/* Copyright (C) 2001-2023 Artifex Software, Inc. All Rights Reserved. This software is provided AS-IS with no warranty, either express or implied. This software is distributed under license and may not be copied, modified or distributed except as expressly authorized under the terms of the license contained in the file LICENSE in this distribution. Refer to licensing information at http://www.artifex.com or contact Artifex Software, Inc., 39 Mesa Street, Suite 108A, San Francisco, CA 94129, USA, for further information. */ /* Definitions and declarations for clist implementation in memory. */ #ifndef gxclmem_INCLUDED # define gxclmem_INCLUDED #include "gxclio.h" /* defines interface */ #include "strimpl.h" /* stream structures */ /* * The best values of MEMFILE_DATA_SIZE are slightly less than a power of 2, * to allow typical malloc implementations to allocate in units of a power * of 2 rather than having to go slightly over. */ #define MEMFILE_DATA_SIZE (16384 - 160) /* ============================================================ */ /* */ /* Memfile structure definitions. */ /* */ /* The PHYS structures are the elements actually allocated in */ /* RAM, containing the compressed data (or optionally raw data) */ /* */ /* There can be several LOG (logical) elements per physical */ /* element, depending on the compression. The MEMFILE pdata */ /* item always points into a raw block of data. */ /* */ /* ============================================================ */ typedef struct RAW_BUFFER { struct RAW_BUFFER *fwd, *back; struct LOG_MEMFILE_BLK *log_blk; char data[MEMFILE_DATA_SIZE]; } RAW_BUFFER; typedef struct PHYS_MEMFILE_BLK { struct PHYS_MEMFILE_BLK *link; char *data_limit; /* end of data when compressed */ /* data_limit is NULL if not compressed */ char data_spare[4]; /* used during de-compress */ char data[MEMFILE_DATA_SIZE]; } PHYS_MEMFILE_BLK; typedef struct LOG_MEMFILE_BLK { struct LOG_MEMFILE_BLK *link; PHYS_MEMFILE_BLK *phys_blk; char *phys_pdata; RAW_BUFFER *raw_block; /* or NULL */ } LOG_MEMFILE_BLK; struct MEMFILE_s { gs_memory_t *memory; /* storage allocator */ gs_memory_t *data_memory; /* storage allocator for data */ bool ok_to_compress; /* if true, OK to compress this file */ bool is_open; /* track open/closed for each access struct */ /* * We need to maintain a linked list of other structs that * have beed opened on this 'file'. This allows for a writer * to create a file, close it (but not unlink it), then other * 'opens' of the same file, using the pseudo file-name that * consists of a flag 0xff byte followed by the address as * a 0x____ string. * * When the file is 'unlinked' it must check for other open * 'readers' and set the 'READER INSTANCE' values of the * cloned structures so that calls into 'read' and 'seek' * etc., will be harmless. */ struct MEMFILE_s *openlist; struct MEMFILE_s *base_memfile; /* reader instances set this to the file that was written */ /* * Reserve memory blocks: these are used to guarantee that a * given-sized write (or sequence of writes) will always succeed. * More specifically, the guarantee is that N bytes can successfully * be written after a low-memory warning is first returned by * fwrite. The reserve of N bytes for a given file is (re)allocated * by a successful call to memfile_set_memory_warning(N). Fwrite * allocates memory only from the reserve when its normal allocation * attempts fail; in such cases, it allocates blocks from the * reserve pool as needed and completes normally, but returns a * low-memory warning status. Once a low-memory warning has been * returned, fwrite will continue to attempt to allocate memory from * the usual allocator on subsequent fwrites, but does *not* try to * "top up" the reserve if becomes available -- only an explicit * memfile_set_memory_warning does so. */ PHYS_MEMFILE_BLK *reservePhysBlockChain; /* chain of reserve phys blks */ int reservePhysBlockCount; /* count of entries on reservePhysBlockChain */ LOG_MEMFILE_BLK *reserveLogBlockChain; /* chain of reserve log blks */ int reserveLogBlockCount; /* count of entries on reserveLogBlockChain */ /* logical file properties */ LOG_MEMFILE_BLK *log_head; LOG_MEMFILE_BLK *log_curr_blk; /******* READER INSTANCE *******/ int64_t log_length; /* updated during write */ int64_t log_curr_pos; /* updated during seek, close, read */ /******* READER INSTANCE *******/ char *pdata; /* raw data */ /******* READER INSTANCE *******/ char *pdata_end; /******* READER INSTANCE *******/ /* physical file properties */ int64_t total_space; /* so we know when to start compress */ PHYS_MEMFILE_BLK *phys_curr; /* NULL if not compressing */ /******* READER INSTANCE *******/ RAW_BUFFER *raw_head, *raw_tail ; /******* READER INSTANCE *******/ int error_code; /* used by CLIST_ferror */ /******* READER INSTANCE *******/ stream_cursor_read rd; /* use .ptr, .limit */ /******* READER INSTANCE *******/ stream_cursor_write wt; /* use .ptr, .limit */ /******* READER INSTANCE *******/ bool compressor_initialized; stream_state *compress_state; stream_state *decompress_state; /******* READER INSTANCE *******/ }; typedef struct MEMFILE_s MEMFILE; /* * Only the MEMFILE and stream_state structures are GC-compatible, so we * allocate all the other structures on the C heap. */ #define private_st_MEMFILE() /* in gxclmem.c */\ gs_private_st_ptrs2(st_MEMFILE, MEMFILE, "MEMFILE",\ MEMFILE_enum_ptrs, MEMFILE_reloc_ptrs, compress_state, decompress_state) /* Declare the procedures for returning the prototype filter states */ /* for compressing and decompressing the band list. */ const stream_template *clist_compressor_template(void); const stream_template *clist_decompressor_template(void); void clist_compressor_init(stream_state *state); void clist_decompressor_init(stream_state *state); #endif /* gxclmem_INCLUDED */