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71e654a615
The strbuf_local_buf() function attempted to detect if its argument was not an array but a pointer, and fail at compile time. This worked fine when compiling with standard optimisation (-O2). However, specifying the gcc -g option disables compiler optimisation, so the compiler does not optimise away the call to the function with __attribute__(error("...")), and so the compile fails. The solution is to perform the check at run time using assert(), like strbuf_local() already does.
607 lines
22 KiB
C
607 lines
22 KiB
C
/*
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Serval string buffer primitives
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Copyright (C) 2012-2015 Serval Project Inc.
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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#ifndef __STRBUF_H__
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#define __STRBUF_H__
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#include <stddef.h>
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#include "lang.h"
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/**
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A strbuf provides a convenient set of primitives for assembling a
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nul-terminated string in a fixed-size, caller-provided backing buffer,
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using a sequence of append operations.
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An append operation that would overflow the buffer is truncated with a nul
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terminator and the "overrun" property of the strbuf becomes true until the
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next strbuf_init() or strbuf_trunc(). Any append to an overrun strbuf will
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be fully truncated, ie, nothing more will be appended to the buffer.
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The string in the buffer is guaranteed to always be nul terminated, which
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means that the maximum strlen() of the assembled string is one less than
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the buffer size. In other words, the following invariants always hold:
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strbuf_len(sb) < strbuf_size(sb)
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strbuf_str(sb)[strbuf_len(sb)] == '\0'
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char buf[100];
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struct strbuf b;
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strbuf_init(&b, buf, sizeof buf);
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strbuf_puts(&b, "text");
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strbuf_sprintf(&b, "fmt", val...);
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if (strbuf_overrun(&b))
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// error...
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else
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// use buf
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A strbuf counts the total number of chars appended to it, even ones that
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were truncated. This count is always available via strbuf_count().
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A NULL buffer can be provided. This causes the strbuf operations to
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perform all character counting and truncation calculations as usual, but
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not actually assemble the string; it is as though the strbuf is permanently
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overrun, but no nul terminator is appended. This allows a strbuf to be
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used for calculating the size needed for a buffer, which the caller may
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then allocate and replay the same operations to fill.
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A buffer length of -1 can be given. This causes the strbuf operations to
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treat the buffer as unlimited in size. This is useful for when the caller
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is 100% certain that the strbuf will not be overrun. For example, if the
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required buffer size was already computed by a preliminary run of the same
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strbuf operations on a NULL buffer, and the necessary size allocated.
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The strbuf operations will never write any data beyond the length of the
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assembled string plus one for the nul terminator. So, for example, the
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following code will never alter buf[4]:
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char buf[5];
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buf[4] = 'x';
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strbuf b;
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strbuf_init(b, buf, sizeof buf);
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strbuf_puts(&b, "abc");
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assert buf[4] == 'x'; // always passes
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*/
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#include <sys/types.h>
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#include <stdint.h> // for SIZE_MAX on Debian/Unbuntu/...
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#include <limits.h> // for SIZE_MAX on Android
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#include <stdio.h>
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#include <string.h>
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#include <stdarg.h>
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#include <alloca.h>
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#include <assert.h>
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#ifndef __STRBUF_INLINE
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# if __GNUC__ && !__GNUC_STDC_INLINE__
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# define __STRBUF_INLINE extern inline
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# else
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# define __STRBUF_INLINE inline
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# endif
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#endif
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struct strbuf {
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char *start; // NULL after strbuf_init(buffer=NULL)
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char *end; // NULL after strbuf_init(size=-1), otherwise end=&start[size-1]
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char *current;
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};
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/** Static constant for initialising a struct strbuf to empty:
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* struct strbuf ssb = STRUCT_STRBUF_EMPTY;
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* Immediately following this assignment, the following properties hold:
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* strbuf_is_empty(&ssb)
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* strbuf_len(&ssb) == 0
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* strbuf_count(&ssb) == 0
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* strbuf_str(&ssb) == NULL
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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#define STRUCT_STRBUF_EMPTY ((struct strbuf){NULL, NULL, NULL})
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/** Constant for initialising a struct strbuf to a static backing buffer:
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* char buf[n];
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* struct strbuf ssb = STRUCT_STRBUF_INIT_STATIC(buf);
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* Immediately following this assignment, the following properties hold:
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* strbuf_is_empty(&ssb)
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* strbuf_len(&ssb) == 0
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* strbuf_count(&ssb) == 0
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* strbuf_str(&ssb) == buf
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* strbuf_size(sb) == n
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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#define STRUCT_STRBUF_INIT_STATIC(B) ((struct strbuf){(B), (B) + sizeof(B) - 1, (B)})
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typedef struct strbuf *strbuf;
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typedef const struct strbuf *const_strbuf;
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/** The number of bytes occupied by a strbuf (not counting its backing buffer).
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*/
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#define SIZEOF_STRBUF (sizeof(struct strbuf))
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// clang doesn't force the allignment of alloca() which can lead to undefined behaviour. eg SIGBUS
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// TODO write autoconf test for this
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#ifdef __clang__
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#define __ALIGNMENT_OF(T) offsetof( struct { char x; T dummy; }, dummy)
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#define alloca_aligned(size, T) (void*)((uintptr_t)alloca(size+__ALIGNMENT_OF(T)-1)+__ALIGNMENT_OF(T)-1 & ~(__ALIGNMENT_OF(T)-1) )
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#else
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#define alloca_aligned(size, T) alloca(size)
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#endif
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/** Convenience macro for allocating a strbuf and its backing buffer on the
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* heap using a single call to malloc(3).
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*
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* strbuf func1() {
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* strbuf b = strbuf_malloc(1024);
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* strbuf_puts(b, "some text");
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* strbuf_puts(b, " some more text");
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* return b;
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* }
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* strbuf func2() {
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* strbuf b = func1();
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* printf("%s\n", strbuf_str(b));
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* free(b);
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* }
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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#define strbuf_malloc(size) strbuf_make(malloc(SIZEOF_STRBUF + (size)), SIZEOF_STRBUF + (size))
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/** Convenience macro for allocating a strbuf and its backing buffer on the
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* stack within the calling function. The returned strbuf is only valid for
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* the duration of the function, so it must not be returned. See alloca(3) for
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* more information.
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*
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* void func() {
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* strbuf b = strbuf_alloca(1024);
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* strbuf_puts(b, "some text");
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* strbuf_puts(b, " some more text");
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* printf("%s\n", strbuf_str(b));
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* }
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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#define strbuf_alloca(size) strbuf_make(alloca_aligned(SIZEOF_STRBUF + (size), strbuf), SIZEOF_STRBUF + (size))
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/** Convenience macro that calls strbuf_alloca() to allocate a large enough
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* buffer to hold the entire content produced by a given expression that
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* appends to the strbuf. The first strbuf_alloca() will use the supplied
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* initial length, and if that overruns, then a second strbuf_alloca() will use
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* the strbuf_count() from the first pass, so as long as the expression is
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* stable (ie, always produces the same output), the final assert() will not
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* be triggered.
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*
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* strbuf b;
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* STRBUF_ALLOCA_FIT(b, 20, (strbuf_append_variable_content(b, ...)));
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*
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* WARNING: this macro expands its third argument twice, so the third argument
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* must have no side effects.
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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#define STRBUF_ALLOCA_FIT(__SB, __INITIAL_LEN, __EXPR) \
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do { \
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__SB = strbuf_alloca((__INITIAL_LEN) + 1); \
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__EXPR; \
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if (strbuf_overrun(__SB)) { \
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__SB = strbuf_alloca(strbuf_count(__SB) + 1); \
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__EXPR; \
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} \
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assert(!strbuf_overrun(__SB)); \
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} while (0)
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/** Convenience macro for filling a strbuf from the calling function's
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* printf(3)-like variadic arguments.
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*
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* #include <stdarg.h>
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*
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* void funcf(const char *format, ...) {
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* strbuf b = strbuf_alloca(1024);
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* strbuf_va_printf(b, format);
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* ...
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* }
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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#define strbuf_va_printf(sb,fmt) do { \
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va_list __strbuf_ap; \
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va_start(__strbuf_ap, fmt); \
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strbuf_vsprintf(sb, (fmt), __strbuf_ap); \
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va_end(__strbuf_ap); \
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} while (0)
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/** Convenience macro for filling a strbuf from the calling function's va_list
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* variadic argument pointer.
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*
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* #include <stdarg.h>
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*
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* void funcf(const char *format, va_list ap) {
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* strbuf b = strbuf_alloca(1024);
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* strbuf_va_vprintf(b, format, ap);
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* ...
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* }
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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#define strbuf_va_vprintf(sb,fmt,ap) do { \
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va_list __strbuf_ap; \
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va_copy(__strbuf_ap, (ap)); \
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strbuf_vsprintf(sb, (fmt), __strbuf_ap); \
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va_end(__strbuf_ap); \
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} while (0)
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/** Convenience macro to allocate a strbuf for use within the calling function,
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* based on a caller-supplied backing buffer. The returned strbuf is only valid
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* for the duration of the function, so it must not be returned. See alloca(3)
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* for more information. However, the backing buffer may have any scope.
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*
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* void func(char *buf, size_t len) {
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* strbuf b = strbuf_local(buf, len);
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* strbuf_puts(b, "some text");
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* strbuf_puts(b, " some more text");
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* }
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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#ifdef __GNUC__
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#define strbuf_local(buf,len) __strbuf_init_chk(alloca(SIZEOF_STRBUF), (char*)(buf), (len), __builtin_object_size((buf), 1))
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#else
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#define strbuf_local(buf,len) strbuf_init(alloca(SIZEOF_STRBUF), (char*)(buf), (len))
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#endif
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/** Convenience variant of the strbuf_local() macro that computes the 'len'
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* parameter from 'sizeof buf'.
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*
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* void print_integer(int value) {
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* char temp[20];
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* strbuf b = strbuf_local_buf(temp);
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* strbuf_puts(b, "[");
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* strbuf_sprintf(b, "%d", value);
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* strbuf_puts(b, "]");
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* printf("%s\n", temp);
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* }
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*
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* WARNING: 'buf' must name a char[] array, not a char* pointer. The following
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* code is wrong:
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*
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* char *p = malloc(50);
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* ...
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* strbuf b = strbuf_local_buf(p); // ERROR!
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*
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* In the above example, sizeof(p) will be 8 (4 on 32-bit architectures) which
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* is NOT the size of the buffer that p points to (50), and not the desired
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* effect: the string in strbuf b will be limited to 7 chars in length. If the
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* buffer pointed to by p were less than 8 in size, then appending to strbuf b
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* would cause memory corruption and a likely SIGSEGV.
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*
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* If compiled with the GNU C compiler (or equivalent, like Clang), then the
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* above example would produce a build error (see below). However, if the
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* compiler does not support __attribute__((alloc_size(n)) (such as Clang 3.5),
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* then the check is not performed, because it would also cause errors for
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* perfectly legitimate uses, eg, strbuf_local_buf(a->buf).
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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#if defined(__GNUC__) && defined(HAVE_FUNC_ATTRIBUTE_ALLOC_SIZE)
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# define strbuf_local_buf(buf) strbuf_local((char*)(buf), (__buffer_size_chk(sizeof(buf), __builtin_object_size(buf, 1))))
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// If the following assertion fails, it means that the argument to
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// strbuf_local_buf() was not an array whose size is known at compile time.
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// The most common cause of this is passing a pointer as the argument. The
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// solution is to use strbuf_local(b, len) instead of strbuf_local_buf(b),
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// and supply the length of the buffer explicitly.
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__STRBUF_INLINE size_t __buffer_size_chk(size_t size, size_t chk) {
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assert(chk == (size_t)-1 || size == chk);
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return size;
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}
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#else
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# define strbuf_local_buf(buf) strbuf_local((char*)(buf), sizeof(buf))
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#endif
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/** Initialise a strbuf with a caller-supplied backing buffer. The current
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* backing buffer and its contents are forgotten, and all strbuf operations
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* henceforward will operate on the new backing buffer. Returns its first
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* argument.
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*
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* Immediately following strbuf_init(sb,b,n), the following properties hold:
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* strbuf_str(sb) == b
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* strbuf_size(sb) == n
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* strbuf_len(sb) == 0
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* strbuf_count(sb) == 0
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* b == NULL || b[0] == '\0'
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*
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* If the 'buffer' argument is NULL, the strbuf is marked as "empty" and all
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* subsequent strbuf operations will all act as usual with the sole exception
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* that no chars will be copied into a backing buffer. This allows strbuf to
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* be used for summing the lengths of strings.
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*
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* If the 'size' argument is zero, then strbuf does not write into its backing
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* buffer, not even a terminating nul.
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*
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* The __strbuf_init_chk() function calls strbuf_init() after ensuring that if
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* the given buffer's size is known at compile time (chk != -1) and the strbuf
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* is not being initialised to "indefinite" length (size != -1) then the given
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* size does not exceed the size of the buffer (size <= chk).
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* https://gcc.gnu.org/onlinedocs/gcc/Object-Size-Checking.html#Object-Size-Checking
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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strbuf strbuf_init(strbuf sb, char *buffer, ssize_t size);
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#ifdef __GNUC__
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__STRBUF_INLINE strbuf __strbuf_init_chk(strbuf sb, char *buffer, ssize_t size, ssize_t chk) {
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if (chk != -1 && size != -1)
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assert(size <= chk); // buffer overflow
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return strbuf_init(sb, buffer, size);
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}
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#endif
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/** Initialise a strbuf and its backing buffer inside the caller-supplied
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* buffer of the given size. If the 'size' argument is less than
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* SIZEOF_STRBUF, then strbuf_make() returns NULL.
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*
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* Immediately following sb = strbuf_make(buf,len) where len >= SIZEOF_STRBUF,
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* the following properties hold:
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* (char*) sb == buf
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* strbuf_str(sb) == &buf[SIZEOF_STRBUF];
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* strbuf_size(sb) == len - SIZEOF_STRBUF;
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* strbuf_len(sb) == 0
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* strbuf_count(sb) == 0
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* strbuf_str(sb)[0] == '\0'
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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__STRBUF_INLINE strbuf strbuf_make(char *buffer, size_t size) {
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return size < SIZEOF_STRBUF ? NULL : strbuf_init((strbuf) buffer, buffer + SIZEOF_STRBUF, (ssize_t)(size - SIZEOF_STRBUF));
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}
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/** Reset a strbuf. The current position is set to the start of the buffer, so
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* the next append will write at the start of the buffer. The prior contents
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* of the buffer are forgotten and will be overwritten.
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*
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* Immediately following strbuf_reset(sb), the following properties hold:
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* strbuf_len(sb) == 0
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* strbuf_count(sb) == 0
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* strbuf_str(sb) == NULL || strbuf_str(sb)[0] == '\0'
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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strbuf strbuf_reset(strbuf sb);
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/** Append a nul-terminated string to the strbuf up to a maximum number,
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* truncating if necessary to avoid buffer overrun, and terminating with a nul
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* which is not counted in the maximum. Return a pointer to the strbuf so that
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* concatenations can be chained in a single line: eg,
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* strbuf_ncat(strbuf_ncat(sb, "abc", 1), "def", 2) gives a strbuf containing
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* "ade";
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*
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* After these operations:
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* n = strbuf_len(sb);
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* c = strbuf_count(sb);
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* strbuf_ncat(text, len);
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* the following invariants hold:
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* strbuf_count(sb) == c + min(strlen(text), len)
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* strbuf_len(sb) >= n
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* strbuf_len(sb) <= n + len
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* strbuf_len(sb) <= n + strlen(text)
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* strbuf_str(sb) == NULL || strbuf_len(sb) == n || strncmp(strbuf_str(sb) + n, text, strbuf_len(sb) - n) == 0
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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strbuf strbuf_ncat(strbuf sb, const char *text, size_t len);
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/** Append a nul-terminated string to the strbuf, truncating if necessary to
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* avoid buffer overrun. Return a pointer to the strbuf so that concatenations
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* can be chained in a single line: strbuf_puts(strbuf_puts(sb, "a"), "b");
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*
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* After these operations:
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* n = strbuf_len(sb);
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* c = strbuf_count(sb);
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* strbuf_puts(text);
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* the following invariants hold:
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* strbuf_count(sb) == c + strlen(text)
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* strbuf_len(sb) >= n
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* strbuf_len(sb) <= n + strlen(text)
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* strbuf_str(sb) == NULL || strbuf_len(sb) == n || strncmp(strbuf_str(sb) + n, text, strbuf_len(sb) - n) == 0
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*
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* @author Andrew Bettison <andrew@servalproject.com>
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*/
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strbuf strbuf_puts(strbuf sb, const char *text);
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/** Append binary data strbuf, as up to 'len' characters of uppercase
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* hexadecimal format, truncating if necessary to avoid buffer overrun. Return
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* a pointer to the strbuf.
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*
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* After these operations:
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* n = strbuf_len(sb);
|
|
* c = strbuf_count(sb);
|
|
* strbuf_tohex(len, data);
|
|
* the following invariants hold:
|
|
* strbuf_count(sb) == c + len
|
|
* strbuf_len(sb) >= n
|
|
* strbuf_len(sb) <= n + len
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
strbuf strbuf_tohex(strbuf sb, size_t strlen, const unsigned char *data);
|
|
|
|
/** Append a single character to the strbuf if there is space, and place a
|
|
* terminating nul after it. Return a pointer to the strbuf so that
|
|
* concatenations can be chained in a single line.
|
|
*
|
|
* After these operations:
|
|
* n = strbuf_len(sb);
|
|
* c = strbuf_count(sb);
|
|
* strbuf_putc(ch);
|
|
* the following invariants hold:
|
|
* strbuf_count(sb) == c + 1
|
|
* strbuf_len(sb) >= n
|
|
* strbuf_len(sb) <= n + 1
|
|
* strbuf_str(sb) == NULL || strbuf_len(sb) == n || strbuf_str(sb)[n] == ch
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
strbuf strbuf_putc(strbuf sb, char ch);
|
|
|
|
/** Append the results of sprintf(fmt,...) to the string buffer, truncating if
|
|
* necessary to avoid buffer overrun. Return a pointer to the strbuf.
|
|
*
|
|
* This is equivalent to char tmp[...]; sprintf(tmp, fmt, ...); strbuf_puts(tmp);
|
|
* assuming that tmp[] is large enough to contain the entire string produced by
|
|
* the sprintf().
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
strbuf strbuf_sprintf(strbuf sb, const char *fmt, ...) __attribute__((__ATTRIBUTE_format(printf, 2, 3)));
|
|
strbuf strbuf_vsprintf(strbuf sb, const char *fmt, va_list ap);
|
|
|
|
/** Return a pointer to the current nul-terminated string in the strbuf.
|
|
*
|
|
* This is the same as the 'buffer' argument passed to the most recent
|
|
* strbuf_init(). If the caller still has that pointer, then can safely use it
|
|
* instead of calling strbuf_str().
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
__STRBUF_INLINE char *strbuf_str(const_strbuf sb) {
|
|
return sb->start;
|
|
}
|
|
|
|
/** Return a pointer to the nul-terminator at the end of the string in the
|
|
* strbuf.
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
__STRBUF_INLINE char *strbuf_end(const_strbuf sb) {
|
|
return sb->end && sb->current > sb->end ? sb->end : sb->current;
|
|
}
|
|
|
|
/** Return a pointer to the substring starting at a given offset. If the
|
|
* offset is negative, then it is taken from the end of the string, ie, the
|
|
* length of the string is added to it. The returned pointer always points
|
|
* within the string. If offset >= strbuf_len(sb), it points to the
|
|
* terminating nul. If offset <= -strbuf_len(sb) then it points to
|
|
* strbuf_str(sb).
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
char *strbuf_substr(const_strbuf sb, int offset);
|
|
|
|
/** Truncate the string in the strbuf to a given offset. If the offset is
|
|
* negative, then it is taken from the end of the string, ie, the length of the
|
|
* string is added to it. If the string is shorter than the given offset, then
|
|
* it is unchanged. Otherwise, a terminating nul char is written at the offset
|
|
* and the string's length truncated accordingly. Return a pointer to the
|
|
* strbuf so that operations can be chained in a single line.
|
|
*
|
|
* After the operations:
|
|
* count = strbuf_count(sb);
|
|
* len = strbuf_len(sb);
|
|
* strbuf_trunc(sb, off);
|
|
* the following invariants hold:
|
|
* if count <= off, sb is unchanged:
|
|
* strbuf_count(sb) == count
|
|
* strbuf_len(sb) == len
|
|
* if len <= off < count:
|
|
* strbuf_count(sb) == off
|
|
* strbuf_len(sb) == len
|
|
* if 0 <= off < len:
|
|
* strbuf_count(sb) == off
|
|
* strbuf_len(sb) == off
|
|
* if -len <= off < 0:
|
|
* strbuf_count(sb) == len + off
|
|
* strbuf_len(sb) == len + off
|
|
* if off < -len:
|
|
* strbuf_count(sb) == 0
|
|
* strbuf_len(sb) == 0
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
strbuf strbuf_trunc(strbuf sb, int offset);
|
|
|
|
/** Return true if the given strbuf is "empty", ie, not modified since being
|
|
* initialised to STRUCT_STRBUF_EMPTY or with strbuf_init(sb, NULL, 0);
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
__STRBUF_INLINE size_t strbuf_is_empty(const_strbuf sb) {
|
|
return sb->start == NULL && sb->end == NULL && sb->current == NULL;
|
|
}
|
|
|
|
/** Return the size of the backing buffer. Return -1 if the buffer is of
|
|
* undefined size.
|
|
*
|
|
* This is the same as the 'size' argument passed to the most recent
|
|
* strbuf_init().
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
__STRBUF_INLINE ssize_t strbuf_size(const_strbuf sb) {
|
|
return sb->end ? sb->end - sb->start + 1 : -1;
|
|
}
|
|
|
|
/** Return length of current string in the strbuf, not counting the terminating
|
|
* nul.
|
|
*
|
|
* Invariant: strbuf_len(sb) == strlen(strbuf_str(sb))
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
__STRBUF_INLINE size_t strbuf_len(const_strbuf sb) {
|
|
return (size_t)(strbuf_end(sb) - sb->start);
|
|
}
|
|
|
|
/** Return remaining space in the strbuf, not counting the terminating nul.
|
|
* Return SIZE_MAX if the strbuf is of undefined size.
|
|
*
|
|
* Invariant: strbuf_size(sb) == -1 || strbuf_remaining(sb) == strbuf_size(sb) - strbuf_len(sb)
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
__STRBUF_INLINE size_t strbuf_remaining(const_strbuf sb) {
|
|
return !sb->end ? SIZE_MAX : sb->current > sb->end ? 0 : (size_t)(sb->end - sb->current);
|
|
}
|
|
|
|
/** Return the number of chars appended to the strbuf so far, not counting the
|
|
* terminating nul.
|
|
*
|
|
* Invariant: strbuf_len(sb) <= strbuf_count(sb)
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
__STRBUF_INLINE size_t strbuf_count(const_strbuf sb) {
|
|
return (size_t)(sb->current - sb->start);
|
|
}
|
|
|
|
/** Return true iff the strbuf has been overrun, ie, any appended string has
|
|
* been truncated since strbuf_init().
|
|
*
|
|
* Invariant: strbuf_overrun(sb) == strbuf_count(sb) != strbuf_len(sb)
|
|
*
|
|
* @author Andrew Bettison <andrew@servalproject.com>
|
|
*/
|
|
__STRBUF_INLINE int strbuf_overrun(const_strbuf sb) {
|
|
return sb->end && sb->current > sb->end;
|
|
}
|
|
|
|
#endif // __STRBUF_H__
|