URL
https://opencores.org/ocsvn/openrisc_me/openrisc_me/trunk
Subversion Repositories openrisc_me
[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [libnetworking/] [rtems_webserver/] [uemf.h] - Rev 373
Go to most recent revision | Compare with Previous | Blame | View Log
/* * uemf.h -- Go Ahead Micro Embedded Management Framework Header * * Copyright (c) Go Ahead Software, Inc., 1995-1999 * * See the file "license.txt" for usage and redistribution license requirements */ #ifndef _h_UEMF #define _h_UEMF 1 /******************************** Description *********************************/ /* * Go Ahead Web Server header. This defines the Web public APIs */ /******************************* Per O/S Includes *****************************/ #if WIN #include <direct.h> #include <io.h> #include <sys/stat.h> #include <limits.h> #include <tchar.h> #include <windows.h> #include <winnls.h> #include <time.h> #include <sys/types.h> #include <stdio.h> #include <stdlib.h> #endif #if CE #include <limits.h> #include <tchar.h> #include <windows.h> #include <winnls.h> #include "CE/wincompat.h" #endif #if NW #include <stdio.h> #endif #if UNIX #include <stdio.h> #endif #if LINUX || __rtems__ #include <sys/types.h> #include <sys/stat.h> #include <sys/param.h> #include <limits.h> #include <stdio.h> #include <stdlib.h> #include <unistd.h> #include <sys/socket.h> #include <sys/select.h> #include <netinet/in.h> #include <arpa/inet.h> #include <netdb.h> #include <time.h> #endif #if LYNX #include <limits.h> #include <stdarg.h> #include <stdio.h> #include <stdlib.h> #include <unistd.h> #include <socket.h> #include <netinet/in.h> #include <arpa/inet.h> #include <netdb.h> #include <time.h> #endif #if UW #include <stdio.h> #endif #if VXW486 #include <vxWorks.h> #include <sockLib.h> #include <selectLib.h> #include <inetLib.h> #include <ioLib.h> #include <stdio.h> #include <stat.h> #include <time.h> #include <usrLib.h> #endif #if QNX4 #include <sys/types.h> #include <stdio.h> #include <sys/socket.h> #include <sys/select.h> #include <netinet/in.h> #include <arpa/inet.h> #include <netdb.h> #endif /********************************** Includes **********************************/ #include <ctype.h> #include <stdarg.h> #include <string.h> /********************************** Unicode ***********************************/ /* * Constants and limits. Also FNAMESIZE and PATHSIZE are currently defined * in param.h to be 128 and 512 */ #define TRACE_MAX (4096 - 48) #define VALUE_MAX_STRING (4096 - 48) #define SYM_MAX (512) #define XML_MAX 4096 /* Maximum size for tags/tokens */ #define BUF_MAX 4096 /* General sanity check for bufs */ /* * Type for unicode systems */ #if UNICODE /* * To convert strings to UNICODE. We have a level of indirection so things * like T(__FILE__) will expand properly. */ #define T(x) __TXT(x) #define __TXT(s) L ## s typedef unsigned short char_t; typedef unsigned short uchar_t; /* * Text size of buffer macro. A buffer bytes will hold (size / char size) * characters. */ #define TSZ(x) (sizeof(x) / sizeof(char_t)) /* * How many ASCII bytes are required to represent this UNICODE string? */ #define TASTRL(x) ((wcslen(x) + 1) * sizeof(char_t)) #define gmain wmain #define gsprintf swprintf #define gprintf wprintf #define gfprintf fwprintf #define gsscanf swscanf #define gvsprintf vswprintf #define gstrcpy wcscpy #define gstrncpy wcsncpy #define gstrncat wcsncat #define gstrlen wcslen #define gstrcat wcscat #define gstrcmp wcscmp #define gstrncmp wcsncmp #define gstricmp wcsicmp #define gstrchr wcschr #define gstrrchr wcsrchr #define gstrtok wcstok #define gstrnset wcsnset #define gstrstr wcsstr #define gfopen _wfopen #define gopen _wopen #define gcreat _wcreat #define gfgets fgetws #define gfputs fputws #define gunlink _wunlink #define grename _wrename #define gtmpnam _wtmpnam #define gtempnam _wtempnam #define gfindfirst _wfindfirst #define gfinddata_t _wfinddata_t #define gfindnext _wfindnext #define gfindclose _findclose #define gstat _wstat #define gaccess _waccess typedef struct _stat gstat_t; #define gmkdir _wmkdir #define gchdir _wchdir #define grmdir _wrmdir #define gremove _wremove #define ggetcwd _wgetcwd #define gtolower towlower #define gtoupper towupper #define gisspace iswspace #define gisdigit iswdigit #define gisxdigit iswxdigit #define gisalnum iswalnum #define gisalpha iswalpha #define gisupper iswupper #define gislower iswlower #define gatoi(s) wcstol(s, NULL, 10) #define gctime _wctime #define ggetenv _wgetenv #define gexecvp _wexecvp #else /* ! UNICODE */ #define T(s) s #define TSZ(x) (sizeof(x)) #define TASTRL(x) (strlen(x) + 1) typedef char char_t; #if WIN typedef unsigned char uchar_t; #endif #define gsprintf sprintf #define gprintf printf #define gfprintf fprintf #define gsscanf sscanf #define gvsprintf vsprintf #define gstrcpy strcpy #define gstrncpy strncpy #define gstrncat strncat #define gstrlen strlen #define gstrcat strcat #define gstrcmp strcmp #define gstrncmp strncmp #define gstricmp stricmp #define gstrchr strchr #define gstrrchr strrchr #define gstrtok strtok #define gstrnset strnset #define gstrstr strstr #define gfopen fopen #define gopen open #define gcreat creat #define gfgets fgets #define gfputs fputs #define gunlink unlink #define grename rename #define gtmpnam tmpnam #define gtempnam tempnam #define gfindfirst _findfirst #define gfinddata_t _finddata_t #define gfindnext _findnext #define gfindclose _findclose #define gstat stat #define gaccess access typedef struct stat gstat_t; #define gmkdir mkdir #define gchdir chdir #define grmdir rmdir #define gremove remove #define ggetcwd getcwd #define gtolower tolower #define gtoupper toupper #define gisspace isspace #define gisdigit isdigit #define gisxdigit isxdigit #define gisalnum isalnum #define gisalpha isalpha #define gisupper isupper #define gislower islower #define gatoi atoi #define gctime ctime #define ggetenv getenv #define gexecvp execvp #ifndef VXW486 #define gmain main #endif #endif /********************************** Defines ***********************************/ #define FNAMESIZE 256 /* Max length of file names */ #define E_MAX_ERROR 4096 /* * Error types */ #define E_ASSERT 0x1 /* Assertion error */ #define E_LOG 0x2 /* Log error to log file */ #define E_USER 0x3 /* Error that must be displayed */ #define E_L T(__FILE__), __LINE__ #define E_ARGS_DEC char_t *file, int line #define E_ARGS file, line #if ASSERT #define a_assert(C) if (C) ; else error(E_L, E_ASSERT, T("%s"), #C) #else #define a_assert(C) if (1) ; else #endif #define VALUE_VALID { {0}, integer, 1 } #define VALUE_INVALID { {0}, undefined, 0 } /* * Allocation flags */ #define VALUE_ALLOCATE 0x1 #define value_numeric(t) (t == integer) #define value_str(t) (t >= string || t <= bytes) #define value_ok(t) (t > undefined && t <= symbol) /* * These values are not prefixed so as to aid code readability */ #if !defined(UW) && !defined(__rtems__) #pragma pack(2) #endif typedef enum { undefined = 0, integer = 1, string = 2, bytes = 3, errmsg = 4 } value_type_t; /* * In UW, bit fields default to unsigned unless explicitly defined as signed. * Unfortunately, enum become ints, but not explicitly signed. Thus, if using * an enum type in a bit field, it becomes unsigned, but we need signed. So * for UW we declare value_type_t to be a signed int to make this all work. */ typedef struct { union { long integer; char_t *string; char_t *bytes; char_t *errmsg; void *symbol; } value; #if UW signed int type : 8; #else value_type_t type : 8; #endif unsigned int valid : 1; unsigned int user_def_1 : 1; unsigned int allocated : 1; /* String was balloced */ } value_t; /* * Extract a string from the value depending whether inline or via pointer */ #define value_strget(v) \ (((v)->type == bytes) ? (v)->value.bytes : (v)->value.string) #if !defined(UW) && !defined(__rtems__) #pragma pack() #endif /******************************************************************************/ /* * A ring queue allows maximum utilization of memory for data storage and is * ideal for input/output buffering. This module provides a highly effecient * implementation and a vehicle for dynamic strings. * * WARNING: This is a public implementation and callers have full access to * the queue structure and pointers. Change this module very carefully. * * This module follows the open/close model. * * Operation of a ringq where rq is a pointer to a ringq : * * rq->buflen contains the size of the buffer. * rq->buf will point to the start of the buffer. * rq->servp will point to the first (un-consumed) data byte. * rq->endp will point to the next free location to which new data is added * rq->endbuf will point to one past the end of the buffer. * * Eg. If the ringq contains the data "abcdef", it might look like : * * +-------------------------------------------------------------------+ * | | | | | | | | a | b | c | d | e | f | | | | | * +-------------------------------------------------------------------+ * ^ ^ ^ ^ * | | | | * rq->buf rq->servp rq->endp rq->enduf * * The queue is empty when servp == endp. This means that the queue will hold * at most rq->buflen -1 bytes. It is the fillers responsibility to ensure * the ringq is never filled such that servp == endp. * * It is the fillers responsibility to "wrap" the endp back to point to * rq->buf when the pointer steps past the end. Correspondingly it is the * consumers responsibility to "wrap" the servp when it steps to rq->endbuf. * The ringqPutc and ringqGetc routines will do this automatically. */ /* * Ring queue buffer structure */ typedef struct { unsigned char *buf; /* Holding buffer for data */ unsigned char *servp; /* Pointer to start of data */ unsigned char *endp; /* Pointer to end of data */ unsigned char *endbuf; /* Pointer to end of buffer */ int buflen; /* Length of ring queue */ int maxsize; /* Maximum size */ int increment; /* Growth increment */ } ringq_t; /* * Block allocation definitions */ #define B_L __FILE__, __LINE__ #define B_ARGS_DEC char *file, int line #define B_ARGS file, line /* * Block classes are: 16, 32, 64, 128, 256, 512, 1024, 2048, 4096, 8192, * 16384, 32768, 65536 */ #define B_SHIFT 4 /* Convert size to class */ #define B_ROUND ((1 << (B_SHIFT)) - 1) #define B_MAX_CLASS 13 /* Maximum class number + 1 */ #define B_MALLOCED 0x80000000 /* Block was malloced */ #define B_DEFAULT_MEM (64 * 1024) /* Default memory allocation */ #define B_MAX_FILES (512) /* Maximum number of files */ #define B_FILL_CHAR (0x77) /* Fill byte for buffers */ #define B_FILL_WORD (0x77777777) /* Fill word for buffers */ #define B_MAX_BLOCKS (64 * 1024) /* Maximum allocated blocks */ /* * Flags. The integer value is used as an arbitrary value to fill the flags. */ #define B_USE_MALLOC 0x1 /* Okay to use malloc if required */ #define B_USER_BUF 0x2 /* User supplied buffer for mem */ #define B_INTEGRITY 0x8124000 /* Integrity value */ #define B_INTEGRITY_MASK 0xFFFF000 /* Integrity mask */ /* * The symbol table record for each symbol entry */ typedef struct sym_t { struct sym_t *forw; /* Pointer to next hash list */ value_t name; /* Name of symbol */ value_t content; /* Value of symbol */ int arg; /* Parameter value */ } sym_t; typedef int sym_fd_t; /* Returned by symOpen */ /* * Socket flags */ #define SOCKET_EOF 0x1 /* Seen end of file */ #define SOCKET_CONNECTING 0x2 /* Connect in progress */ #define SOCKET_BROADCAST 0x4 /* Broadcast mode */ #define SOCKET_PENDING 0x8 /* Message pending on this socket */ #define SOCKET_FLUSHING 0x10 /* Background flushing */ #define SOCKET_LISTENING 0x20 /* Server socket listening */ /* * Socket error values */ #define SOCKET_WOULDBLOCK 1 /* Socket would block on I/O */ #define SOCKET_RESET 2 /* Socket has been reset */ #define SOCKET_NETDOWN 3 /* Network is down */ #define SOCKET_AGAIN 4 /* Issue the request again */ #define SOCKET_INTR 5 /* Call was interrupted */ #define SOCKET_INVAL 6 /* Invalid */ /* * Handler event masks */ #define SOCKET_READABLE 0x2 /* Make socket readable */ #define SOCKET_WRITABLE 0x4 /* Make socket writable */ #define SOCKET_EXCEPTION 0x8 /* Interested in exceptions */ #define SOCKET_BUFSIZ 512 /* Underlying buffer size */ typedef void (*socketHandler_t)(int sid, int mask, int data); typedef int (*socketAccept_t)(int sid, char *ipaddr, int port); /* * Script engines */ #define EMF_SCRIPT_JSCRIPT 0 /* javascript */ #define EMF_SCRIPT_TCL 1 /* tcl */ #define EMF_SCRIPT_EJSCRIPT 2 /* Ejscript */ #define EMF_SCRIPT_MAX 3 #define MAXINT INT_MAX #define BITSPERBYTE 8 #define BITS(type) (BITSPERBYTE * (int) sizeof(type)) #ifndef max #define max(a,b) (((a) > (b)) ? (a) : (b)) #endif #ifndef min #define min(a,b) (((a) < (b)) ? (a) : (b)) #endif /******************************* Per O/S Defines ******************************/ #if VXW486 || LINUX || __rtems__ || LYNX #ifndef O_BINARY #define O_BINARY 0 #endif #define SOCKET_ERROR -1 #endif #if WIN #undef R_OK #define R_OK 4 #undef W_OK #define W_OK 2 #undef X_OK #define X_OK 1 #undef F_OK #define F_OK 0 #endif /********************************* Prototypes *********************************/ extern void bclose(); extern int bopen(void *buf, int bufsize, int flags); #if NO_BALLOC #undef B_L #define B_L x #define balloc(x, num) malloc(num) #define bfree(x, p) free(p) #define bfreeSafe(x, p) \ if (p) { bfree(x, p); } else #define brealloc(x, p, num) realloc(p, num) extern char *bstrdupANoBalloc(char *s); #define bstrdupA(x, s) bstrdupANoBalloc(s) #if UNICODE extern char_t *bstrdupNoBalloc(char_t *s); #define bstrdup(x, s) bstrdupNoBalloc(s) #define gstrdup(x, s) bstrdupNoBalloc(s) #else /* Not UNICODE */ #define bstrdup(x, s) bstrdupANoBalloc(s) #define gstrdup(x, s) bstrdupANoBalloc(s) #endif /* UNICODE */ #else /* BALLOC */ extern void *balloc(B_ARGS_DEC, int size); extern void bfree(B_ARGS_DEC, void *mp); extern void *brealloc(B_ARGS_DEC, void *buf, int newsize); extern void bstats(int handle, void (*writefn)(int fd, char_t *fmt, ...)); extern char_t *bstrdup(B_ARGS_DEC, char_t *s); extern void bfreeSafe(B_ARGS_DEC, void* mp); #define gstrdup(B_ARGS, s) bstrdup(B_ARGS, s) #if UNICODE extern char *bstrdupA(B_ARGS_DEC, char *s); #else #define bstrdupA bstrdup #endif /* UNICODE */ #endif /* BALLOC */ #if !LINUX && !__rtems__ extern char_t* basename(char_t* name); #endif extern void *emfCreateTimer(int delay, void (*routine)(long arg), long arg); extern void emfDeleteTimer(void *id); extern int emfInstGet(); extern void emfInstSet(int inst); extern void error(E_ARGS_DEC, int flags, char_t *fmt, ...); extern int hAlloc(void*** map); extern int hFree(void*** map, int handle); extern int hAllocEntry(void ***list, int *max, int size); extern int ringqOpen(ringq_t *rq, int increment, int maxsize); extern void ringqClose(ringq_t *rq); extern int ringqLen(ringq_t *rq); extern int ringqPutc(ringq_t *rq, char_t c); extern int ringqInsertc(ringq_t *rq, char_t c); extern int ringqPutstr(ringq_t *rq, char_t *str); extern int ringqGetc(ringq_t *rq); extern int gvsnprintf(char_t **s, int n, char_t *fmt, va_list arg); extern int gsnprintf(char_t **s, int n, char_t *fmt, ...); #if UNICODE extern int ringqPutcA(ringq_t* rq, char c); extern int ringqInsertcA(ringq_t* rq, char c); extern int ringqPutstrA(ringq_t* rq, char* str); extern int ringqGetcA(ringq_t* rq); #else #define ringqPutcA ringqPutc #define ringqInsertcA ringqInsertc #define ringqPutstrA ringqPutstr #define ringqGetcA ringqGetc #endif extern int ringqPutBlk(ringq_t *rq, unsigned char *buf, int len); extern int ringqPutBlkMax(ringq_t *rq); extern void ringqPutBlkAdj(ringq_t *rq, int size); extern int ringqGetBlk(ringq_t *rq, unsigned char *buf, int len); extern int ringqGetBlkMax(ringq_t *rq); extern void ringqGetBlkAdj(ringq_t *rq, int size); extern void ringqFlush(ringq_t *rq); extern int scriptSetVar(int engine, char_t *var, char_t *value); extern int scriptEval(int engine, char_t *cmd, char_t **rslt, int chan); extern void socketClose(); extern void socketCloseConnection(int sid); extern void socketCreateHandler(int sid, int mask, socketHandler_t handler, int arg); extern void socketDeleteHandler(int sid); extern int socketEof(int sid); extern int socketFlush(int sid, int block); extern int socketGets(int sid, char_t** buf); extern int socketInputBuffered(int sid); extern int socketOpen(); extern int socketOpenConnection(char *host, int port, socketAccept_t accept, int flags); extern void socketProcess(); extern int socketRead(int sid, char *buf, int len); extern int socketReady(); extern int socketWrite(int sid, char *buf, int len); extern int socketWriteString(int sid, char_t *buf); extern int socketSelect(); extern char_t *strlower(char_t *string); extern char_t *strupper(char_t *string); extern char_t *stritoa(int n, char_t *string, int width); extern sym_fd_t symOpen(int hash_size); extern void symClose(sym_fd_t sd, void (*cleanup)(sym_t *sp)); extern sym_t *symLookup(sym_fd_t sd, char_t *name); extern sym_t *symEnter(sym_fd_t sd, char_t *name, value_t v, int arg); extern int symDelete(sym_fd_t sd, char_t *name); extern void symWalk(sym_fd_t sd, void (*fn)(sym_t *symp)); extern void goahead_trace(int lev, char_t *fmt, ...); extern value_t valueInteger(long value); extern value_t valueString(char_t *value, int flags); extern value_t valueErrmsg(char_t *value); extern void valueFree(value_t *v); extern char_t *ascToUni(char_t *ubuf, char *str, int nBytes); extern char *uniToAsc(char *buf, char_t *ustr, int nBytes); extern char_t *ballocAscToUni(char * cp); extern char *ballocUniToAsc(char_t * unip, int ulen); #endif /* _h_UEMF */ /******************************************************************************/
Go to most recent revision | Compare with Previous | Blame | View Log