/* -*- tab-width: 4; -*- */ /* vi: set sw=2 ts=4 expandtab: */ /* * Copyright 2010-2020 The Khronos Group Inc. * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @~English * * @brief Implementation of ktxStream for memory. * * @author Maksim Kolesin, Under Development * @author Georg Kolling, Imagination Technology * @author Mark Callow, HI Corporation */ #include #include #include #include "ktx.h" #include "ktxint.h" #include "memstream.h" /** * @brief Default allocation size for a ktxMemStream. */ #define KTX_MEM_DEFAULT_ALLOCATED_SIZE 256 /** * @brief Structure to store information about data allocated for ktxMemStream. */ struct ktxMem { const ktx_uint8_t* robytes;/*!< pointer to read-only data */ ktx_uint8_t* bytes; /*!< pointer to rw data. */ ktx_size_t alloc_size; /*!< allocated size of the memory block. */ ktx_size_t used_size; /*!< bytes used. Effectively the write position. */ ktx_off_t pos; /*!< read/write position. */ }; static KTX_error_code ktxMem_expand(ktxMem* pMem, const ktx_size_t size); /** * @brief Initialize a ktxMem struct for read-write. * * Memory for the stream data is allocated internally but the * caller is responsible for freeing the memory. A pointer to * the memory can be obtained with ktxMem_getdata(). * * @sa ktxMem_getdata. * * @param [in] pMem pointer to the @c ktxMem to initialize. */ static KTX_error_code ktxMem_construct(ktxMem* pMem) { pMem->pos = 0; pMem->alloc_size = 0; pMem->robytes = 0; pMem->bytes = 0; pMem->used_size = 0; return ktxMem_expand(pMem, KTX_MEM_DEFAULT_ALLOCATED_SIZE); } /** * @brief Create & initialize a ktxMem struct for read-write. * * @sa ktxMem_construct. * * @param [in,out] ppMem pointer to the location in which to return * a pointer to the newly created @c ktxMem. * * @return KTX_SUCCESS on success, KTX_OUT_OF_MEMORY on error. * * @exception KTX_OUT_OF_MEMORY System failed to allocate sufficient pMemory. */ static KTX_error_code ktxMem_create(ktxMem** ppMem) { ktxMem* pNewMem = (ktxMem*)malloc(sizeof(ktxMem)); if (pNewMem) { KTX_error_code result = ktxMem_construct(pNewMem); if (result == KTX_SUCCESS) *ppMem = pNewMem; return result; } else { return KTX_OUT_OF_MEMORY; } } /** * @brief Initialize a ktxMem struct for read-only. * * @param [in] pMem pointer to the @c ktxMem to initialize. * @param [in] bytes pointer to the data to be read. * @param [in] numBytes number of bytes of data. */ static void ktxMem_construct_ro(ktxMem* pMem, const void* bytes, ktx_size_t numBytes) { pMem->pos = 0; pMem->robytes = bytes; pMem->bytes = 0; pMem->used_size = numBytes; pMem->alloc_size = numBytes; } /** * @brief Create & initialize a ktxMem struct for read-only. * * @sa ktxMem_construct. * * @param [in,out] ppMem pointer to the location in which to return * a pointer to the newly created @c ktxMem. * @param [in] bytes pointer to the data to be read. * @param [in] numBytes number of bytes of data. * * @return KTX_SUCCESS on success, KTX_OUT_OF_MEMORY on error. * * @exception KTX_OUT_OF_MEMORY System failed to allocate sufficient pMemory. */ static KTX_error_code ktxMem_create_ro(ktxMem** ppMem, const void* bytes, ktx_size_t numBytes) { ktxMem* pNewMem = (ktxMem*)malloc(sizeof(ktxMem)); if (pNewMem) { ktxMem_construct_ro(pNewMem, bytes, numBytes); *ppMem = pNewMem; return KTX_SUCCESS; } else { return KTX_OUT_OF_MEMORY; } } /* * ktxMem_destruct not needed as ktxMem_construct caller is reponsible * for freeing the data written. */ /** * @brief Free the memory of a struct ktxMem. * * @param pMem pointer to ktxMem to free. */ static void ktxMem_destroy(ktxMem* pMem, ktx_bool_t freeData) { assert(pMem != NULL); if (freeData) { free(pMem->bytes); } free(pMem); } #ifdef KTXMEM_CLEAR_USED /** * @brief Clear the data of a memory stream. * * @param pMem pointer to ktxMem to clear. */ static void ktxMem_clear(ktxMem* pMem) { assert(pMem != NULL); memset(pMem, 0, sizeof(ktxMem)); } #endif /** * @~English * @brief Expand a ktxMem to fit to a new size. * * @param [in] pMem pointer to ktxMem struct to expand. * @param [in] newsize minimum new size required. * * @return KTX_SUCCESS on success, KTX_OUT_OF_MEMORY on error. * * @exception KTX_OUT_OF_MEMORY System failed to allocate sufficient pMemory. */ static KTX_error_code ktxMem_expand(ktxMem *pMem, const ktx_size_t newsize) { ktx_size_t new_alloc_size; assert(pMem != NULL && newsize != 0); new_alloc_size = pMem->alloc_size == 0 ? KTX_MEM_DEFAULT_ALLOCATED_SIZE : pMem->alloc_size; while (new_alloc_size < newsize) { ktx_size_t alloc_size = new_alloc_size; new_alloc_size <<= 1; if (new_alloc_size < alloc_size) { /* Overflow. Set to maximum size. newsize can't be larger. */ new_alloc_size = (ktx_size_t)-1L; } } if (new_alloc_size == pMem->alloc_size) return KTX_SUCCESS; if (!pMem->bytes) pMem->bytes = (ktx_uint8_t*)malloc(new_alloc_size); else pMem->bytes = (ktx_uint8_t*)realloc(pMem->bytes, new_alloc_size); if (!pMem->bytes) { pMem->alloc_size = 0; pMem->used_size = 0; return KTX_OUT_OF_MEMORY; } pMem->alloc_size = new_alloc_size; return KTX_SUCCESS; } /** * @~English * @brief Read bytes from a ktxMemStream. * * @param [in] str pointer to ktxMem struct, converted to a void*, that * specifies an input stream. * @param [in,out] dst pointer to memory where to copy read bytes. * @param [in,out] count pointer to number of bytes to read. * * @return KTX_SUCCESS on success, KTX_INVALID_VALUE on error. * * @exception KTX_INVALID_VALUE @p str or @p dst is @c NULL or @p str->data is * @c NULL. * @exception KTX_FILE_UNEXPECTED_EOF not enough data to satisfy the request. */ static KTX_error_code ktxMemStream_read(ktxStream* str, void* dst, const ktx_size_t count) { ktxMem* mem; ktx_off_t newpos; const ktx_uint8_t* bytes; if (!str || (mem = str->data.mem)== 0) return KTX_INVALID_VALUE; newpos = mem->pos + count; /* The first clause checks for overflow. */ if (newpos < mem->pos || (ktx_uint32_t)newpos > mem->used_size) return KTX_FILE_UNEXPECTED_EOF; bytes = mem->robytes ? mem->robytes : mem->bytes; memcpy(dst, bytes + mem->pos, count); mem->pos = newpos; return KTX_SUCCESS; } /** * @~English * @brief Skip bytes in a ktxMemStream. * * @param [in] str pointer to the ktxStream on which to operate. * @param [in] count number of bytes to skip. * * @return KTX_SUCCESS on success, KTX_INVALID_VALUE on error. * * @exception KTX_INVALID_VALUE @p str or @p mem is @c NULL or sufficient * data is not available in ktxMem. * @exception KTX_FILE_UNEXPECTED_EOF not enough data to satisfy the request. */ static KTX_error_code ktxMemStream_skip(ktxStream* str, const ktx_size_t count) { ktxMem* mem; ktx_off_t newpos; if (!str || (mem = str->data.mem) == 0) return KTX_INVALID_VALUE; newpos = mem->pos + count; /* The first clause checks for overflow. */ if (newpos < mem->pos || (ktx_uint32_t)newpos > mem->used_size) return KTX_FILE_UNEXPECTED_EOF; mem->pos = newpos; return KTX_SUCCESS; } /** * @~English * @brief Write bytes to a ktxMemStream. * * @param [out] str pointer to the ktxStream that specifies the destination. * @param [in] src pointer to the array of elements to be written, * converted to a const void*. * @param [in] size size in bytes of each element to be written. * @param [in] count number of elements, each one with a @p size of size * bytes. * * @return KTX_SUCCESS on success, other KTX_* enum values on error. * * @exception KTX_FILE_OVERFLOW write would result in file exceeding the * maximum permissible size. * @exception KTX_INVALID_OPERATION @p str is a read-only stream. * @exception KTX_INVALID_VALUE @p dst is @c NULL or @p mem is @c NULL. * @exception KTX_OUT_OF_MEMORY See ktxMem_expand() for causes. */ static KTX_error_code ktxMemStream_write(ktxStream* str, const void* src, const ktx_size_t size, const ktx_size_t count) { ktxMem* mem; KTX_error_code rc = KTX_SUCCESS; ktx_size_t new_size; if (!str || (mem = str->data.mem) == 0) return KTX_INVALID_VALUE; if (mem->robytes) return KTX_INVALID_OPERATION; /* read-only */ new_size = mem->pos + (size*count); //if (new_size < mem->used_size) if ((ktx_off_t)new_size < mem->pos) return KTX_FILE_OVERFLOW; if (mem->alloc_size < new_size) { rc = ktxMem_expand(mem, new_size); if (rc != KTX_SUCCESS) return rc; } memcpy(mem->bytes + mem->pos, src, size*count); mem->pos += size*count; if (mem->pos > (ktx_off_t)mem->used_size) mem->used_size = mem->pos; return KTX_SUCCESS; } /** * @~English * @brief Get the current read/write position in a ktxMemStream. * * @param [in] str pointer to the ktxStream to query. * @param [in,out] off pointer to variable to receive the offset value. * * @return KTX_SUCCESS on success, other KTX_* enum values on error. * * @exception KTX_INVALID_VALUE @p str or @p pos is @c NULL. */ static KTX_error_code ktxMemStream_getpos(ktxStream* str, ktx_off_t* const pos) { if (!str || !pos) return KTX_INVALID_VALUE; assert(str->type == eStreamTypeMemory); *pos = str->data.mem->pos; return KTX_SUCCESS; } /** * @~English * @brief Set the current read/write position in a ktxMemStream. * * Offset of 0 is the start of the file. * * @param [in] str pointer to the ktxStream whose r/w position is to be set. * @param [in] off pointer to the offset value to set. * * @return KTX_SUCCESS on success, other KTX_* enum values on error. * * @exception KTX_INVALID_VALUE @p str is @c NULL. * @exception KTX_INVALID_OPERATION @p pos > size of the allocated memory. */ static KTX_error_code ktxMemStream_setpos(ktxStream* str, ktx_off_t pos) { if (!str) return KTX_INVALID_VALUE; assert(str->type == eStreamTypeMemory); if (pos > (ktx_off_t)str->data.mem->alloc_size) return KTX_INVALID_OPERATION; str->data.mem->pos = pos; return KTX_SUCCESS; } /** * @~English * @brief Get a pointer to a ktxMemStream's data. * * Gets a pointer to data that has been written to the stream. Returned * pointer will be 0 if stream is read-only. * * @param [in] str pointer to the ktxStream whose data pointer is to * be queried. * @param [in,out] ppBytes pointer to a variable in which the data pointer * will be written. * * @return KTX_SUCCESS on success, other KTX_* enum values on error. * * @exception KTX_INVALID_VALUE @p str or @p ppBytes is @c NULL. */ KTX_error_code ktxMemStream_getdata(ktxStream* str, ktx_uint8_t** ppBytes) { if (!str || !ppBytes) return KTX_INVALID_VALUE; assert(str->type == eStreamTypeMemory); *ppBytes = str->data.mem->bytes; return KTX_SUCCESS; } /** * @~English * @brief Get the size of a ktxMemStream in bytes. * * @param [in] str pointer to the ktxStream whose size is to be queried. * @param [in,out] size pointer to a variable in which size will be written. * * @return KTX_SUCCESS on success, other KTX_* enum values on error. * * @exception KTX_INVALID_VALUE @p str or @p pSize is @c NULL. */ static KTX_error_code ktxMemStream_getsize(ktxStream* str, ktx_size_t* pSize) { if (!str || !pSize) return KTX_INVALID_VALUE; assert(str->type == eStreamTypeMemory); *pSize = str->data.mem->used_size; return KTX_SUCCESS; } /** * @~English * @brief Setup ktxMemStream function pointers. */ void ktxMemStream_setup(ktxStream* str) { str->type = eStreamTypeMemory; str->read = ktxMemStream_read; str->skip = ktxMemStream_skip; str->write = ktxMemStream_write; str->getpos = ktxMemStream_getpos; str->setpos = ktxMemStream_setpos; str->getsize = ktxMemStream_getsize; str->destruct = ktxMemStream_destruct; } /** * @~English * @brief Initialize a read-write ktxMemStream. * * Memory is allocated as data is written. The caller of this is * responsible for freeing this memory unless @a freeOnDestruct * is not KTX_FALSE. * * @param [in] str pointer to a ktxStream struct to initialize. * @param [in] freeOnDestruct If not KTX_FALSE memory holding the data will * be freed by the destructor. * * @return KTX_SUCCESS on success, other KTX_* enum values on error. * * @exception KTX_INVALID_VALUE @p str is @c NULL. * @exception KTX_OUT_OF_MEMORY system failed to allocate sufficient memory. */ KTX_error_code ktxMemStream_construct(ktxStream* str, ktx_bool_t freeOnDestruct) { ktxMem* mem; KTX_error_code result = KTX_SUCCESS; if (!str) return KTX_INVALID_VALUE; result = ktxMem_create(&mem); if (KTX_SUCCESS == result) { str->data.mem = mem; ktxMemStream_setup(str); str->closeOnDestruct = freeOnDestruct; } return result; } /** * @~English * @brief Initialize a read-only ktxMemStream. * * @param [in] str pointer to a ktxStream struct to initialize. * @param [in] bytes pointer to an array of bytes containing the data. * @param [in] numBytes size of array of data for ktxMemStream. * * @return KTX_SUCCESS on success, other KTX_* enum values on error. * * @exception KTX_INVALID_VALUE @p str or @p mem is @c NULL or @p numBytes * is 0. * or @p size is less than 0. * @exception KTX_OUT_OF_MEMORY system failed to allocate sufficient memory. */ KTX_error_code ktxMemStream_construct_ro(ktxStream* str, const ktx_uint8_t* bytes, const ktx_size_t numBytes) { ktxMem* mem; KTX_error_code result = KTX_SUCCESS; if (!str || !bytes || numBytes == 0) return KTX_INVALID_VALUE; result = ktxMem_create_ro(&mem, bytes, numBytes); if (KTX_SUCCESS == result) { str->data.mem = mem; ktxMemStream_setup(str); str->closeOnDestruct = KTX_FALSE; } return result; } /** * @~English * @brief Free the memory used by a ktxMemStream. * * This only frees the memory used to store the data written to the stream, * if the @c freeOnDestruct parameter to ktxMemStream_construct() was not * @c KTX_FALSE. Otherwise it is the responsibility of the caller of * ktxMemStream_construct() and a pointer to this memory should be retrieved * using ktxMemStream_getdata() before calling this function. * * @sa ktxMemStream_construct, ktxMemStream_getdata. * * @param [in] str pointer to the ktxStream whose memory is * to be freed. */ void ktxMemStream_destruct(ktxStream* str) { assert(str && str->type == eStreamTypeMemory); ktxMem_destroy(str->data.mem, str->closeOnDestruct); str->data.mem = NULL; }