (tVFS_Node) destination
+ * \return Boolean failure
+ * \retval 0 Success
+ * \retval 1 Page not allocated
+ */
+extern int MM_GetPageNode(tPAddr PAddr, void **Node);
/**
* \}
*/
* \name Memory Manipulation
* \{
*/
-extern int memcmp(const void *m1, const void *m2, Uint count);
-extern void *memcpy(void *dest, const void *src, Uint count);
-extern void *memcpyd(void *dest, const void *src, Uint count);
-extern void *memset(void *dest, int val, Uint count);
-extern void *memsetd(void *dest, Uint val, Uint count);
+extern int memcmp(const void *m1, const void *m2, size_t count);
+extern void *memcpy(void *dest, const void *src, size_t count);
+extern void *memcpyd(void *dest, const void *src, size_t count);
+extern void *memmove(void *dest, const void *src, size_t len);
+extern void *memset(void *dest, int val, size_t count);
+extern void *memsetd(void *dest, Uint32 val, size_t count);
/**
* \}
*/
* \name Memory Validation
* \{
*/
-extern int CheckString(char *String);
-extern int CheckMem(void *Mem, int Num);
+extern int CheckString(const char *String);
+extern int CheckMem(const void *Mem, int Num);
/**
* \}
*/
* \name Endianness Swapping
* \{
*/
-extern Uint16 LittleEndian16(Uint16 Val);
-extern Uint16 BigEndian16(Uint16 Val);
-extern Uint32 LittleEndian32(Uint32 Val);
-extern Uint32 BigEndian32(Uint32 Val);
+#ifdef __BIG_ENDIAN__
+#define LittleEndian16(_val) SwapEndian16(_val)
+#define LittleEndian32(_val) SwapEndian32(_val)
+#define BigEndian16(_val) (_val)
+#define BigEndian32(_val) (_val)
+#else
+#define LittleEndian16(_val) (_val)
+#define LittleEndian32(_val) (_val)
+#define BigEndian16(_val) SwapEndian16(_val)
+#define BigEndian32(_val) SwapEndian32(_val)
+#endif
+extern Uint16 SwapEndian16(Uint16 Val);
+extern Uint32 SwapEndian32(Uint32 Val);
/**
* \}
*/
* \name Strings
* \{
*/
-extern Uint strlen(const char *Str);
+extern int vsnprintf(char *__s, size_t __maxlen, const char *__format, va_list args);
+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);
-extern char *strdup(const char *Str);
+// 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 int strpos(const char *Str, char Ch);
extern int strpos8(const char *str, Uint32 search);
-extern void itoa(char *buf, Uint num, int base, int minLength, char pad);
-extern int ReadUTF8(Uint8 *str, Uint32 *Val);
+extern void itoa(char *buf, Uint64 num, int base, int minLength, char pad);
+extern int atoi(const char *string);
+extern int ReadUTF8(const Uint8 *str, Uint32 *Val);
extern int WriteUTF8(Uint8 *str, Uint32 Val);
-extern int LookupString(char **Array, char *Needle);
-extern Uint8 ByteSum(void *Ptr, int Size);
+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 UnHex(Uint8 *Dest, size_t DestSize, const char *SourceString);
/**
* \}
*/
-extern Uint rand();
-
-// --- Heap ---
/**
- * \name Heap
- * \{
+ * \brief Get a random number
+ * \return Random number
+ * \note Current implementation is a linear congruency
*/
-extern void *malloc(size_t size);
-extern void *calloc(size_t num, size_t size);
-extern void *realloc(void *ptr, size_t size);
-extern void free(void *Ptr);
-extern int IsHeap(void *Ptr);
+extern int rand(void);
/**
- * \}
+ * \brief Call a function with a variable number of arguments
+ * \param Function Function address
+ * \param NArgs Number of entries in \a Args
+ * \param Args Array of arguments
+ * \return Integer from called Function
*/
+extern int CallWithArgArray(void *Function, int NArgs, Uint *Args);
+
+// --- Heap ---
+#include <heap.h>
// --- Modules ---
/**
* \name Modules
* \{
*/
-extern int Module_LoadMem(void *Buffer, Uint Length, char *ArgStr);
-extern int Module_LoadFile(char *Path, char *ArgStr);
+extern int Module_LoadMem(void *Buffer, Uint Length, const char *ArgStr);
+extern int Module_LoadFile(const char *Path, const char *ArgStr);
/**
* \}
*/
* \brief Create a timestamp from a time
*/
extern Sint64 timestamp(int sec, int mins, int hrs, int day, int month, int year);
-extern Sint64 now();
-extern int Time_CreateTimer(int Delta, void *Callback, void *Argument);
+/**
+ * \brief Gets the current timestamp (miliseconds since Midnight 1st January 1970)
+ */
+extern Sint64 now(void);
+/**
+ * \brief Timer callback function
+ */
+typedef void (tTimerCallback)(void *);
+/**
+ * \brief Creates a one-shot timer
+ * \param Delta Period of the timer
+ * \param Callback Function to call each time
+ * \param Argument Argument to pass to the callback
+ */
+extern int Time_CreateTimer(int Delta, tTimerCallback *Callback, void *Argument);
+/**
+ * \brief Removed an active timer
+ */
extern void Time_RemoveTimer(int ID);
+/**
+ * \brief Wait for a period of milliseconds
+ */
extern void Time_Delay(int Delay);
/**
* \}
* \name Threads and Processes
* \{
*/
-extern int Proc_SpawnWorker();
-extern int Proc_Spawn(char *Path);
-extern void Threads_Exit();
-extern void Threads_Yield();
-extern void Threads_Sleep();
-extern int Threads_GetUID();
-extern int Threads_GetGID();
+extern int Proc_SpawnWorker(void (*Fcn)(void*), void *Data);
+extern int Proc_Spawn(const char *Path);
+extern void Threads_Exit(int TID, int Status);
+extern void Threads_Yield(void);
+extern void Threads_Sleep(void);
+extern int Threads_WakeTID(tTID Thread);
+extern tPID Threads_GetPID(void);
+extern tTID Threads_GetTID(void);
+extern tUID Threads_GetUID(void);
+extern tGID Threads_GetGID(void);
extern int SpawnTask(tThreadFunction Function, void *Arg);
extern Uint *Threads_GetCfgPtr(int Id);
+extern int Threads_SetName(const char *NewName);
/**
* \}
*/
// --- Simple Math ---
+//! Divide and round up
extern int DivUp(int num, int dem);
+//! Divide and Modulo 64-bit unsigned integer
+extern Uint64 DivMod64U(Uint64 Num, Uint64 Den, Uint64 *Rem);
+
+static inline int MIN(int a, int b) { return a < b ? a : b; }
+static inline int MAX(int a, int b) { return a > b ? a : b; }
#include <binary_ext.h>
#include <vfs_ext.h>
+#include <mutex.h>
#endif