/usr/include/buffer.h is in libowfat-dev 0.29-4.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 | /* this header file comes from libowfat, http://www.fefe.de/libowfat/ */
#ifndef BUFFER_H
#define BUFFER_H
/* for size_t: */
#include <stddef.h>
/* for ssize_t: */
#include <sys/types.h>
#ifdef __cplusplus
extern "C" {
#endif
typedef struct buffer {
char *x; /* actual buffer space */
size_t p; /* current position */
size_t n; /* current size of string in buffer */
size_t a; /* allocated buffer size */
int fd; /* passed as first argument to op */
ssize_t (*op)(); /* use read(2) or write(2) */
enum { NOTHING, FREE, MUNMAP } todo;
void* cookie;
} buffer;
#define BUFFER_INIT(op,fd,buf,len) { (buf), 0, 0, (len), (fd), (op), NOTHING, NULL }
#define BUFFER_INIT_FREE(op,fd,buf,len) { (buf), 0, 0, (len), (fd), (op), FREE }
#define BUFFER_INIT_READ(op,fd,buf,len) BUFFER_INIT(op,fd,buf,len) /*obsolete*/
#define BUFFER_INSIZE 8192
#define BUFFER_OUTSIZE 8192
void buffer_init(buffer* b,ssize_t (*op)(),int fd,char* y,size_t ylen);
void buffer_init_free(buffer* b,ssize_t (*op)(),int fd,char* y,size_t ylen);
int buffer_mmapread(buffer* b,const char* filename);
void buffer_close(buffer* b);
int buffer_flush(buffer* b);
int buffer_put(buffer* b,const char* x,size_t len);
int buffer_putalign(buffer* b,const char* x,size_t len);
int buffer_putflush(buffer* b,const char* x,size_t len);
int buffer_puts(buffer* b,const char* x);
int buffer_putsalign(buffer* b,const char* x);
int buffer_putsflush(buffer* b,const char* x);
int buffer_putm_internal(buffer*b,...);
int buffer_putm_internal_flush(buffer*b,...);
#define buffer_putm(b,...) buffer_putm_internal(b,__VA_ARGS__,(char*)0)
#define buffer_putmflush(b,...) buffer_putm_internal_flush(b,__VA_ARGS__,(char*)0)
int buffer_putspace(buffer* b);
int buffer_putnlflush(buffer* b); /* put \n and flush */
#define buffer_PUTC(s,c) \
( ((s)->a != (s)->p) \
? ( (s)->x[(s)->p++] = (c), 0 ) \
: buffer_put((s),&(c),1) \
)
ssize_t buffer_get(buffer* b,char* x,size_t len);
int buffer_feed(buffer* b);
int buffer_getc(buffer* b,char* x);
ssize_t buffer_getn(buffer* b,char* x,size_t len);
/* read bytes until the destination buffer is full (len bytes), end of
* file is reached or the read char is in charset (setlen bytes). An
* empty line when looking for \n will write '\n' to x and return 0. If
* EOF is reached, \0 is written to the buffer */
ssize_t buffer_get_token(buffer* b,char* x,size_t len,const char* charset,size_t setlen);
ssize_t buffer_getline(buffer* b,char* x,size_t len);
/* this predicate is given the string as currently read from the buffer
* and is supposed to return 1 if the token is complete, 0 if not. */
typedef int (*string_predicate)(const char* x,size_t len);
/* like buffer_get_token but the token ends when your predicate says so */
ssize_t buffer_get_token_pred(buffer* b,char* x,size_t len,string_predicate p);
char *buffer_peek(buffer* b);
void buffer_seek(buffer* b,size_t len);
#define buffer_PEEK(s) ( (s)->x + (s)->p )
#define buffer_SEEK(s,len) ( (s)->p += (len) )
#define buffer_GETC(s,c) \
( ((s)->p < (s)->n) \
? ( *(c) = *buffer_PEEK(s), buffer_SEEK((s),1), 1 ) \
: buffer_get((s),(c),1) \
)
int buffer_putulong(buffer *b,unsigned long int l);
int buffer_put8long(buffer *b,unsigned long int l);
int buffer_putxlong(buffer *b,unsigned long int l);
int buffer_putlong(buffer *b,signed long int l);
int buffer_putlonglong(buffer* b,signed long long int l);
int buffer_putulonglong(buffer* b,unsigned long long int l);
int buffer_puterror(buffer* b);
int buffer_puterror2(buffer* b, int errnum);
extern buffer *buffer_0;
extern buffer *buffer_0small;
extern buffer *buffer_1;
extern buffer *buffer_1small;
extern buffer *buffer_2;
#ifdef STRALLOC_H
/* write stralloc to buffer */
int buffer_putsa(buffer* b,stralloc* sa);
/* write stralloc to buffer and flush */
int buffer_putsaflush(buffer* b,stralloc* sa);
/* these "read token" functions return 0 if the token was complete or
* EOF was hit or -1 on error. In contrast to the non-stralloc token
* functions, the separator is also put in the stralloc; use
* stralloc_chop or stralloc_chomp to get rid of it. */
/* WARNING! These token reading functions will not clear the stralloc!
* They _append_ the token to the contents of the stralloc. The idea is
* that this way these functions can be used on non-blocking sockets;
* when you get signalled EAGAIN, just call the functions again when new
* data is available. */
/* read token from buffer to stralloc */
int buffer_get_token_sa(buffer* b,stralloc* sa,const char* charset,size_t setlen);
/* read line from buffer to stralloc */
int buffer_getline_sa(buffer* b,stralloc* sa);
/* same as buffer_get_token_sa but empty sa first */
int buffer_get_new_token_sa(buffer* b,stralloc* sa,const char* charset,size_t setlen);
/* same as buffer_getline_sa but empty sa first */
int buffer_getnewline_sa(buffer* b,stralloc* sa);
typedef int (*sa_predicate)(stralloc* sa);
/* like buffer_get_token_sa but the token ends when your predicate says so */
int buffer_get_token_sa_pred(buffer* b,stralloc* sa,sa_predicate p);
/* same, but clear sa first */
int buffer_get_new_token_sa_pred(buffer* b,stralloc* sa,sa_predicate p);
/* make a buffer from a stralloc.
* Do not change the stralloc after this! */
void buffer_fromsa(buffer* b,stralloc* sa); /* read from sa */
int buffer_tosa(buffer*b,stralloc* sa); /* write to sa, auto-growing it */
#endif
#ifdef __cplusplus
}
#endif
#endif
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