зеркало из https://github.com/github/putty.git
113 строки
4.4 KiB
C
113 строки
4.4 KiB
C
/*
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* PuTTY memory-handling header.
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*/
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#ifndef PUTTY_PUTTYMEM_H
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#define PUTTY_PUTTYMEM_H
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#include <stddef.h> /* for size_t */
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#include <string.h> /* for memcpy() */
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#include "defs.h"
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#define smalloc(z) safemalloc(z,1)
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#define snmalloc safemalloc
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#define srealloc(y,z) saferealloc(y,z,1)
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#define snrealloc saferealloc
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#define sfree safefree
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void *safemalloc(size_t, size_t);
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void *saferealloc(void *, size_t, size_t);
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void safefree(void *);
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/*
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* Direct use of smalloc within the code should be avoided where
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* possible, in favour of these type-casting macros which ensure you
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* don't mistakenly allocate enough space for one sort of structure
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* and assign it to a different sort of pointer. sresize also uses
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* TYPECHECK to verify that the _input_ pointer is a pointer to the
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* correct type.
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*/
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#define snew(type) ((type *)snmalloc(1, sizeof(type)))
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#define snewn(n, type) ((type *)snmalloc((n), sizeof(type)))
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#define sresize(ptr, n, type) TYPECHECK((type *)0 == (ptr), \
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((type *)snrealloc((ptr), (n), sizeof(type))))
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/*
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* For cases where you want to allocate a struct plus a subsidiary
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* data buffer in one step, this macro lets you add a constant to the
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* amount malloced.
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*
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* Since the return value is already cast to the struct type, a
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* pointer to that many bytes of extra data can be conveniently
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* obtained by simply adding 1 to the returned pointer!
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* snew_plus_get_aux is a handy macro that does that and casts the
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* result to void *, so you can assign it straight to wherever you
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* wanted it.
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*/
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#define snew_plus(type, extra) ((type *)snmalloc(1, sizeof(type) + (extra)))
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#define snew_plus_get_aux(ptr) ((void *)((ptr) + 1))
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/*
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* Helper macros to deal with the common use case of growing an array.
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*
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* The common setup is that 'array' is a pointer to the first element
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* of a dynamic array of some type, and 'size' represents the current
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* allocated size of that array (in elements). Both of those macro
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* parameters are implicitly written back to.
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*
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* Then sgrowarray(array, size, n) means: make sure the nth element of
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* the array exists (i.e. the size is at least n+1). You call that
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* before writing to the nth element, if you're looping round
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* appending to the array.
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*
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* If you need to grow the array by more than one element, you can
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* instead call sgrowarrayn(array, size, n, m), which will ensure the
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* size of the array is at least n+m. (So sgrowarray is just the
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* special case of that in which m == 1.)
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*
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* It's common to call sgrowarrayn with one of n,m equal to the
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* previous logical length of the array, and the other equal to the
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* new number of logical entries you want to add, so that n <= size on
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* entry. But that's not actually a mandatory precondition: the two
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* length parameters are just arbitrary integers that get added
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* together with an initial check for overflow, and the semantics are
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* simply 'make sure the array is big enough to take their sum, no
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* matter how big it was to start with'.)
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*
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* Another occasionally useful idiom is to call sgrowarray with n ==
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* size, i.e. sgrowarray(array, size, size). That just means: make
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* array bigger by _some_ amount, I don't particularly mind how much.
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* You might use that style if you were repeatedly calling an API
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* function outside your control, which would either fill your buffer
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* and return success, or else return a 'too big' error without
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* telling you how much bigger it needed to be.
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*/
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void *safegrowarray(void *array, size_t *size, size_t eltsize,
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size_t oldlen, size_t extralen);
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#define sgrowarrayn(array, size, n, m) \
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((array) = safegrowarray(array, &(size), sizeof(*array), n, m))
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#define sgrowarray(array, size, n) sgrowarrayn(array, size, n, 1)
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/*
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* This function is called by the innermost safemalloc/saferealloc
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* functions when allocation fails. Usually it's provided by misc.c
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* which ties it into an application's existing modalfatalbox()
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* system, but standalone test applications can reimplement it some
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* other way if they prefer.
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*/
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NORETURN void out_of_memory(void);
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#ifdef MINEFIELD
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/*
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* Definitions for Minefield, PuTTY's own Windows-specific malloc
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* debugger in the style of Electric Fence. Implemented in winmisc.c,
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* and referred to by the main malloc wrappers in memory.c.
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*/
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void *minefield_c_malloc(size_t size);
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void minefield_c_free(void *p);
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void *minefield_c_realloc(void *p, size_t size);
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#endif
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#endif
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