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/* * Copyright (C) 2004-2008, 2010 Internet Systems Consortium, Inc. ("ISC") * Copyright (C) 1998-2002 Internet Software Consortium. * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE * OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ /* $Id: buffer.h,v 1.55 2010-12-20 23:47:21 tbox Exp $ */ #ifndef ISC_BUFFER_H #define ISC_BUFFER_H 1 /***** ***** Module Info *****/ /*! \file isc/buffer.h * * \brief A buffer is a region of memory, together with a set of related subregions. * Buffers are used for parsing and I/O operations. * * The 'used region' and the 'available' region are disjoint, and their * union is the buffer's region. The used region extends from the beginning * of the buffer region to the last used byte. The available region * extends from one byte greater than the last used byte to the end of the * buffer's region. The size of the used region can be changed using various * buffer commands. Initially, the used region is empty. * * The used region is further subdivided into two disjoint regions: the * 'consumed region' and the 'remaining region'. The union of these two * regions is the used region. The consumed region extends from the beginning * of the used region to the byte before the 'current' offset (if any). The * 'remaining' region the current pointer to the end of the used * region. The size of the consumed region can be changed using various * buffer commands. Initially, the consumed region is empty. * * The 'active region' is an (optional) subregion of the remaining region. * It extends from the current offset to an offset in the remaining region * that is selected with isc_buffer_setactive(). Initially, the active region * is empty. If the current offset advances beyond the chosen offset, the * active region will also be empty. * * \verbatim * /------------entire length---------------\ * /----- used region -----\/-- available --\ * +----------------------------------------+ * | consumed | remaining | | * +----------------------------------------+ * a b c d e * * a == base of buffer. * b == current pointer. Can be anywhere between a and d. * c == active pointer. Meaningful between b and d. * d == used pointer. * e == length of buffer. * * a-e == entire length of buffer. * a-d == used region. * a-b == consumed region. * b-d == remaining region. * b-c == optional active region. *\endverbatim * * The following invariants are maintained by all routines: * *\code * length > 0 * * base is a valid pointer to length bytes of memory * * 0 <= used <= length * * 0 <= current <= used * * 0 <= active <= used * (although active < current implies empty active region) *\endcode * * \li MP: * Buffers have no synchronization. Clients must ensure exclusive * access. * * \li Reliability: * No anticipated impact. * * \li Resources: * Memory: 1 pointer + 6 unsigned integers per buffer. * * \li Security: * No anticipated impact. * * \li Standards: * None. */ /*** *** Imports ***/ #include <isc/lang.h> #include <isc/magic.h> #include <isc/types.h> /*! * To make many functions be inline macros (via \#define) define this. * If it is undefined, a function will be used. */ /* #define ISC_BUFFER_USEINLINE */ ISC_LANG_BEGINDECLS /*@{*/ /*! *** Magic numbers ***/ #define ISC_BUFFER_MAGIC 0x42756621U /* Buf!. */ #define ISC_BUFFER_VALID(b) ISC_MAGIC_VALID(b, ISC_BUFFER_MAGIC) /*@}*/ /* * The following macros MUST be used only on valid buffers. It is the * caller's responsibility to ensure this by using the ISC_BUFFER_VALID * check above, or by calling another isc_buffer_*() function (rather than * another macro.) */ /*@{*/ /*! * Fundamental buffer elements. (A through E in the introductory comment.) */ #define isc_buffer_base(b) ((void *)(b)->base) /*a*/ #define isc_buffer_current(b) \ ((void *)((unsigned char *)(b)->base + (b)->current)) /*b*/ #define isc_buffer_active(b) \ ((void *)((unsigned char *)(b)->base + (b)->active)) /*c*/ #define isc_buffer_used(b) \ ((void *)((unsigned char *)(b)->base + (b)->used)) /*d*/ #define isc_buffer_length(b) ((b)->length) /*e*/ /*@}*/ /*@{*/ /*! * Derived lengths. (Described in the introductory comment.) */ #define isc_buffer_usedlength(b) ((b)->used) /* d-a */ #define isc_buffer_consumedlength(b) ((b)->current) /* b-a */ #define isc_buffer_remaininglength(b) ((b)->used - (b)->current) /* d-b */ #define isc_buffer_activelength(b) ((b)->active - (b)->current) /* c-b */ #define isc_buffer_availablelength(b) ((b)->length - (b)->used) /* e-d */ /*@}*/ /*! * Note that the buffer structure is public. This is principally so buffer * operations can be implemented using macros. Applications are strongly * discouraged from directly manipulating the structure. */ struct isc_buffer { unsigned int magic; void *base; /*@{*/ /*! The following integers are byte offsets from 'base'. */ unsigned int length; unsigned int used; unsigned int current; unsigned int active; /*@}*/ /*! linkable */ ISC_LINK(isc_buffer_t) link; /*! private internal elements */ isc_mem_t *mctx; }; /*** *** Functions ***/ isc_result_t isc_buffer_allocate(isc_mem_t *mctx, isc_buffer_t **dynbuffer, unsigned int length); /*!< * \brief Allocate a dynamic linkable buffer which has "length" bytes in the * data region. * * Requires: *\li "mctx" is valid. * *\li "dynbuffer" is non-NULL, and "*dynbuffer" is NULL. * * Returns: *\li ISC_R_SUCCESS - success *\li ISC_R_NOMEMORY - no memory available * * Note: *\li Changing the buffer's length field is not permitted. */ void isc_buffer_free(isc_buffer_t **dynbuffer); /*!< * \brief Release resources allocated for a dynamic buffer. * * Requires: *\li "dynbuffer" is not NULL. * *\li "*dynbuffer" is a valid dynamic buffer. * * Ensures: *\li "*dynbuffer" will be NULL on return, and all memory associated with * the dynamic buffer is returned to the memory context used in * isc_buffer_allocate(). */ void isc__buffer_init(isc_buffer_t *b, const void *base, unsigned int length); /*!< * \brief Make 'b' refer to the 'length'-byte region starting at base. * * Requires: * *\li 'length' > 0 * *\li 'base' is a pointer to a sequence of 'length' bytes. * */ void isc__buffer_initnull(isc_buffer_t *b); /*!< *\brief Initialize a buffer 'b' with a null data and zero length/ */ void isc_buffer_reinit(isc_buffer_t *b, void *base, unsigned int length); /*!< * \brief Make 'b' refer to the 'length'-byte region starting at base. * Any existing data will be copied. * * Requires: * *\li 'length' > 0 AND length >= previous length * *\li 'base' is a pointer to a sequence of 'length' bytes. * */ void isc__buffer_invalidate(isc_buffer_t *b); /*!< * \brief Make 'b' an invalid buffer. * * Requires: *\li 'b' is a valid buffer. * * Ensures: *\li If assertion checking is enabled, future attempts to use 'b' without * calling isc_buffer_init() on it will cause an assertion failure. */ void isc__buffer_region(isc_buffer_t *b, isc_region_t *r); /*!< * \brief Make 'r' refer to the region of 'b'. * * Requires: * *\li 'b' is a valid buffer. * *\li 'r' points to a region structure. */ void isc__buffer_usedregion(isc_buffer_t *b, isc_region_t *r); /*!< * \brief Make 'r' refer to the used region of 'b'. * * Requires: * *\li 'b' is a valid buffer. * *\li 'r' points to a region structure. */ void isc__buffer_availableregion(isc_buffer_t *b, isc_region_t *r); /*!< * \brief Make 'r' refer to the available region of 'b'. * * Requires: * *\li 'b' is a valid buffer. * *\li 'r' points to a region structure. */ void isc__buffer_add(isc_buffer_t *b, unsigned int n); /*!< * \brief Increase the 'used' region of 'b' by 'n' bytes. * * Requires: * *\li 'b' is a valid buffer * *\li used + n <= length * */ void isc__buffer_subtract(isc_buffer_t *b, unsigned int n); /*!< * \brief Decrease the 'used' region of 'b' by 'n' bytes. * * Requires: * *\li 'b' is a valid buffer * *\li used >= n * */ void isc__buffer_clear(isc_buffer_t *b); /*!< * \brief Make the used region empty. * * Requires: * *\li 'b' is a valid buffer * * Ensures: * *\li used = 0 * */ void isc__buffer_consumedregion(isc_buffer_t *b, isc_region_t *r); /*!< * \brief Make 'r' refer to the consumed region of 'b'. * * Requires: * *\li 'b' is a valid buffer. * *\li 'r' points to a region structure. */ void isc__buffer_remainingregion(isc_buffer_t *b, isc_region_t *r); /*!< * \brief Make 'r' refer to the remaining region of 'b'. * * Requires: * *\li 'b' is a valid buffer. * *\li 'r' points to a region structure. */ void isc__buffer_activeregion(isc_buffer_t *b, isc_region_t *r); /*!< * \brief Make 'r' refer to the active region of 'b'. * * Requires: * *\li 'b' is a valid buffer. * *\li 'r' points to a region structure. */ void isc__buffer_setactive(isc_buffer_t *b, unsigned int n); /*!< * \brief Sets the end of the active region 'n' bytes after current. * * Requires: * *\li 'b' is a valid buffer. * *\li current + n <= used */ void isc__buffer_first(isc_buffer_t *b); /*!< * \brief Make the consumed region empty. * * Requires: * *\li 'b' is a valid buffer * * Ensures: * *\li current == 0 * */ void isc__buffer_forward(isc_buffer_t *b, unsigned int n); /*!< * \brief Increase the 'consumed' region of 'b' by 'n' bytes. * * Requires: * *\li 'b' is a valid buffer * *\li current + n <= used * */ void isc__buffer_back(isc_buffer_t *b, unsigned int n); /*!< * \brief Decrease the 'consumed' region of 'b' by 'n' bytes. * * Requires: * *\li 'b' is a valid buffer * *\li n <= current * */ void isc_buffer_compact(isc_buffer_t *b); /*!< * \brief Compact the used region by moving the remaining region so it occurs * at the start of the buffer. The used region is shrunk by the size of * the consumed region, and the consumed region is then made empty. * * Requires: * *\li 'b' is a valid buffer * * Ensures: * *\li current == 0 * *\li The size of the used region is now equal to the size of the remaining * region (as it was before the call). The contents of the used region * are those of the remaining region (as it was before the call). */ isc_uint8_t isc_buffer_getuint8(isc_buffer_t *b); /*!< * \brief Read an unsigned 8-bit integer from 'b' and return it. * * Requires: * *\li 'b' is a valid buffer. * *\li The length of the available region of 'b' is at least 1. * * Ensures: * *\li The current pointer in 'b' is advanced by 1. * * Returns: * *\li A 8-bit unsigned integer. */ void isc__buffer_putuint8(isc_buffer_t *b, isc_uint8_t val); /*!< * \brief Store an unsigned 8-bit integer from 'val' into 'b'. * * Requires: *\li 'b' is a valid buffer. * *\li The length of the unused region of 'b' is at least 1. * * Ensures: *\li The used pointer in 'b' is advanced by 1. */ isc_uint16_t isc_buffer_getuint16(isc_buffer_t *b); /*!< * \brief Read an unsigned 16-bit integer in network byte order from 'b', convert * it to host byte order, and return it. * * Requires: * *\li 'b' is a valid buffer. * *\li The length of the available region of 'b' is at least 2. * * Ensures: * *\li The current pointer in 'b' is advanced by 2. * * Returns: * *\li A 16-bit unsigned integer. */ void isc__buffer_putuint16(isc_buffer_t *b, isc_uint16_t val); /*!< * \brief Store an unsigned 16-bit integer in host byte order from 'val' * into 'b' in network byte order. * * Requires: *\li 'b' is a valid buffer. * *\li The length of the unused region of 'b' is at least 2. * * Ensures: *\li The used pointer in 'b' is advanced by 2. */ isc_uint32_t isc_buffer_getuint32(isc_buffer_t *b); /*!< * \brief Read an unsigned 32-bit integer in network byte order from 'b', convert * it to host byte order, and return it. * * Requires: * *\li 'b' is a valid buffer. * *\li The length of the available region of 'b' is at least 4. * * Ensures: * *\li The current pointer in 'b' is advanced by 4. * * Returns: * *\li A 32-bit unsigned integer. */ void isc__buffer_putuint32(isc_buffer_t *b, isc_uint32_t val); /*!< * \brief Store an unsigned 32-bit integer in host byte order from 'val' * into 'b' in network byte order. * * Requires: *\li 'b' is a valid buffer. * *\li The length of the unused region of 'b' is at least 4. * * Ensures: *\li The used pointer in 'b' is advanced by 4. */ isc_uint64_t isc_buffer_getuint48(isc_buffer_t *b); /*!< * \brief Read an unsigned 48-bit integer in network byte order from 'b', * convert it to host byte order, and return it. * * Requires: * *\li 'b' is a valid buffer. * *\li The length of the available region of 'b' is at least 6. * * Ensures: * *\li The current pointer in 'b' is advanced by 6. * * Returns: * *\li A 48-bit unsigned integer (stored in a 64-bit integer). */ void isc__buffer_putuint48(isc_buffer_t *b, isc_uint64_t val); /*!< * \brief Store an unsigned 48-bit integer in host byte order from 'val' * into 'b' in network byte order. * * Requires: *\li 'b' is a valid buffer. * *\li The length of the unused region of 'b' is at least 6. * * Ensures: *\li The used pointer in 'b' is advanced by 6. */ void isc__buffer_putuint24(isc_buffer_t *b, isc_uint32_t val); /*!< * Store an unsigned 24-bit integer in host byte order from 'val' * into 'b' in network byte order. * * Requires: *\li 'b' is a valid buffer. * * The length of the unused region of 'b' is at least 3. * * Ensures: *\li The used pointer in 'b' is advanced by 3. */ void isc__buffer_putmem(isc_buffer_t *b, const unsigned char *base, unsigned int length); /*!< * \brief Copy 'length' bytes of memory at 'base' into 'b'. * * Requires: *\li 'b' is a valid buffer. * *\li 'base' points to 'length' bytes of valid memory. * */ void isc__buffer_putstr(isc_buffer_t *b, const char *source); /*!< * \brief Copy 'source' into 'b', not including terminating NUL. * * Requires: *\li 'b' is a valid buffer. * *\li 'source' to be a valid NULL terminated string. * *\li strlen(source) <= isc_buffer_available(b) */ isc_result_t isc_buffer_copyregion(isc_buffer_t *b, const isc_region_t *r); /*!< * \brief Copy the contents of 'r' into 'b'. * * Requires: *\li 'b' is a valid buffer. * *\li 'r' is a valid region. * * Returns: * *\li ISC_R_SUCCESS *\li ISC_R_NOSPACE The available region of 'b' is not * big enough. */ ISC_LANG_ENDDECLS /* * Inline macro versions of the functions. These should never be called * directly by an application, but will be used by the functions within * buffer.c. The callers should always use "isc_buffer_*()" names, never * ones beginning with "isc__" */ /*! \note * XXXDCL Something more could be done with initializing buffers that * point to const data. For example, a new function, isc_buffer_initconst, * could be used, and a new boolean flag in the buffer structure could * indicate whether the buffer was initialized with that function. * (isc_bufer_init itself would be reprototyped to *not* have its "base" * parameter be const.) Then if the boolean were true, the isc_buffer_put* * functions could assert a contractual requirement for a non-const buffer. * One drawback is that the isc_buffer_* functions (macros) that return * pointers would still need to return non-const pointers to avoid compiler * warnings, so it would be up to code that uses them to have to deal * with the possibility that the buffer was initialized as const -- * a problem that they *already* have to deal with but have absolutely * no ability to. With a new isc_buffer_isconst() function returning * true/false, they could at least assert a contractual requirement for * non-const buffers when needed. */ #define ISC__BUFFER_INIT(_b, _base, _length) \ do { \ union { \ const void * konst; \ void * var; \ } _u; \ _u.konst = (_base); \ (_b)->base = _u.var; \ (_b)->length = (_length); \ (_b)->used = 0; \ (_b)->current = 0; \ (_b)->active = 0; \ (_b)->mctx = NULL; \ ISC_LINK_INIT(_b, link); \ (_b)->magic = ISC_BUFFER_MAGIC; \ } while (0) #define ISC__BUFFER_INITNULL(_b) ISC__BUFFER_INIT(_b, NULL, 0) #define ISC__BUFFER_INVALIDATE(_b) \ do { \ (_b)->magic = 0; \ (_b)->base = NULL; \ (_b)->length = 0; \ (_b)->used = 0; \ (_b)->current = 0; \ (_b)->active = 0; \ } while (0) #define ISC__BUFFER_REGION(_b, _r) \ do { \ (_r)->base = (_b)->base; \ (_r)->length = (_b)->length; \ } while (0) #define ISC__BUFFER_USEDREGION(_b, _r) \ do { \ (_r)->base = (_b)->base; \ (_r)->length = (_b)->used; \ } while (0) #define ISC__BUFFER_AVAILABLEREGION(_b, _r) \ do { \ (_r)->base = isc_buffer_used(_b); \ (_r)->length = isc_buffer_availablelength(_b); \ } while (0) #define ISC__BUFFER_ADD(_b, _n) \ do { \ (_b)->used += (_n); \ } while (0) #define ISC__BUFFER_SUBTRACT(_b, _n) \ do { \ (_b)->used -= (_n); \ if ((_b)->current > (_b)->used) \ (_b)->current = (_b)->used; \ if ((_b)->active > (_b)->used) \ (_b)->active = (_b)->used; \ } while (0) #define ISC__BUFFER_CLEAR(_b) \ do { \ (_b)->used = 0; \ (_b)->current = 0; \ (_b)->active = 0; \ } while (0) #define ISC__BUFFER_CONSUMEDREGION(_b, _r) \ do { \ (_r)->base = (_b)->base; \ (_r)->length = (_b)->current; \ } while (0) #define ISC__BUFFER_REMAININGREGION(_b, _r) \ do { \ (_r)->base = isc_buffer_current(_b); \ (_r)->length = isc_buffer_remaininglength(_b); \ } while (0) #define ISC__BUFFER_ACTIVEREGION(_b, _r) \ do { \ if ((_b)->current < (_b)->active) { \ (_r)->base = isc_buffer_current(_b); \ (_r)->length = isc_buffer_activelength(_b); \ } else { \ (_r)->base = NULL; \ (_r)->length = 0; \ } \ } while (0) #define ISC__BUFFER_SETACTIVE(_b, _n) \ do { \ (_b)->active = (_b)->current + (_n); \ } while (0) #define ISC__BUFFER_FIRST(_b) \ do { \ (_b)->current = 0; \ } while (0) #define ISC__BUFFER_FORWARD(_b, _n) \ do { \ (_b)->current += (_n); \ } while (0) #define ISC__BUFFER_BACK(_b, _n) \ do { \ (_b)->current -= (_n); \ } while (0) #define ISC__BUFFER_PUTMEM(_b, _base, _length) \ do { \ memcpy(isc_buffer_used(_b), (_base), (_length)); \ (_b)->used += (_length); \ } while (0) #define ISC__BUFFER_PUTSTR(_b, _source) \ do { \ unsigned int _length; \ unsigned char *_cp; \ _length = strlen(_source); \ _cp = isc_buffer_used(_b); \ memcpy(_cp, (_source), _length); \ (_b)->used += (_length); \ } while (0) #define ISC__BUFFER_PUTUINT8(_b, _val) \ do { \ unsigned char *_cp; \ isc_uint8_t _val2 = (_val); \ _cp = isc_buffer_used(_b); \ (_b)->used++; \ _cp[0] = _val2 & 0x00ff; \ } while (0) #define ISC__BUFFER_PUTUINT16(_b, _val) \ do { \ unsigned char *_cp; \ isc_uint16_t _val2 = (_val); \ _cp = isc_buffer_used(_b); \ (_b)->used += 2; \ _cp[0] = (unsigned char)((_val2 & 0xff00U) >> 8); \ _cp[1] = (unsigned char)(_val2 & 0x00ffU); \ } while (0) #define ISC__BUFFER_PUTUINT24(_b, _val) \ do { \ unsigned char *_cp; \ isc_uint32_t _val2 = (_val); \ _cp = isc_buffer_used(_b); \ (_b)->used += 3; \ _cp[0] = (unsigned char)((_val2 & 0xff0000U) >> 16); \ _cp[1] = (unsigned char)((_val2 & 0xff00U) >> 8); \ _cp[2] = (unsigned char)(_val2 & 0x00ffU); \ } while (0) #define ISC__BUFFER_PUTUINT32(_b, _val) \ do { \ unsigned char *_cp; \ isc_uint32_t _val2 = (_val); \ _cp = isc_buffer_used(_b); \ (_b)->used += 4; \ _cp[0] = (unsigned char)((_val2 & 0xff000000) >> 24); \ _cp[1] = (unsigned char)((_val2 & 0x00ff0000) >> 16); \ _cp[2] = (unsigned char)((_val2 & 0x0000ff00) >> 8); \ _cp[3] = (unsigned char)((_val2 & 0x000000ff)); \ } while (0) #if defined(ISC_BUFFER_USEINLINE) #define isc_buffer_init ISC__BUFFER_INIT #define isc_buffer_initnull ISC__BUFFER_INITNULL #define isc_buffer_invalidate ISC__BUFFER_INVALIDATE #define isc_buffer_region ISC__BUFFER_REGION #define isc_buffer_usedregion ISC__BUFFER_USEDREGION #define isc_buffer_availableregion ISC__BUFFER_AVAILABLEREGION #define isc_buffer_add ISC__BUFFER_ADD #define isc_buffer_subtract ISC__BUFFER_SUBTRACT #define isc_buffer_clear ISC__BUFFER_CLEAR #define isc_buffer_consumedregion ISC__BUFFER_CONSUMEDREGION #define isc_buffer_remainingregion ISC__BUFFER_REMAININGREGION #define isc_buffer_activeregion ISC__BUFFER_ACTIVEREGION #define isc_buffer_setactive ISC__BUFFER_SETACTIVE #define isc_buffer_first ISC__BUFFER_FIRST #define isc_buffer_forward ISC__BUFFER_FORWARD #define isc_buffer_back ISC__BUFFER_BACK #define isc_buffer_putmem ISC__BUFFER_PUTMEM #define isc_buffer_putstr ISC__BUFFER_PUTSTR #define isc_buffer_putuint8 ISC__BUFFER_PUTUINT8 #define isc_buffer_putuint16 ISC__BUFFER_PUTUINT16 #define isc_buffer_putuint24 ISC__BUFFER_PUTUINT24 #define isc_buffer_putuint32 ISC__BUFFER_PUTUINT32 #else #define isc_buffer_init isc__buffer_init #define isc_buffer_initnull isc__buffer_initnull #define isc_buffer_invalidate isc__buffer_invalidate #define isc_buffer_region isc__buffer_region #define isc_buffer_usedregion isc__buffer_usedregion #define isc_buffer_availableregion isc__buffer_availableregion #define isc_buffer_add isc__buffer_add #define isc_buffer_subtract isc__buffer_subtract #define isc_buffer_clear isc__buffer_clear #define isc_buffer_consumedregion isc__buffer_consumedregion #define isc_buffer_remainingregion isc__buffer_remainingregion #define isc_buffer_activeregion isc__buffer_activeregion #define isc_buffer_setactive isc__buffer_setactive #define isc_buffer_first isc__buffer_first #define isc_buffer_forward isc__buffer_forward #define isc_buffer_back isc__buffer_back #define isc_buffer_putmem isc__buffer_putmem #define isc_buffer_putstr isc__buffer_putstr #define isc_buffer_putuint8 isc__buffer_putuint8 #define isc_buffer_putuint16 isc__buffer_putuint16 #define isc_buffer_putuint24 isc__buffer_putuint24 #define isc_buffer_putuint32 isc__buffer_putuint32 #endif /* * No inline method for this one (yet). */ #define isc_buffer_putuint48 isc__buffer_putuint48 #endif /* ISC_BUFFER_H */