/* xdelta 3 - delta compression tools and library * Copyright (C) 2001, 2002, 2003, 2004, 2005, 2006, 2007, * 2008, 2009 * Joshua P. MacDonald * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* This is all the extra stuff you need for convenience to users in a * command line application. It contains these major components: * * 1. VCDIFF tools 2. external compression support (this is * POSIX-specific). 3. a general read/write loop that handles all of * the Xdelta decode/encode/VCDIFF-print functions 4. command-line * interpreter 5. an Xdelta application header which stores default * filename, external compression settings 6. output/error printing * 7. basic file support and OS interface */ /* TODO list: 1. do exact gzip-like filename, stdout handling. make a * .vcdiff extension, refuse to encode to stdout without -cf, etc. * 2. Allow the user to add a comment string to the app header without * disturbing the default behavior. 3. "Source file must be seekable" * is not actually true for encoding, given current behavior. Allow * non-seekable sources? It would in theory let you use a fifo for * the source. */ /* On error handling and printing: * * The xdelta library sets stream->msg to indicate what condition * caused an internal failure, but many failures originate here and * are printed here. The return convention is 0 for success, as * throughout Xdelta code, but special attention is required here for * the operating system calls with different error handling. See the * main_file_* routines. All errors in this file have a message * printed at the time of occurance. Since some of these calls occur * within calls to the library, the error may end up being printed * again with a more general error message. */ /*********************************************************************/ #ifndef XD3_POSIX #define XD3_POSIX 0 #endif #ifndef XD3_STDIO #define XD3_STDIO 0 #endif #ifndef XD3_WIN32 #define XD3_WIN32 0 #endif #ifndef NOT_MAIN #define NOT_MAIN 0 #endif /* Combines xd3_strerror() and strerror() */ const char* xd3_mainerror(int err_num); /* XPRINTX (used by main) prefixes an "xdelta3: " to the output. */ #define XPR fprintf #define NT stderr, "xdelta3: " /* If none are set, default to posix. */ #if (XD3_POSIX + XD3_STDIO + XD3_WIN32) == 0 #undef XD3_POSIX #define XD3_POSIX 1 #endif /* Handle externally-compressed inputs. */ #ifndef EXTERNAL_COMPRESSION #define EXTERNAL_COMPRESSION 1 #endif #define PRINTHDR_SPECIAL -4378291 /* The number of soft-config variables. */ #define XD3_SOFTCFG_VARCNT 7 /* this is used as in XPR(NT XD3_LIB_ERRMSG (stream, ret)) to print an * error message from the library. */ #define XD3_LIB_ERRMSG(stream, ret) "%s: %s\n", \ xd3_errstring (stream), xd3_mainerror (ret) #include /* fprintf */ #if XD3_POSIX #include /* close, read, write... */ #include #include #endif #ifndef _WIN32 #include /* lots */ #include /* gettimeofday() */ #include /* stat() and fstat() */ #else #if defined(_MSC_VER) #define strtoll _strtoi64 #endif #include #include #ifndef WIFEXITED # define WIFEXITED(stat) (((*((int *) &(stat))) & 0xff) == 0) #endif #ifndef WEXITSTATUS # define WEXITSTATUS(stat) (((*((int *) &(stat))) >> 8) & 0xff) #endif #ifndef S_ISREG //# ifdef S_IFREG //# define S_ISREG(m) (((m) & S_IFMT) == S_IFREG) //# else # define S_ISREG(m) 1 //# endif #endif /* !S_ISREG */ // For standard input/output handles static STARTUPINFO winStartupInfo; #endif /********************************************************************** ENUMS and TYPES *********************************************************************/ /* These flags (mainly pertaining to main_read() operations) are set * in the main_file->flags variable. All are related to with external * decompression support. * * RD_FIRST causes the external decompression check when the input is * first read. * * RD_NONEXTERNAL disables external decompression for reading a * compressed input, in the case of Xdelta inputs. Note: Xdelta is * supported as an external compression type, which makes is the * reason for this flag. An example to justify this is: to create a * delta between two files that are VCDIFF-compressed. Two external * Xdelta decoders are run to supply decompressed source and target * inputs to the Xdelta encoder. */ typedef enum { RD_FIRST = (1 << 0), RD_NONEXTERNAL = (1 << 1), RD_EXTERNAL_V1 = (1 << 2), } xd3_read_flags; /* main_file->mode values */ typedef enum { XO_READ = 0, XO_WRITE = 1, } main_file_modes; /* Main commands. For example, CMD_PRINTHDR is the "xdelta printhdr" * command. */ typedef enum { CMD_NONE = 0, CMD_PRINTHDR, CMD_PRINTHDRS, CMD_PRINTDELTA, CMD_RECODE, CMD_MERGE_ARG, CMD_MERGE, #if XD3_ENCODER CMD_ENCODE, #endif CMD_DECODE, CMD_TEST, CMD_CONFIG, } xd3_cmd; #if XD3_ENCODER #define CMD_DEFAULT CMD_ENCODE #define IS_ENCODE(cmd) (cmd == CMD_ENCODE) #else #define CMD_DEFAULT CMD_DECODE #define IS_ENCODE(cmd) (0) #endif typedef struct _main_file main_file; typedef struct _main_extcomp main_extcomp; typedef struct _main_blklru main_blklru; typedef struct _main_blklru_list main_blklru_list; typedef struct _main_merge main_merge; typedef struct _main_merge_list main_merge_list; /* The main_file object supports abstract system calls like open, * close, read, write, seek, stat. The program uses these to * represent both seekable files and non-seekable files. Source files * must be seekable, but the target input and any output file do not * require seekability. */ struct _main_file { #if XD3_STDIO FILE *file; #elif XD3_POSIX int file; #elif XD3_WIN32 HANDLE file; #endif int mode; /* XO_READ and XO_WRITE */ const char *filename; /* File name or /dev/stdin, * /dev/stdout, /dev/stderr. */ char *filename_copy; /* File name or /dev/stdin, * /dev/stdout, /dev/stderr. */ const char *realname; /* File name or /dev/stdin, * /dev/stdout, /dev/stderr. */ const main_extcomp *compressor; /* External compression struct. */ int flags; /* RD_FIRST, RD_NONEXTERNAL, ... */ xoff_t nread; /* for input position */ xoff_t nwrite; /* for output position */ uint8_t *snprintf_buf; /* internal snprintf() use */ xoff_t source_position; /* for avoiding seek in getblk_func */ int seek_failed; /* after seek fails once */ }; /* Various strings and magic values used to detect and call external * compression. See below for examples. */ struct _main_extcomp { const char *recomp_cmdname; const char *recomp_options; const char *decomp_cmdname; const char *decomp_options; const char *ident; const char *magic; usize_t magic_size; int flags; }; /* This file implements a small LRU of source blocks. For encoding purposes, * we prevent paging in blocks we've already scanned in the source (return * XD3_NOTAVAIL). */ struct _main_blklru_list { main_blklru_list *next; main_blklru_list *prev; }; struct _main_blklru { uint8_t *blk; xoff_t blkno; usize_t size; main_blklru_list link; }; #define LRU_SIZE 32U #define XD3_MINSRCWINSZ XD3_ALLOCSIZE /* ... represented as a list (no cache index). */ XD3_MAKELIST(main_blklru_list,main_blklru,link); /* Merge state: */ struct _main_merge_list { main_merge_list *next; main_merge_list *prev; }; struct _main_merge { const char *filename; main_merge_list link; }; XD3_MAKELIST(main_merge_list,main_merge,link); // TODO: really need to put options in a struct so that internal // callers can easily reset state. #define DEFAULT_VERBOSE 0 /* Program options: various command line flags and options. */ static int option_stdout = 0; static int option_force = 0; static int option_verbose = DEFAULT_VERBOSE; static int option_quiet = 0; static int option_use_appheader = 1; static uint8_t* option_appheader = NULL; static int option_use_secondary = 0; static char* option_secondary = NULL; static int option_use_checksum = 1; static int option_use_altcodetable = 0; static char* option_smatch_config = NULL; static int option_no_compress = 0; static int option_no_output = 0; /* do not write output */ static const char *option_source_filename = NULL; static int option_level = XD3_DEFAULT_LEVEL; static usize_t option_iopt_size = XD3_DEFAULT_IOPT_SIZE; static usize_t option_winsize = XD3_DEFAULT_WINSIZE; static usize_t option_srcwinsz = XD3_DEFAULT_SRCWINSZ; static usize_t option_sprevsz = XD3_DEFAULT_SPREVSZ; /* These variables are supressed to avoid their use w/o support. main() warns * appropriately. */ #if EXTERNAL_COMPRESSION static int option_decompress_inputs = 1; static int option_recompress_outputs = 1; #endif /* This is for comparing "printdelta" output without attention to * copy-instruction modes. */ #if VCDIFF_TOOLS static int option_print_cpymode = 1; /* Note: see reset_defaults(). */ #endif /* Static variables */ IF_DEBUG(static int main_mallocs = 0;) static char* program_name = NULL; static uint8_t* appheader_used = NULL; static uint8_t* main_bdata = NULL; static usize_t main_bsize = 0; /* The LRU: obviously this is shared by all callers. */ static usize_t lru_size = 0; static main_blklru *lru = NULL; /* array of lru_size elts */ static main_blklru_list lru_list; static main_blklru_list lru_free; static int do_not_lru = 0; /* set to avoid lru */ static int lru_hits = 0; static int lru_misses = 0; static int lru_filled = 0; /* Hacks for VCDIFF tools */ static int allow_fake_source = 0; /* recode_stream is used by both recode/merge for reading vcdiff inputs */ static xd3_stream *recode_stream = NULL; /* merge_stream is used by merge commands for storing the source encoding */ static xd3_stream *merge_stream = NULL; /* This array of compressor types is compiled even if EXTERNAL_COMPRESSION is * false just so the program knows the mapping of IDENT->NAME. */ static main_extcomp extcomp_types[] = { /* The entry for xdelta3 must be 0 because the program_name is set there. */ { "xdelta3", "-cfq", "xdelta3", "-dcfq", "X", "\xd6\xc3\xc4", 3, RD_NONEXTERNAL }, { "bzip2", "-cf", "bzip2", "-dcf", "B", "BZh", 3, 0 }, { "gzip", "-cf", "gzip", "-dcf", "G", "\037\213", 2, 0 }, { "compress", "-cf", "uncompress", "-cf", "Z", "\037\235", 2, 0 }, /* TODO: add commandline support for magic-less formats */ /*{ "lzma", "-cf", "lzma", "-dcf", "M", "]\000", 2, 0 },*/ }; // }; static int main_input (xd3_cmd cmd, main_file *ifile, main_file *ofile, main_file *sfile); static void main_get_appheader (xd3_stream *stream, main_file *ifile, main_file *output, main_file *sfile); static int main_getblk_func (xd3_stream *stream, xd3_source *source, xoff_t blkno); static int main_help (void); static int main_version (void) { /* $Format: " DP(RINT \"Xdelta version $Xdelta3Version$, Copyright (C) 2007, 2008, Joshua MacDonald\n\");" $ */ DP(RINT "Xdelta version 3.0w, Copyright (C) 2007, 2008, Joshua MacDonald\n"); DP(RINT "Xdelta comes with ABSOLUTELY NO WARRANTY.\n"); DP(RINT "This is free software, and you are welcome to redistribute it\n"); DP(RINT "under certain conditions; see \"COPYING\" for details.\n"); return EXIT_SUCCESS; } static int main_config (void) { main_version (); DP(RINT "EXTERNAL_COMPRESSION=%d\n", EXTERNAL_COMPRESSION); DP(RINT "GENERIC_ENCODE_TABLES=%d\n", GENERIC_ENCODE_TABLES); DP(RINT "GENERIC_ENCODE_TABLES_COMPUTE=%d\n", GENERIC_ENCODE_TABLES_COMPUTE); DP(RINT "REGRESSION_TEST=%d\n", REGRESSION_TEST); DP(RINT "SECONDARY_DJW=%d\n", SECONDARY_DJW); DP(RINT "SECONDARY_FGK=%d\n", SECONDARY_FGK); DP(RINT "UNALIGNED_OK=%d\n", UNALIGNED_OK); DP(RINT "VCDIFF_TOOLS=%d\n", VCDIFF_TOOLS); DP(RINT "XD3_ALLOCSIZE=%d\n", XD3_ALLOCSIZE); DP(RINT "XD3_DEBUG=%d\n", XD3_DEBUG); DP(RINT "XD3_ENCODER=%d\n", XD3_ENCODER); DP(RINT "XD3_POSIX=%d\n", XD3_POSIX); DP(RINT "XD3_STDIO=%d\n", XD3_STDIO); DP(RINT "XD3_WIN32=%d\n", XD3_WIN32); DP(RINT "XD3_USE_LARGEFILE64=%d\n", XD3_USE_LARGEFILE64); DP(RINT "XD3_DEFAULT_LEVEL=%d\n", XD3_DEFAULT_LEVEL); DP(RINT "XD3_DEFAULT_IOPT_SIZE=%d\n", XD3_DEFAULT_IOPT_SIZE); DP(RINT "XD3_DEFAULT_SPREVSZ=%d\n", XD3_DEFAULT_SPREVSZ); DP(RINT "XD3_DEFAULT_SRCWINSZ=%d\n", XD3_DEFAULT_SRCWINSZ); DP(RINT "XD3_DEFAULT_WINSIZE=%d\n", XD3_DEFAULT_WINSIZE); DP(RINT "XD3_HARDMAXWINSIZE=%d\n", XD3_HARDMAXWINSIZE); DP(RINT "sizeof(void*)=%ld\n", sizeof(void*)); DP(RINT "sizeof(int)=%ld\n", sizeof(int)); DP(RINT "sizeof(uint32_t)=%ld\n", sizeof(uint32_t)); DP(RINT "sizeof(uint64_t)=%ld\n", sizeof(uint64_t)); DP(RINT "sizeof(usize_t)=%ld\n", sizeof(usize_t)); DP(RINT "sizeof(xoff_t)=%ld\n", sizeof(xoff_t)); return EXIT_SUCCESS; } static void reset_defaults(void) { option_stdout = 0; option_force = 0; option_verbose = DEFAULT_VERBOSE; option_quiet = 0; option_appheader = NULL; option_use_secondary = 0; option_secondary = NULL; option_use_altcodetable = 0; option_smatch_config = NULL; option_no_compress = 0; option_no_output = 0; option_source_filename = NULL; program_name = NULL; appheader_used = NULL; main_bdata = NULL; main_bsize = 0; lru_size = 0; lru = NULL; do_not_lru = 0; lru_hits = 0; lru_misses = 0; lru_filled = 0; allow_fake_source = 0; option_smatch_config = NULL; option_use_appheader = 1; option_use_checksum = 1; #if EXTERNAL_COMPRESSION option_decompress_inputs = 1; option_recompress_outputs = 1; #endif #if VCDIFF_TOOLS option_print_cpymode = 1; #endif option_level = XD3_DEFAULT_LEVEL; option_iopt_size = XD3_DEFAULT_IOPT_SIZE; option_winsize = XD3_DEFAULT_WINSIZE; option_srcwinsz = XD3_DEFAULT_SRCWINSZ; option_sprevsz = XD3_DEFAULT_SPREVSZ; } static void* main_malloc1 (usize_t size) { void* r = malloc (size); if (r == NULL) { XPR(NT "malloc: %s\n", xd3_mainerror (ENOMEM)); } else if (option_verbose > 3) { XPR(NT "malloc: %u: %p\n", size, r); } return r; } static void* main_malloc (usize_t size) { void *r = main_malloc1 (size); if (r) { IF_DEBUG (main_mallocs += 1); } return r; } static void* main_alloc (void *opaque, usize_t items, usize_t size) { return main_malloc1 (items * size); } static void main_free1 (void *opaque, void *ptr) { if (option_verbose > 3) { XPR(NT "free: %p\n", ptr); } free (ptr); } static void main_free (void *ptr) { if (ptr) { IF_DEBUG (main_mallocs -= 1); main_free1 (NULL, ptr); IF_DEBUG (XD3_ASSERT(main_mallocs >= 0)); } } /* This ensures that (ret = errno) always indicates failure, in case errno was * accidentally not set. If this prints there's a bug somewhere. */ static int get_errno (void) { #ifndef _WIN32 if (errno == 0) { XPR(NT "you found a bug: expected errno != 0\n"); errno = XD3_INTERNAL; } return errno; #else DWORD errNum = GetLastError(); if (errNum == NO_ERROR) { errNum = XD3_INTERNAL; } return errNum; #endif } const char* xd3_mainerror(int err_num) { #ifndef _WIN32 const char* x = xd3_strerror (err_num); if (x != NULL) { return x; } return strerror(err_num); #else static char err_buf[256]; const char* x = xd3_strerror (err_num); if (x != NULL) { return x; } memset (err_buf, 0, 256); FormatMessage (FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, err_num, MAKELANGID (LANG_NEUTRAL, SUBLANG_DEFAULT), err_buf, 256, NULL); return err_buf; #endif } static long get_millisecs_now (void) { #ifndef _WIN32 struct timeval tv; gettimeofday (& tv, NULL); return (tv.tv_sec) * 1000L + (tv.tv_usec) / 1000; #else SYSTEMTIME st; FILETIME ft; __int64 *pi = (__int64*)&ft; GetLocalTime(&st); SystemTimeToFileTime(&st, &ft); return (long)((*pi) / 10000); #endif } /* Always >= 1 millisec, right? */ static long get_millisecs_since (void) { static long last = 0; long now = get_millisecs_now(); long diff = now - last; last = now; return diff; } static char* main_format_bcnt (xoff_t r, char *buf) { static const char* fmts[] = { "B", "KB", "MB", "GB" }; usize_t i; for (i = 0; i < SIZEOF_ARRAY(fmts); i += 1) { if (r <= (10 * 1024) || i == (-1 + (int)SIZEOF_ARRAY(fmts))) { sprintf (buf, "%"Q"u %s", r, fmts[i]); break; } r /= 1024; } return buf; } static char* main_format_rate (xoff_t bytes, long millis, char *buf) { xoff_t r = (xoff_t)(1.0 * bytes / (1.0 * millis / 1000.0)); static char lbuf[32]; main_format_bcnt (r, lbuf); sprintf (buf, "%s/sec", lbuf); return buf; } static char* main_format_millis (long millis, char *buf) { if (millis < 1000) { sprintf (buf, "%lu ms", millis); } else if (millis < 10000) { sprintf (buf, "%.1f sec", millis / 1000.0); } else { sprintf (buf, "%lu sec", millis / 1000L); } return buf; } /* A safe version of strtol for xoff_t. */ static int main_strtoxoff (const char* s, xoff_t *xo, char which) { char *e; xoff_t x; XD3_ASSERT(s && *s != 0); { /* Should check LONG_MIN, LONG_MAX, LLONG_MIN, LLONG_MAX? */ #if SIZEOF_XOFF_T == 4 long xx = strtol (s, &e, 0); #else long long xx = strtoll (s, &e, 0); #endif if (xx < 0) { XPR(NT "-%c: negative integer: %s\n", which, s); return EXIT_FAILURE; } x = xx; } if (*e != 0) { XPR(NT "-%c: invalid integer: %s\n", which, s); return EXIT_FAILURE; } (*xo) = x; return 0; } static int main_atou (const char* arg, usize_t *xo, usize_t low, usize_t high, char which) { xoff_t x; int ret; if ((ret = main_strtoxoff (arg, & x, which))) { return ret; } if (x < low) { XPR(NT "-%c: minimum value: %u\n", which, low); return EXIT_FAILURE; } if (high == 0) { high = USIZE_T_MAX; } if (x > high) { XPR(NT "-%c: maximum value: %u\n", which, high); return EXIT_FAILURE; } (*xo) = (usize_t)x; return 0; } /****************************************************************** FILE BASICS ******************************************************************/ /* With all the variation in file system-call semantics, arguments, * return values and error-handling for the POSIX and STDIO file APIs, * the insides of these functions make me sick, which is why these * wrappers exist. */ #define XOPEN_OPNAME (xfile->mode == XO_READ ? "read" : "write") #define XOPEN_STDIO (xfile->mode == XO_READ ? "rb" : "wb") #define XOPEN_POSIX (xfile->mode == XO_READ ? \ O_RDONLY : O_WRONLY | O_CREAT | O_TRUNC) #define XOPEN_MODE (xfile->mode == XO_READ ? 0 : 0666) #define XF_ERROR(op, name, ret) \ do { if (!option_quiet) { XPR(NT "file %s failed: %s: %s: %s\n", (op), \ XOPEN_OPNAME, (name), xd3_mainerror (ret)); } } while (0) #if XD3_STDIO #define XFNO(f) fileno(f->file) #define XSTDOUT_XF(f) { (f)->file = stdout; (f)->filename = "/dev/stdout"; } #define XSTDIN_XF(f) { (f)->file = stdin; (f)->filename = "/dev/stdin"; } #elif XD3_POSIX #define XFNO(f) f->file #define XSTDOUT_XF(f) \ { (f)->file = STDOUT_FILENO; (f)->filename = "/dev/stdout"; } #define XSTDIN_XF(f) \ { (f)->file = STDIN_FILENO; (f)->filename = "/dev/stdin"; } #elif XD3_WIN32 #define XFNO(f) -1 #define XSTDOUT_XF(f) { \ (f)->file = GetStdHandle(STD_OUTPUT_HANDLE); \ (f)->filename = "(stdout)"; \ } #define XSTDIN_XF(f) { \ (f)->file = GetStdHandle(STD_INPUT_HANDLE); \ (f)->filename = "(stdin)"; \ } #endif static void main_file_init (main_file *xfile) { memset (xfile, 0, sizeof (*xfile)); #if XD3_POSIX xfile->file = -1; #endif #if XD3_WIN32 xfile->file = INVALID_HANDLE_VALUE; #endif } static int main_file_isopen (main_file *xfile) { #if XD3_STDIO return xfile->file != NULL; #elif XD3_POSIX return xfile->file != -1; #elif XD3_WIN32 return xfile->file != INVALID_HANDLE_VALUE; #endif } static int main_file_close (main_file *xfile) { int ret = 0; if (! main_file_isopen (xfile)) { return 0; } #if XD3_STDIO ret = fclose (xfile->file); xfile->file = NULL; #elif XD3_POSIX ret = close (xfile->file); xfile->file = -1; #elif XD3_WIN32 if (!CloseHandle(xfile->file)) { ret = get_errno (); } xfile->file = INVALID_HANDLE_VALUE; #endif if (ret != 0) { XF_ERROR ("close", xfile->filename, ret = get_errno ()); } return ret; } static void main_file_cleanup (main_file *xfile) { XD3_ASSERT (xfile != NULL); if (main_file_isopen (xfile)) { main_file_close (xfile); } if (xfile->snprintf_buf != NULL) { main_free(xfile->snprintf_buf); xfile->snprintf_buf = NULL; } if (xfile->filename_copy != NULL) { main_free(xfile->filename_copy); xfile->filename_copy = NULL; } } static int main_file_open (main_file *xfile, const char* name, int mode) { int ret = 0; xfile->mode = mode; XD3_ASSERT (name != NULL); XD3_ASSERT (! main_file_isopen (xfile)); if (name[0] == 0) { XPR(NT "invalid file name: empty string\n"); return XD3_INVALID; } #if XD3_STDIO xfile->file = fopen (name, XOPEN_STDIO); ret = (xfile->file == NULL) ? get_errno () : 0; #elif XD3_POSIX if ((ret = open (name, XOPEN_POSIX, XOPEN_MODE)) < 0) { ret = get_errno (); } else { xfile->file = ret; ret = 0; } #elif XD3_WIN32 xfile->file = CreateFile(name, (mode == XO_READ) ? GENERIC_READ : GENERIC_WRITE, FILE_SHARE_READ, NULL, (mode == XO_READ) ? OPEN_EXISTING : (option_force ? CREATE_ALWAYS : CREATE_NEW), FILE_ATTRIBUTE_NORMAL, NULL); if (xfile->file == INVALID_HANDLE_VALUE) { ret = get_errno (); } #endif if (ret) { XF_ERROR ("open", name, ret); } else { xfile->realname = name; xfile->nread = 0; } return ret; } static int main_file_stat (main_file *xfile, xoff_t *size) { int ret = 0; #if XD3_WIN32 # if (_WIN32_WINNT >= 0x0500) LARGE_INTEGER li; if (GetFileSizeEx(xfile->file, &li) == 0) { ret = get_errno (); } else { *size = li.QuadPart; } # else DWORD filesize = GetFileSize(xfile->file, NULL); if (filesize == INVALID_FILE_SIZE) { ret = GetLastError(); if (ret != NO_ERROR) { return ret; } } *size = filesize; # endif #else struct stat sbuf; if (fstat (XFNO (xfile), & sbuf) < 0) { ret = get_errno (); return ret; } if (! S_ISREG (sbuf.st_mode)) { return ESPIPE; } (*size) = sbuf.st_size; #endif return ret; } static int main_file_exists (main_file *xfile) { struct stat sbuf; return stat (xfile->filename, & sbuf) == 0 && S_ISREG (sbuf.st_mode); } #if (XD3_POSIX || EXTERNAL_COMPRESSION) /* POSIX-generic code takes a function pointer to read() or write(). * This calls the function repeatedly until the buffer is full or EOF. * The NREAD parameter is not set for write, NULL is passed. Return * is signed, < 0 indicate errors, otherwise byte count. */ typedef int (xd3_posix_func) (int fd, uint8_t *buf, usize_t size); static int xd3_posix_io (int fd, uint8_t *buf, usize_t size, xd3_posix_func *func, usize_t *nread) { int ret; usize_t nproc = 0; while (nproc < size) { int result = (*func) (fd, buf + nproc, size - nproc); if (result < 0) { ret = get_errno (); if (ret != EAGAIN && ret != EINTR) { return ret; } result = 0; } if (nread != NULL && result == 0) { break; } nproc += result; } if (nread != NULL) { (*nread) = nproc; } return 0; } #endif /* POSIX is unbuffered, while STDIO is buffered. main_file_read() * should always be called on blocks. */ static int main_file_read (main_file *ifile, uint8_t *buf, usize_t size, usize_t *nread, const char *msg) { int ret = 0; #if XD3_STDIO usize_t result; result = fread (buf, 1, size, ifile->file); if (result < size && ferror (ifile->file)) { ret = get_errno (); } else { *nread = result; } #elif XD3_POSIX ret = xd3_posix_io (ifile->file, buf, size, (xd3_posix_func*) &read, nread); #elif XD3_WIN32 DWORD nread2; if (ReadFile (ifile->file, buf, size, &nread2, NULL) == 0) { ret = get_errno(); } else { *nread = (usize_t)nread2; } #endif if (ret) { XPR(NT "%s: %s: %s\n", msg, ifile->filename, xd3_mainerror (ret)); } else { if (option_verbose > 3) { XPR(NT "main read: %s: %u\n", ifile->filename, (*nread)); } ifile->nread += (*nread); } return ret; } static int main_file_write (main_file *ofile, uint8_t *buf, usize_t size, const char *msg) { int ret = 0; #if XD3_STDIO usize_t result; result = fwrite (buf, 1, size, ofile->file); if (result != size) { ret = get_errno (); } #elif XD3_POSIX ret = xd3_posix_io (ofile->file, buf, size, (xd3_posix_func*) &write, NULL); #elif XD3_WIN32 DWORD nwrite; if (WriteFile(ofile->file, buf, size, &nwrite, NULL) == 0) { ret = get_errno (); } else { if (size != nwrite) { XPR(NT "Incorrect write count"); ret = XD3_INTERNAL; } } #endif if (ret) { XPR(NT "%s: %s: %s\n", msg, ofile->filename, xd3_mainerror (ret)); } else { if (option_verbose > 3) { XPR(NT "main write: %s: %u\n", ofile->filename, size); } ofile->nwrite += size; } return ret; } static int main_file_seek (main_file *xfile, xoff_t pos) { int ret = 0; #if XD3_STDIO if (fseek (xfile->file, pos, SEEK_SET) != 0) { ret = get_errno (); } #elif XD3_POSIX if ((xoff_t) lseek (xfile->file, pos, SEEK_SET) != pos) { ret = get_errno (); } #elif XD3_WIN32 # if (_WIN32_WINNT >= 0x0500) LARGE_INTEGER move, out; move.QuadPart = pos; if (SetFilePointerEx(xfile->file, move, &out, FILE_BEGIN) == 0) { ret = get_errno (); } # else if (SetFilePointer(xfile->file, (LONG)pos, NULL, FILE_BEGIN) == INVALID_SET_FILE_POINTER) { ret = get_errno (); } # endif #endif if (ret) { XPR(NT "seek to %"Q"u failed: %s: %s\n", pos, xfile->filename, xd3_mainerror (ret)); } return ret; } /* This function simply writes the stream output buffer, if there is * any, for encode, decode and recode commands. (The VCDIFF tools use * main_print_func()). */ static int main_write_output (xd3_stream* stream, main_file *ofile) { int ret; if (option_no_output) { return 0; } if (stream->avail_out > 0 && (ret = main_file_write (ofile, stream->next_out, stream->avail_out, "write failed"))) { return ret; } return 0; } static int main_set_secondary_flags (xd3_config *config) { int ret; if (option_use_secondary) { /* The default secondary compressor is DJW, if it's compiled. */ if (option_secondary == NULL) { if (SECONDARY_DJW) { config->flags |= XD3_SEC_DJW; } } else { if (strcmp (option_secondary, "fgk") == 0 && SECONDARY_FGK) { config->flags |= XD3_SEC_FGK; } else if (strncmp (option_secondary, "djw", 3) == 0 && SECONDARY_DJW) { usize_t level = XD3_DEFAULT_SECONDARY_LEVEL; config->flags |= XD3_SEC_DJW; if (strlen (option_secondary) > 3 && (ret = main_atou (option_secondary + 3, &level, 0, 9, 'S')) != 0 && !option_quiet) { return XD3_INVALID; } /* XD3_SEC_NOXXXX flags disable secondary compression on * a per-section basis. For djw, ngroups=1 indicates * minimum work, ngroups=0 uses default settings, which * is > 1 groups by default. */ if (level < 1) { config->flags |= XD3_SEC_NODATA; } if (level < 7) { config->sec_data.ngroups = 1; } else { config->sec_data.ngroups = 0; } if (level < 3) { config->flags |= XD3_SEC_NOINST; } if (level < 8) { config->sec_inst.ngroups = 1; } else { config->sec_inst.ngroups = 0; } if (level < 5) { config->flags |= XD3_SEC_NOADDR; } if (level < 9) { config->sec_addr.ngroups = 1; } else { config->sec_addr.ngroups = 0; } } else if (strcmp (option_secondary, "none") == 0 && SECONDARY_DJW) { /* No secondary */ } else { if (!option_quiet) { XPR(NT "unrecognized secondary compressor type: %s\n", option_secondary); return XD3_INVALID; } } } } return 0; } /****************************************************************** VCDIFF TOOLS *****************************************************************/ #if VCDIFF_TOOLS #include "xdelta3-merge.h" #if defined(_WIN32) || defined(__DJGPP__) /* According to the internet, Windows vsnprintf() differs from most * Unix implementations regarding the terminating 0 when the boundary * condition is met. It doesn't matter here, we don't rely on the * trailing 0. Besides, both Windows and DJGPP vsnprintf return -1 * upon truncation, which isn't C99 compliant. To overcome this, * recent MinGW runtimes provided their own vsnprintf (notice the * absence of the '_' prefix) but they were initially buggy. So, * always use the native '_'-prefixed version with Win32. */ #include #ifdef _WIN32 #define vsnprintf_func _vsnprintf #else #define vsnprintf_func vsnprintf #endif int snprintf_func (char *str, int n, char *fmt, ...) { va_list a; int ret; va_start (a, fmt); ret = vsnprintf_func (str, n, fmt, a); va_end (a); if (ret < 0) ret = n; return ret; } #else #define snprintf_func snprintf #endif /* The following macros let VCDIFF printing something printf-like with * main_file_write(), e.g.,: * * VC(UT "trying to be portable: %d\n", x)VE; */ #define SNPRINTF_BUFSIZE 1024 #define VC do { if (((ret = snprintf_func #define UT (char*)xfile->snprintf_buf, SNPRINTF_BUFSIZE, #define VE ) >= SNPRINTF_BUFSIZE \ && (ret = main_print_overflow(ret)) != 0) \ || (ret = main_file_write(xfile, xfile->snprintf_buf, \ (usize_t)ret, "print")) != 0) \ { return ret; } } while (0) static int main_print_overflow (int x) { XPR(NT "internal print buffer overflow: %d bytes\n", x); return XD3_INTERNAL; } /* This function prints a single VCDIFF window. */ static int main_print_window (xd3_stream* stream, main_file *xfile) { int ret; usize_t size = 0; VC(UT " Offset Code Type1 Size1 @Addr1 + Type2 Size2 @Addr2\n")VE; while (stream->inst_sect.buf < stream->inst_sect.buf_max) { usize_t code = stream->inst_sect.buf[0]; const uint8_t *addr_before = stream->addr_sect.buf; const uint8_t *inst_before = stream->inst_sect.buf; usize_t addr_bytes; usize_t inst_bytes; usize_t size_before = size; if ((ret = xd3_decode_instruction (stream))) { XPR(NT "instruction decode error at %"Q"u: %s\n", stream->dec_winstart + size, stream->msg); return ret; } addr_bytes = stream->addr_sect.buf - addr_before; inst_bytes = stream->inst_sect.buf - inst_before; VC(UT " %06"Q"u %03u %s %6u", stream->dec_winstart + size, option_print_cpymode ? code : 0, xd3_rtype_to_string ((xd3_rtype) stream->dec_current1.type, option_print_cpymode), (usize_t) stream->dec_current1.size)VE; if (stream->dec_current1.type != XD3_NOOP) { if (stream->dec_current1.type >= XD3_CPY) { if (stream->dec_current1.addr >= stream->dec_cpylen) { VC(UT " T@%-6u", stream->dec_current1.addr - stream->dec_cpylen)VE; } else { VC(UT " S@%-6"Q"u", stream->dec_cpyoff + stream->dec_current1.addr)VE; } } else { VC(UT " ")VE; } size += stream->dec_current1.size; } if (stream->dec_current2.type != XD3_NOOP) { VC(UT " %s %6u", xd3_rtype_to_string ((xd3_rtype) stream->dec_current2.type, option_print_cpymode), (usize_t)stream->dec_current2.size)VE; if (stream->dec_current2.type >= XD3_CPY) { if (stream->dec_current2.addr >= stream->dec_cpylen) { VC(UT " T@%-6u", stream->dec_current2.addr - stream->dec_cpylen)VE; } else { VC(UT " S@%-6"Q"u", stream->dec_cpyoff + stream->dec_current2.addr)VE; } } size += stream->dec_current2.size; } VC(UT "\n")VE; if (option_verbose && addr_bytes + inst_bytes >= (size - size_before) && (stream->dec_current1.type >= XD3_CPY || stream->dec_current2.type >= XD3_CPY)) { VC(UT " %06"Q"u (inefficiency) %u encoded as %u bytes\n", stream->dec_winstart + size_before, size - size_before, addr_bytes + inst_bytes)VE; } } if (stream->dec_tgtlen != size && (stream->flags & XD3_SKIP_WINDOW) == 0) { XPR(NT "target window size inconsistency"); return XD3_INTERNAL; } if (stream->dec_position != stream->dec_maxpos) { XPR(NT "target window position inconsistency"); return XD3_INTERNAL; } if (stream->addr_sect.buf != stream->addr_sect.buf_max) { XPR(NT "address section inconsistency"); return XD3_INTERNAL; } return 0; } static int main_print_vcdiff_file (main_file *xfile, main_file *file, const char *type) { int ret; /* Used by above macros */ if (file->filename) { VC(UT "XDELTA filename (%s): %s\n", type, file->filename)VE; } if (file->compressor) { VC(UT "XDELTA ext comp (%s): %s\n", type, file->compressor->recomp_cmdname)VE; } return 0; } /* This function prints a VCDIFF input, mainly for debugging purposes. */ static int main_print_func (xd3_stream* stream, main_file *xfile) { int ret; if (option_no_output) { return 0; } if (xfile->snprintf_buf == NULL) { if ((xfile->snprintf_buf = (uint8_t*)main_malloc(SNPRINTF_BUFSIZE)) == NULL) { return ENOMEM; } } if (stream->dec_winstart == 0) { VC(UT "VCDIFF version: 0\n")VE; VC(UT "VCDIFF header size: %d\n", stream->dec_hdrsize)VE; VC(UT "VCDIFF header indicator: ")VE; if ((stream->dec_hdr_ind & VCD_SECONDARY) != 0) VC(UT "VCD_SECONDARY ")VE; if ((stream->dec_hdr_ind & VCD_CODETABLE) != 0) VC(UT "VCD_CODETABLE ")VE; if ((stream->dec_hdr_ind & VCD_APPHEADER) != 0) VC(UT "VCD_APPHEADER ")VE; if (stream->dec_hdr_ind == 0) VC(UT "none")VE; VC(UT "\n")VE; IF_SEC(VC(UT "VCDIFF secondary compressor: %s\n", stream->sec_type ? stream->sec_type->name : "none")VE); IF_NSEC(VC(UT "VCDIFF secondary compressor: unsupported\n")VE); if (stream->dec_hdr_ind & VCD_APPHEADER) { uint8_t *apphead; usize_t appheadsz; ret = xd3_get_appheader (stream, & apphead, & appheadsz); if (ret == 0 && appheadsz > 0) { int sq = option_quiet; main_file i, o, s; XD3_ASSERT (apphead != NULL); VC(UT "VCDIFF application header: ")VE; if ((ret = main_file_write (xfile, apphead, appheadsz, "print")) != 0) { return ret; } VC(UT "\n")VE; main_file_init (& i); main_file_init (& o); main_file_init (& s); option_quiet = 1; main_get_appheader (stream, &i, & o, & s); option_quiet = sq; if ((ret = main_print_vcdiff_file (xfile, & o, "output"))) { return ret; } if ((ret = main_print_vcdiff_file (xfile, & s, "source"))) { return ret; } main_file_cleanup (& i); main_file_cleanup (& o); main_file_cleanup (& s); } } } else { VC(UT "\n")VE; } VC(UT "VCDIFF window number: %"Q"u\n", stream->current_window)VE; VC(UT "VCDIFF window indicator: ")VE; if ((stream->dec_win_ind & VCD_SOURCE) != 0) VC(UT "VCD_SOURCE ")VE; if ((stream->dec_win_ind & VCD_TARGET) != 0) VC(UT "VCD_TARGET ")VE; if ((stream->dec_win_ind & VCD_ADLER32) != 0) VC(UT "VCD_ADLER32 ")VE; if (stream->dec_win_ind == 0) VC(UT "none")VE; VC(UT "\n")VE; if ((stream->dec_win_ind & VCD_ADLER32) != 0) { VC(UT "VCDIFF adler32 checksum: %08X\n", (usize_t)stream->dec_adler32)VE; } if (stream->dec_del_ind != 0) { VC(UT "VCDIFF delta indicator: ")VE; if ((stream->dec_del_ind & VCD_DATACOMP) != 0) VC(UT "VCD_DATACOMP ")VE; if ((stream->dec_del_ind & VCD_INSTCOMP) != 0) VC(UT "VCD_INSTCOMP ")VE; if ((stream->dec_del_ind & VCD_ADDRCOMP) != 0) VC(UT "VCD_ADDRCOMP ")VE; if (stream->dec_del_ind == 0) VC(UT "none")VE; VC(UT "\n")VE; } if (stream->dec_winstart != 0) { VC(UT "VCDIFF window at offset: %"Q"u\n", stream->dec_winstart)VE; } if (SRCORTGT (stream->dec_win_ind)) { VC(UT "VCDIFF copy window length: %u\n", (usize_t)stream->dec_cpylen)VE; VC(UT "VCDIFF copy window offset: %"Q"u\n", stream->dec_cpyoff)VE; } VC(UT "VCDIFF delta encoding length: %u\n", (usize_t)stream->dec_enclen)VE; VC(UT "VCDIFF target window length: %u\n", (usize_t)stream->dec_tgtlen)VE; VC(UT "VCDIFF data section length: %u\n", (usize_t)stream->data_sect.size)VE; VC(UT "VCDIFF inst section length: %u\n", (usize_t)stream->inst_sect.size)VE; VC(UT "VCDIFF addr section length: %u\n", (usize_t)stream->addr_sect.size)VE; ret = 0; if ((stream->flags & XD3_JUST_HDR) != 0) { /* Print a header -- finished! */ ret = PRINTHDR_SPECIAL; } else if ((stream->flags & XD3_SKIP_WINDOW) == 0) { ret = main_print_window (stream, xfile); } return ret; } static int main_recode_copy (xd3_stream* stream, xd3_output* output, xd3_desect* input) { int ret; XD3_ASSERT(output != NULL); XD3_ASSERT(output->next_page == NULL); if ((ret = xd3_decode_allocate (recode_stream, input->size, &output->base, &output->avail))) { XPR(NT XD3_LIB_ERRMSG (stream, ret)); return ret; } memcpy (output->base, /* Note: decoder advances buf, so get base of buffer with * buf_max - size */ input->buf_max - input->size, input->size); output->next = input->size; return 0; } // Re-encode one window static int main_recode_func (xd3_stream* stream, main_file *ofile) { int ret; xd3_source decode_source; XD3_ASSERT(stream->dec_state == DEC_FINISH); XD3_ASSERT(recode_stream->enc_state == ENC_INIT || recode_stream->enc_state == ENC_INPUT); // Copy partial decoder output to partial encoder inputs if ((ret = main_recode_copy (recode_stream, DATA_HEAD(recode_stream), &stream->data_sect)) || (ret = main_recode_copy (recode_stream, INST_HEAD(recode_stream), &stream->inst_sect)) || (ret = main_recode_copy (recode_stream, ADDR_HEAD(recode_stream), &stream->addr_sect))) { return ret; } // This jumps to xd3_emit_hdr() recode_stream->enc_state = ENC_FLUSH; recode_stream->avail_in = stream->dec_tgtlen; if (SRCORTGT (stream->dec_win_ind)) { recode_stream->src = & decode_source; decode_source.srclen = stream->dec_cpylen; decode_source.srcbase = stream->dec_cpyoff; } if (option_use_checksum && (stream->dec_win_ind & VCD_ADLER32) != 0) { recode_stream->flags |= XD3_ADLER32_RECODE; recode_stream->recode_adler32 = stream->dec_adler32; } if (option_use_appheader != 0 && option_appheader != NULL) { xd3_set_appheader (recode_stream, option_appheader, strlen ((char*) option_appheader)); } else if (option_use_appheader != 0 && option_appheader == NULL) { if (stream->dec_appheader != NULL) { xd3_set_appheader (recode_stream, stream->dec_appheader, stream->dec_appheadsz); } } // Output loop for (;;) { switch((ret = xd3_encode_input (recode_stream))) { case XD3_INPUT: { /* finished recoding one window */ stream->total_out = recode_stream->total_out; return 0; } case XD3_OUTPUT: { /* main_file_write below */ break; } case XD3_GOTHEADER: case XD3_WINSTART: case XD3_WINFINISH: { /* ignore */ continue; } case XD3_GETSRCBLK: case 0: { return XD3_INTERNAL; } default: return ret; } if ((ret = main_write_output (recode_stream, ofile))) { return ret; } xd3_consume_output (recode_stream); } } #endif /* VCDIFF_TOOLS */ /******************************************************************* VCDIFF merging ******************************************************************/ #if VCDIFF_TOOLS /* Modifies static state. */ static int main_init_recode_stream (void) { int ret; int stream_flags = XD3_ADLER32_NOVER | XD3_SKIP_EMIT; int recode_flags; xd3_config recode_config; XD3_ASSERT (recode_stream == NULL); if ((recode_stream = (xd3_stream*) main_malloc(sizeof(xd3_stream))) == NULL) { return ENOMEM; } recode_flags = (stream_flags & XD3_SEC_TYPE); recode_config.alloc = main_alloc; recode_config.freef = main_free1; xd3_init_config(&recode_config, recode_flags); if ((ret = main_set_secondary_flags (&recode_config)) || (ret = xd3_config_stream (recode_stream, &recode_config)) || (ret = xd3_encode_init_partial (recode_stream)) || (ret = xd3_whole_state_init (recode_stream))) { XPR(NT XD3_LIB_ERRMSG (recode_stream, ret)); xd3_free_stream (recode_stream); recode_stream = NULL; return ret; } return 0; } /* This processes the sequence of -m arguments. The final input * is processed as part of the ordinary main_input() loop. */ static int main_merge_arguments (main_merge_list* merges) { int ret = 0; int count = 0; main_merge *merge = NULL; xd3_stream merge_input; if (main_merge_list_empty (merges)) { return 0; } if ((ret = xd3_config_stream (& merge_input, NULL)) || (ret = xd3_whole_state_init (& merge_input))) { XPR(NT XD3_LIB_ERRMSG (& merge_input, ret)); return ret; } merge = main_merge_list_front (merges); while (!main_merge_list_end (merges, merge)) { main_file mfile; main_file_init (& mfile); mfile.filename = merge->filename; mfile.flags = RD_NONEXTERNAL; if ((ret = main_file_open (& mfile, merge->filename, XO_READ))) { goto error; } ret = main_input (CMD_MERGE_ARG, & mfile, NULL, NULL); if (ret == 0) { if (count++ == 0) { /* The first merge source is the next merge input. */ xd3_swap_whole_state (& recode_stream->whole_target, & merge_input.whole_target); } else { /* Merge the recode_stream with merge_input. */ ret = xd3_merge_input_output (recode_stream, & merge_input.whole_target); /* Save the next merge source in merge_input. */ xd3_swap_whole_state (& recode_stream->whole_target, & merge_input.whole_target); } } main_file_cleanup (& mfile); if (recode_stream != NULL) { xd3_free_stream (recode_stream); main_free (recode_stream); recode_stream = NULL; } if (main_bdata != NULL) { main_free (main_bdata); main_bdata = NULL; main_bsize = 0; } if (ret != 0) { goto error; } merge = main_merge_list_next (merge); } XD3_ASSERT (merge_stream == NULL); if ((merge_stream = (xd3_stream*) main_malloc (sizeof(xd3_stream))) == NULL) { ret = ENOMEM; goto error; } if ((ret = xd3_config_stream (merge_stream, NULL)) || (ret = xd3_whole_state_init (merge_stream))) { XPR(NT XD3_LIB_ERRMSG (& merge_input, ret)); goto error; } xd3_swap_whole_state (& merge_stream->whole_target, & merge_input.whole_target); ret = 0; error: xd3_free_stream (& merge_input); return ret; } /* This processes each window of the final merge input. This routine * does not output, it buffers the entire delta into memory. */ static int main_merge_func (xd3_stream* stream, main_file *no_write) { int ret; if ((ret = xd3_whole_append_window (stream))) { return ret; } return 0; } /* This is called after all windows have been read, as a final step in * main_input(). This is only called for the final merge step. */ static int main_merge_output (xd3_stream *stream, main_file *ofile) { int ret; usize_t inst_pos = 0; xoff_t output_pos = 0; xd3_source recode_source; usize_t window_num = 0; int at_least_once = 0; /* merge_stream is set if there were arguments. this stream's input * needs to be applied to the merge_stream source. */ if ((merge_stream != NULL) && (ret = xd3_merge_input_output (stream, & merge_stream->whole_target))) { XPR(NT XD3_LIB_ERRMSG (stream, ret)); return ret; } if (option_use_appheader != 0 && option_appheader != NULL) { xd3_set_appheader (recode_stream, option_appheader, strlen ((char*) option_appheader)); } /* Enter the ENC_INPUT state and bypass the next_in == NULL test * and (leftover) input buffering logic. */ XD3_ASSERT(recode_stream->enc_state == ENC_INIT); recode_stream->enc_state = ENC_INPUT; recode_stream->next_in = main_bdata; recode_stream->flags |= XD3_FLUSH; /* This encodes the entire target. */ while (inst_pos < stream->whole_target.instlen || !at_least_once) { xoff_t window_start = output_pos; int window_srcset = 0; xoff_t window_srcmin = 0; xoff_t window_srcmax = 0; usize_t window_pos = 0; usize_t window_size; /* at_least_once ensures that we encode at least one window, * which handles the 0-byte case. */ at_least_once = 1; XD3_ASSERT (recode_stream->enc_state == ENC_INPUT); if ((ret = xd3_encode_input (recode_stream)) != XD3_WINSTART) { XPR(NT "invalid merge state: %s\n", xd3_mainerror (ret)); return XD3_INVALID; } /* Window sizes must match from the input to the output, so that * target copies are in-range (and so that checksums carry * over). */ XD3_ASSERT (window_num < stream->whole_target.wininfolen); window_size = stream->whole_target.wininfo[window_num].length; /* Output position should also match. */ if (output_pos != stream->whole_target.wininfo[window_num].offset) { XPR(NT "internal merge error: offset mismatch\n"); return XD3_INVALID; } if (option_use_checksum && (stream->dec_win_ind & VCD_ADLER32) != 0) { recode_stream->flags |= XD3_ADLER32_RECODE; recode_stream->recode_adler32 = stream->whole_target.wininfo[window_num].adler32; } window_num++; if (main_bsize < window_size) { main_free (main_bdata); main_bdata = NULL; main_bsize = 0; if ((main_bdata = (uint8_t*) main_malloc (window_size)) == NULL) { return ENOMEM; } main_bsize = window_size; } /* This encodes a single target window. */ while (window_pos < window_size && inst_pos < stream->whole_target.instlen) { xd3_winst *inst = &stream->whole_target.inst[inst_pos]; usize_t take = min(inst->size, window_size - window_pos); xoff_t addr; switch (inst->type) { case XD3_RUN: if ((ret = xd3_emit_run (recode_stream, window_pos, take, &stream->whole_target.adds[inst->addr]))) { return ret; } break; case XD3_ADD: /* Adds are implicit, put them into the input buffer. */ memcpy (main_bdata + window_pos, stream->whole_target.adds + inst->addr, take); break; default: /* XD3_COPY + copy mode */ if (inst->mode != 0) { if (window_srcset) { window_srcmin = min(window_srcmin, inst->addr); window_srcmax = max(window_srcmax, inst->addr + take); } else { window_srcset = 1; window_srcmin = inst->addr; window_srcmax = inst->addr + take; } addr = inst->addr; } else { XD3_ASSERT (inst->addr >= window_start); addr = inst->addr - window_start; } IF_DEBUG2 (DP(RINT "[merge copy] winpos %u take %u addr %"Q"u mode %u\n", window_pos, take, addr, inst->mode)); if ((ret = xd3_found_match (recode_stream, window_pos, take, addr, inst->mode != 0))) { return ret; } break; } window_pos += take; output_pos += take; if (take == inst->size) { inst_pos += 1; } else { /* Modify the instruction for the next pass. */ if (inst->type != XD3_RUN) { inst->addr += take; } inst->size -= take; } } xd3_avail_input (recode_stream, main_bdata, window_pos); recode_stream->enc_state = ENC_INSTR; if (window_srcset) { recode_stream->srcwin_decided = 1; recode_stream->src = &recode_source; recode_source.srclen = window_srcmax - window_srcmin; recode_source.srcbase = window_srcmin; recode_stream->taroff = recode_source.srclen; XD3_ASSERT (recode_source.srclen != 0); } else { recode_stream->srcwin_decided = 0; recode_stream->src = NULL; recode_stream->taroff = 0; } for (;;) { switch ((ret = xd3_encode_input (recode_stream))) { case XD3_INPUT: { goto done_window; } case XD3_OUTPUT: { /* main_file_write below */ break; } case XD3_GOTHEADER: case XD3_WINSTART: case XD3_WINFINISH: { /* ignore */ continue; } case XD3_GETSRCBLK: case 0: { return XD3_INTERNAL; } default: return ret; } if ((ret = main_write_output(recode_stream, ofile))) { return ret; } xd3_consume_output (recode_stream); } done_window: (void) 0; } return 0; } #endif /******************************************************************* Input decompression, output recompression ******************************************************************/ #if EXTERNAL_COMPRESSION /* This is tricky POSIX-specific code with lots of fork(), pipe(), * dup(), waitpid(), and exec() business. Most of this code * originated in PRCS1, which did automatic package-file * decompression. It works with both XD3_POSIX and XD3_STDIO file * disciplines. * * To automatically detect compressed inputs requires a child process * to reconstruct the input stream, which was advanced in order to * detect compression, because it may not be seekable. In other * words, the main program reads part of the input stream, and if it * detects a compressed input it then forks a pipe copier process, * which copies the first-read block out of the main-program's memory, * then streams the remaining compressed input into the * input-decompression pipe. */ #include #include #include /* Remember which pipe FD is which. */ #define PIPE_READ_FD 0 #define PIPE_WRITE_FD 1 static pid_t ext_subprocs[2]; static char* ext_tmpfile = NULL; /* Like write(), but makes repeated calls to empty the buffer. */ static int main_pipe_write (int outfd, uint8_t *exist_buf, usize_t remain) { int ret; if ((ret = xd3_posix_io (outfd, exist_buf, remain, (xd3_posix_func*) &write, NULL))) { XPR(NT "pipe write failed: %s", xd3_mainerror (ret)); return ret; } return 0; } /* A simple error-reporting waitpid interface. */ static int main_waitpid_check(pid_t pid) { int status; int ret = 0; if (waitpid (pid, & status, 0) < 0) { ret = get_errno (); XPR(NT "compression subprocess: wait: %s\n", xd3_mainerror (ret)); } else if (! WIFEXITED (status)) { ret = ECHILD; XPR(NT "compression subprocess: signal %d\n", WIFSIGNALED (status) ? WTERMSIG (status) : WSTOPSIG (status)); } else if (WEXITSTATUS (status) != 0) { ret = ECHILD; XPR(NT "compression subprocess: exit %d\n", WEXITSTATUS (status)); } return ret; } /* Wait for any existing child processes to check for abnormal exit. */ static int main_external_compression_finish (void) { int i; int ret; for (i = 0; i < 2; i += 1) { if (! ext_subprocs[i]) { continue; } if ((ret = main_waitpid_check (ext_subprocs[i]))) { return ret; } } return 0; } /* This runs as a forked process of main_input_decompress_setup() to * copy input to the decompression process. First, the available * input is copied out of the existing buffer, then the buffer is * reused to continue reading from the compressed input file. */ static int main_pipe_copier (uint8_t *pipe_buf, usize_t pipe_bufsize, usize_t nread, main_file *ifile, int outfd) { int ret; for (;;) { if (nread > 0 && (ret = main_pipe_write (outfd, pipe_buf, nread))) { return ret; } if (nread < pipe_bufsize) { break; } if ((ret = main_file_read (ifile, pipe_buf, pipe_bufsize, & nread, "pipe read failed")) < 0) { return ret; } } return 0; } /* This function is called after we have read some amount of data from * the input file and detected a compressed input. Here we start a * decompression subprocess by forking twice. The first process runs * the decompression command, the second process copies data to the * input of the first. */ static int main_input_decompress_setup (const main_extcomp *decomp, main_file *ifile, uint8_t *input_buf, usize_t input_bufsize, uint8_t *pipe_buf, usize_t pipe_bufsize, usize_t pipe_avail, usize_t *nread) { /* The two pipes: input and output file descriptors. */ int outpipefd[2], inpipefd[2]; int input_fd = -1; /* The resulting input_fd (output of decompression). */ pid_t decomp_id, copier_id; /* The two subprocs. */ int ret; outpipefd[0] = outpipefd[1] = -1; inpipefd[0] = inpipefd[1] = -1; if (pipe (outpipefd) || pipe (inpipefd)) { XPR(NT "pipe failed: %s\n", xd3_mainerror (ret = get_errno ())); goto pipe_cleanup; } if ((decomp_id = fork ()) < 0) { XPR(NT "fork failed: %s\n", xd3_mainerror (ret = get_errno ())); goto pipe_cleanup; } /* The first child runs the decompression process: */ if (decomp_id == 0) { /* Setup pipes: write to the outpipe, read from the inpipe. */ if (dup2 (outpipefd[PIPE_WRITE_FD], STDOUT_FILENO) < 0 || dup2 (inpipefd[PIPE_READ_FD], STDIN_FILENO) < 0 || close (outpipefd[PIPE_READ_FD]) || close (outpipefd[PIPE_WRITE_FD]) || close (inpipefd[PIPE_READ_FD]) || close (inpipefd[PIPE_WRITE_FD]) || execlp (decomp->decomp_cmdname, decomp->decomp_cmdname, decomp->decomp_options, NULL)) { XPR(NT "child process %s failed to execute: %s\n", decomp->decomp_cmdname, xd3_mainerror (get_errno ())); } _exit (127); } ext_subprocs[0] = decomp_id; if ((copier_id = fork ()) < 0) { XPR(NT "fork failed: %s\n", xd3_mainerror (ret = get_errno ())); goto pipe_cleanup; } /* The second child runs the copier process: */ if (copier_id == 0) { int exitval = 0; if (close (inpipefd[PIPE_READ_FD]) || main_pipe_copier (pipe_buf, pipe_bufsize, pipe_avail, ifile, inpipefd[PIPE_WRITE_FD]) || close (inpipefd[PIPE_WRITE_FD])) { XPR(NT "child copier process failed: %s\n", xd3_mainerror (get_errno ())); exitval = 1; } _exit (exitval); } ext_subprocs[1] = copier_id; /* The parent closes both pipes after duplicating the output of * compression. */ input_fd = dup (outpipefd[PIPE_READ_FD]); if (input_fd < 0 || main_file_close (ifile) || close (outpipefd[PIPE_READ_FD]) || close (outpipefd[PIPE_WRITE_FD]) || close (inpipefd[PIPE_READ_FD]) || close (inpipefd[PIPE_WRITE_FD])) { XPR(NT "dup/close failed: %s\n", xd3_mainerror (ret = get_errno ())); goto pipe_cleanup; } #if XD3_STDIO /* Note: fdopen() acquires the fd, closes it when finished. */ if ((ifile->file = fdopen (input_fd, "r")) == NULL) { XPR(NT "fdopen failed: %s\n", xd3_mainerror (ret = get_errno ())); goto pipe_cleanup; } #elif XD3_POSIX ifile->file = input_fd; #endif ifile->compressor = decomp; /* Now the input file is decompressed. */ return main_file_read (ifile, input_buf, input_bufsize, nread, "input decompression failed"); pipe_cleanup: close (input_fd); close (outpipefd[PIPE_READ_FD]); close (outpipefd[PIPE_WRITE_FD]); close (inpipefd[PIPE_READ_FD]); close (inpipefd[PIPE_WRITE_FD]); return ret; } /* This routine is called when the first buffer of input data is read * by the main program (unless input decompression is disabled by * command-line option). If it recognizes the magic number of a known * input type it invokes decompression. * * Skips decompression if the decompression type or the file type is * RD_NONEXTERNAL. * * Behaves exactly like main_file_read, otherwise. * * This function uses a separate buffer to read the first small block * of input. If a compressed input is detected, the separate buffer * is passed to the pipe copier. This avoids using the same size * buffer in both cases. */ static int main_decompress_input_check (main_file *ifile, uint8_t *input_buf, usize_t input_size, usize_t *nread) { int ret; usize_t i; usize_t try_read = min (input_size, XD3_ALLOCSIZE); usize_t check_nread; uint8_t check_buf[XD3_ALLOCSIZE]; /* TODO: stack limit */ if ((ret = main_file_read (ifile, check_buf, try_read, & check_nread, "input read failed"))) { return ret; } for (i = 0; i < SIZEOF_ARRAY (extcomp_types); i += 1) { const main_extcomp *decomp = & extcomp_types[i]; if ((check_nread > decomp->magic_size) && /* The following expr skips decompression if we are trying * to read a VCDIFF input and that is the magic number. */ !((decomp->flags & RD_NONEXTERNAL) && (ifile->flags & RD_NONEXTERNAL)) && memcmp (check_buf, decomp->magic, decomp->magic_size) == 0) { if (! option_quiet) { XPR(NT "%s | %s %s\n", ifile->filename, decomp->decomp_cmdname, decomp->decomp_options); } return main_input_decompress_setup (decomp, ifile, input_buf, input_size, check_buf, XD3_ALLOCSIZE, check_nread, nread); } } /* Now read the rest of the input block. */ (*nread) = 0; if (check_nread == try_read) { ret = main_file_read (ifile, input_buf + try_read, input_size - try_read, nread, "input read failed"); } memcpy (input_buf, check_buf, check_nread); (*nread) += check_nread; return 0; } /* Initiate re-compression of the output stream. This is easier than * input decompression because we know beforehand that the stream will * be compressed, whereas the input has already been read when we * decide it should be decompressed. Thus, it only requires one * subprocess and one pipe. */ static int main_recompress_output (main_file *ofile) { pid_t recomp_id; /* One subproc. */ int pipefd[2]; /* One pipe. */ int output_fd = -1; int ret; const main_extcomp *recomp = ofile->compressor; pipefd[0] = pipefd[1] = -1; if (pipe (pipefd)) { XPR(NT "pipe failed: %s\n", xd3_mainerror (ret = get_errno ())); goto pipe_cleanup; } if ((recomp_id = fork ()) < 0) { XPR(NT "fork failed: %s\n", xd3_mainerror (ret = get_errno ())); goto pipe_cleanup; } /* The child runs the recompression process: */ if (recomp_id == 0) { /* Setup pipes: write to the output file, read from the pipe. */ if (dup2 (XFNO (ofile), STDOUT_FILENO) < 0 || dup2 (pipefd[PIPE_READ_FD], STDIN_FILENO) < 0 || close (pipefd[PIPE_READ_FD]) || close (pipefd[PIPE_WRITE_FD]) || execlp (recomp->recomp_cmdname, recomp->recomp_cmdname, recomp->recomp_options, NULL)) { XPR(NT "child process %s failed to execute: %s\n", recomp->recomp_cmdname, xd3_mainerror (get_errno ())); } _exit (127); } ext_subprocs[0] = recomp_id; /* The parent closes both pipes after duplicating the output-fd for * writing to the compression pipe. */ output_fd = dup (pipefd[PIPE_WRITE_FD]); if (output_fd < 0 || main_file_close (ofile) || close (pipefd[PIPE_READ_FD]) || close (pipefd[PIPE_WRITE_FD])) { XPR(NT "close failed: %s\n", xd3_mainerror (ret = get_errno ())); goto pipe_cleanup; } #if XD3_STDIO /* Note: fdopen() acquires the fd, closes it when finished. */ if ((ofile->file = fdopen (output_fd, "w")) == NULL) { XPR(NT "fdopen failed: %s\n", xd3_mainerror (ret = get_errno ())); goto pipe_cleanup; } #elif XD3_POSIX ofile->file = output_fd; #endif /* Now the output file will be compressed. */ return 0; pipe_cleanup: close (output_fd); close (pipefd[PIPE_READ_FD]); close (pipefd[PIPE_WRITE_FD]); return ret; } #endif /* EXTERNAL_COMPRESSION */ /* Identify the compressor that was used based on its ident string, * which is passed in the application header. */ static const main_extcomp* main_ident_compressor (const char *ident) { usize_t i; for (i = 0; i < SIZEOF_ARRAY (extcomp_types); i += 1) { if (strcmp (extcomp_types[i].ident, ident) == 0) { return & extcomp_types[i]; } } return NULL; } /* Return the main_extcomp record to use for this identifier, if possible. */ static const main_extcomp* main_get_compressor (const char *ident) { const main_extcomp *ext = main_ident_compressor (ident); if (ext == NULL) { if (! option_quiet) { XPR(NT "warning: cannot recompress output: " "unrecognized external compression ID: %s\n", ident); } return NULL; } else if (! EXTERNAL_COMPRESSION) { if (! option_quiet) { XPR(NT "warning: external support not compiled: " "original input was compressed: %s\n", ext->recomp_cmdname); } return NULL; } else { return ext; } } /********************************************************************* APPLICATION HEADER *******************************************************************/ #if XD3_ENCODER static const char* main_apphead_string (const char* x) { const char *y; if (x == NULL) { return ""; } if (strcmp (x, "/dev/stdin") == 0 || strcmp (x, "/dev/stdout") == 0 || strcmp (x, "/dev/stderr") == 0) { return "-"; } // TODO: this is not portable return (y = strrchr (x, '/')) == NULL ? x : y + 1; } static int main_set_appheader (xd3_stream *stream, main_file *input, main_file *sfile) { /* The user may disable the application header. Once the appheader * is set, this disables setting it again. */ if (appheader_used || ! option_use_appheader) { return 0; } /* The user may specify the application header, otherwise format the default header. */ if (option_appheader) { appheader_used = option_appheader; } else { const char *iname; const char *icomp; const char *sname; const char *scomp; usize_t len; iname = main_apphead_string (input->filename); icomp = (input->compressor == NULL) ? "" : input->compressor->ident; len = strlen (iname) + strlen (icomp) + 2; if (sfile->filename != NULL) { sname = main_apphead_string (sfile->filename); scomp = (sfile->compressor == NULL) ? "" : sfile->compressor->ident; len += strlen (sname) + strlen (scomp) + 2; } else { sname = scomp = ""; } if ((appheader_used = (uint8_t*) main_malloc (len)) == NULL) { return ENOMEM; } if (sfile->filename == NULL) { sprintf ((char*)appheader_used, "%s/%s", iname, icomp); } else { sprintf ((char*)appheader_used, "%s/%s/%s/%s", iname, icomp, sname, scomp); } } xd3_set_appheader (stream, appheader_used, strlen ((char*)appheader_used)); return 0; } #endif static void main_get_appheader_params (main_file *file, char **parsed, int output, const char *type, main_file *other) { /* Set the filename if it was not specified. If output, option_stdout (-c) * overrides. */ if (file->filename == NULL && ! (output && option_stdout) && strcmp (parsed[0], "-") != 0) { file->filename = parsed[0]; if (other->filename != NULL) { /* Take directory from the other file, if it has one. */ /* TODO: This results in nonsense names like /dev/foo.tar.gz * and probably the filename-default logic interferes with * multi-file operation and the standard file extension? * Possibly the name header is bad, should be off by default. * Possibly we just want to remember external/compression * settings. */ char *last_slash = strrchr(other->filename, '/'); if (last_slash != NULL) { usize_t dlen = last_slash - other->filename; XD3_ASSERT(file->filename_copy == NULL); file->filename_copy = (char*) main_malloc(dlen + 2 + strlen(file->filename)); strncpy(file->filename_copy, other->filename, dlen); file->filename_copy[dlen] = '/'; strcpy(file->filename_copy + dlen + 1, parsed[0]); file->filename = file->filename_copy; } } if (! option_quiet) { XPR(NT "using default %s filename: %s\n", type, file->filename); } } /* Set the compressor, initiate de/recompression later. */ if (file->compressor == NULL && *parsed[1] != 0) { file->compressor = main_get_compressor (parsed[1]); } } static void main_get_appheader (xd3_stream *stream, main_file *ifile, main_file *output, main_file *sfile) { uint8_t *apphead; usize_t appheadsz; int ret; /* The user may disable the application header. Once the appheader * is set, this disables setting it again. */ if (! option_use_appheader) { return; } ret = xd3_get_appheader (stream, & apphead, & appheadsz); /* Ignore failure, it only means we haven't received a header yet. */ if (ret != 0) { return; } if (appheadsz > 0) { char *start = (char*)apphead; char *slash; int place = 0; char *parsed[4]; memset (parsed, 0, sizeof (parsed)); while ((slash = strchr (start, '/')) != NULL) { *slash = 0; parsed[place++] = start; start = slash + 1; } parsed[place++] = start; /* First take the output parameters. */ if (place == 2 || place == 4) { main_get_appheader_params (output, parsed, 1, "output", ifile); } /* Then take the source parameters. */ if (place == 4) { main_get_appheader_params (sfile, parsed+2, 0, "source", ifile); } } option_use_appheader = 0; return; } /********************************************************************* Main I/O routines **********************************************************************/ /* This function acts like the above except it may also try to * recognize a compressed input (source or target) when the first * buffer of data is read. The EXTERNAL_COMPRESSION code is called to * search for magic numbers. */ static int main_read_primary_input (main_file *ifile, uint8_t *buf, usize_t size, usize_t *nread, int is_source) { #if EXTERNAL_COMPRESSION if (option_decompress_inputs && ifile->flags & RD_FIRST) { ifile->flags &= ~RD_FIRST; if (is_source && ifile->compressor == NULL) { /* Application header overrides magic number. */ } else { return main_decompress_input_check (ifile, buf, size, nread); } } #endif return main_file_read (ifile, buf, size, nread, "input read failed"); } /* Open the main output file, sets a default file name, initiate * recompression. This function is expected to fprint any error * messages. */ static int main_open_output (xd3_stream *stream, main_file *ofile) { int ret; if (option_no_output) { return 0; } if (ofile->filename == NULL) { XSTDOUT_XF (ofile); if (option_verbose > 1) { XPR(NT "using standard output: %s\n", ofile->filename); } } else { /* Stat the file to check for overwrite. */ if (option_force == 0 && main_file_exists (ofile)) { if (!option_quiet) { XPR(NT "to overwrite output file specify -f: %s\n", ofile->filename); } return EEXIST; } if ((ret = main_file_open (ofile, ofile->filename, XO_WRITE))) { return ret; } if (option_verbose > 1) { XPR(NT "output file: %s\n", ofile->filename); } } #if EXTERNAL_COMPRESSION /* Do output recompression. */ if (ofile->compressor != NULL && option_recompress_outputs == 1) { if (! option_quiet) { XPR(NT "%s %s | %s\n", ofile->compressor->recomp_cmdname, ofile->compressor->recomp_options, ofile->filename); } if ((ret = main_recompress_output (ofile))) { return ret; } } #endif return 0; } /* This is called at different times for encoding and decoding. The * encoder calls it immediately, the decoder delays until the * application header is received. */ static int main_set_source (xd3_stream *stream, xd3_cmd cmd, main_file *sfile, xd3_source *source) { int ret = 0; usize_t i; uint8_t *tmp_buf = NULL; xoff_t source_size = 0; int source_size_known = 0; main_blklru_list_init (& lru_list); main_blklru_list_init (& lru_free); /* Open it, check for seekability, set required xd3_source fields. */ if (allow_fake_source) { sfile->mode = XO_READ; sfile->realname = sfile->filename; sfile->nread = 0; source_size_known = 1; } else { int stat_val; if ((ret = main_file_open (sfile, sfile->filename, XO_READ))) { goto error; } stat_val = main_file_stat (sfile, &source_size); if (stat_val == 0) { source_size_known = 1; } else { source_size_known = 0; } } if (source_size_known && source_size < option_srcwinsz) { /* Reduce sizes to actual source size, read whole file. */ option_srcwinsz = source_size; source->blksize = source_size; } else { option_srcwinsz = max(option_srcwinsz, XD3_MINSRCWINSZ); source->blksize = (option_srcwinsz / LRU_SIZE); } if (source_size_known) { IF_DEBUG2 (DP(RINT "[main_set_source] %s size %"Q"u\n", sfile->filename, source_size)); } else { IF_DEBUG2 (DP(RINT "[main_set_source] %s size not known\n", sfile->filename, source_size)); } source->name = sfile->filename; source->ioh = sfile; source->curblkno = 0; source->curblk = NULL; /* DO NOT call xd3_set_source_and_size because of potential * secondary compression. */ ret = xd3_set_source (stream, source); if (ret) { XPR(NT XD3_LIB_ERRMSG (stream, ret)); goto error; } XD3_ASSERT (stream->src == source); lru_size = (option_srcwinsz + source->blksize - 1) / source->blksize; lru_size = max(lru_size, 1U); IF_DEBUG1 (DP(RINT "[lru_size] == %d\n", lru_size)); option_srcwinsz = lru_size * source->blksize; if (option_verbose) { static char buf[32]; static char sizebuf[32]; if (source_size_known) { sprintf(sizebuf, " size %"Q"u", source_size); } else { sizebuf[0] = 0; } XPR(NT "source %s winsize %s blksize %u%s\n", sfile->filename, main_format_bcnt(option_srcwinsz, buf), source->blksize, sizebuf); } XD3_ASSERT (lru == NULL); if ((lru = (main_blklru*) main_malloc (sizeof (main_blklru) * lru_size)) == NULL) { ret = ENOMEM; goto error; } for (i = 0; i < lru_size; i += 1) { lru[i].blkno = (xoff_t) -1; if ((lru[i].blk = (uint8_t*) main_malloc (source->blksize)) == NULL) { ret = ENOMEM; goto error; } if (! do_not_lru) { main_blklru_list_push_back (& lru_free, & lru[i]); } } if ((ret = main_getblk_func (stream, source, 0))) { XPR(NT "error reading first block: %s\n", xd3_mainerror (ret)); return ret; } return 0; error: IF_DEBUG2 (DP(RINT "[main_set_source] error %s\n", xd3_strerror (ret))); if (tmp_buf != NULL) { main_free (tmp_buf); } return ret; } static usize_t main_get_winsize (main_file *ifile) { xoff_t file_size = 0; usize_t size = option_winsize; if (main_file_stat (ifile, &file_size) == 0) { size = (usize_t) min(file_size, (xoff_t) size); } size = max(size, XD3_ALLOCSIZE); if (option_verbose > 1) { XPR(NT "input window size: %u\n", size); } return size; } /******************************************************************* Source routines *******************************************************************/ static int main_getblk_lru (xd3_source *source, xoff_t blkno, main_blklru** blrup, int *is_new) { main_blklru *blru = NULL; usize_t i; (*is_new) = 0; if (do_not_lru) { /* Direct lookup assumes sequential scan w/o skipping blocks. */ int idx = blkno % lru_size; blru = & lru[idx]; if (blru->blkno == blkno) { (*blrup) = blru; return 0; } if (blru->blkno != (xoff_t)-1 && blru->blkno != (xoff_t)(blkno - lru_size)) { return XD3_TOOFARBACK; } } else { /* Sequential search through LRU. */ for (i = 0; i < lru_size; i += 1) { blru = & lru[i]; if (blru->blkno == blkno) { main_blklru_list_remove (blru); main_blklru_list_push_back (& lru_list, blru); (*blrup) = blru; return 0; } } } if (do_not_lru) { int idx = blkno % lru_size; blru = & lru[idx]; } else { if (! main_blklru_list_empty (& lru_free)) { blru = main_blklru_list_pop_front (& lru_free); main_blklru_list_push_back (& lru_list, blru); } else { blru = main_blklru_list_pop_front (& lru_list); main_blklru_list_push_back (& lru_list, blru); } } lru_filled += 1; (*is_new) = 1; (*blrup) = blru; blru->blkno = blkno; return 0; } /* This is the callback for reading a block of source. This function * is blocking and it implements a small LRU. * * Note that it is possible for main_input() to handle getblk requests * in a non-blocking manner. If the callback is NULL then the caller * of xd3_*_input() must handle the XD3_GETSRCBLK return value and * fill the source in the same way. See xd3_getblk for details. To * see an example of non-blocking getblk, see xdelta-test.h. */ static int main_getblk_func (xd3_stream *stream, xd3_source *source, xoff_t blkno) { int ret = 0; xoff_t pos = blkno * source->blksize; main_file *sfile = (main_file*) source->ioh; main_blklru *blru; int is_new; usize_t nread = 0; if (allow_fake_source) { source->curblkno = blkno; source->onblk = 0; source->curblk = lru[0].blk; lru[0].size = 0; return 0; } if ((ret = main_getblk_lru (source, blkno, & blru, & is_new))) { return ret; } if (!is_new) { source->curblkno = blkno; source->onblk = blru->size; source->curblk = blru->blk; lru_hits++; return 0; } lru_misses += 1; if (pos != sfile->source_position) { /* Only try to seek when the position is wrong. This means the * decoder will fail when the source buffer is too small, but * only when the input is non-seekable. */ if (!sfile->seek_failed) { ret = main_file_seek (sfile, pos); } if (sfile->seek_failed || ret != 0) { sfile->seek_failed = 1; /* For an unseekable file (or other seek error, does it * matter?) */ if (sfile->source_position > pos) { /* Could assert !IS_ENCODE(), this shouldn't happen * because of do_not_lru during encode. */ if (option_verbose) { XPR(NT "copy lags source position by %"Q"u bytes\n", sfile->source_position - pos); } stream->msg = "non-seekable source: copy is too far back (try raising -B)"; return XD3_TOOFARBACK; } IF_DEBUG1 (DP(RINT "[getblk] skip %"Q"u starting at %"Q"u\n", pos - sfile->source_position, sfile->source_position)); while (sfile->source_position < pos) { xoff_t skip_blkno; usize_t skip_offset; xd3_blksize_div (sfile->source_position, source, &skip_blkno, &skip_offset); /* Read past unused data */ XD3_ASSERT (pos - sfile->source_position >= source->blksize); XD3_ASSERT (skip_offset == 0); if ((ret = main_getblk_lru (source, skip_blkno, & blru, & is_new))) { return ret; } XD3_ASSERT (is_new); if ((ret = main_read_primary_input (sfile, (uint8_t*) blru->blk, source->blksize, & nread, 1 /* source */))) { return ret; } if (nread != source->blksize) { IF_DEBUG1 (DP(RINT "[getblk] short skip block nread = %u\n", nread)); stream->msg = "non-seekable input is short"; return XD3_INVALID_INPUT; } sfile->source_position += nread; blru->size = nread; IF_DEBUG1 (DP(RINT "[getblk] skip blkno %"Q"u {%"Q"u} size %u\n", skip_blkno, blru->blkno, blru->size)); XD3_ASSERT (sfile->source_position <= pos); } } } XD3_ASSERT (sfile->source_position == pos); if ((ret = main_getblk_lru (source, blkno, & blru, & is_new))) { return ret; } if ((ret = main_read_primary_input (sfile, (uint8_t*) blru->blk, source->blksize, & nread, 1 /* source */))) { return ret; } /* Save the last block read, used to handle non-seekable files. */ sfile->source_position = pos + nread; main_blklru_list_push_back (& lru_list, blru); if (option_verbose > 3) { if (blru->blkno != (xoff_t)-1) { XPR(NT "source block %"Q"u ejects %"Q"u (lru_hits=%u, " "lru_misses=%u, lru_filled=%u)\n", blkno, blru->blkno, lru_hits, lru_misses, lru_filled); } else { XPR(NT "source block %"Q"u read (lru_hits=%u, lru_misses=%u, " "lru_filled=%u)\n", blkno, lru_hits, lru_misses, lru_filled); } } source->curblk = blru->blk; source->curblkno = blkno; source->onblk = nread; blru->size = nread; IF_DEBUG1 (DP(RINT "[main_getblk] blkno %"Q"u onblk %u pos %"Q"u sfile->source_position %"Q"u\n", blkno, nread, pos, sfile->source_position)); return 0; } /********************************************************************* Main routines ********************************************************************/ /* This is a generic input function. It calls the xd3_encode_input or * xd3_decode_input functions and makes calls to the various input * handling routines above, which coordinate external decompression. */ static int main_input (xd3_cmd cmd, main_file *ifile, main_file *ofile, main_file *sfile) { int ret; xd3_stream stream; usize_t nread = 0; usize_t winsize; int stream_flags = 0; xd3_config config; xd3_source source; xoff_t last_total_in = 0; xoff_t last_total_out = 0; long start_time; int stdout_only = 0; int (*input_func) (xd3_stream*); int (*output_func) (xd3_stream*, main_file *); memset (& stream, 0, sizeof (stream)); memset (& source, 0, sizeof (source)); memset (& config, 0, sizeof (config)); config.alloc = main_alloc; config.freef = main_free1; config.iopt_size = option_iopt_size; config.sprevsz = option_sprevsz; do_not_lru = 0; start_time = get_millisecs_now (); if (option_use_checksum) { stream_flags |= XD3_ADLER32; } /* main_input setup. */ switch ((int) cmd) { #if VCDIFF_TOOLS if (1) { case CMD_PRINTHDR: stream_flags |= XD3_JUST_HDR; } else if (1) { case CMD_PRINTHDRS: stream_flags |= XD3_SKIP_WINDOW; } else { case CMD_PRINTDELTA: stream_flags |= XD3_SKIP_EMIT; } ifile->flags |= RD_NONEXTERNAL; input_func = xd3_decode_input; output_func = main_print_func; stream_flags |= XD3_ADLER32_NOVER; stdout_only = 1; break; case CMD_RECODE: case CMD_MERGE: case CMD_MERGE_ARG: /* No source will be read */ stream_flags |= XD3_ADLER32_NOVER | XD3_SKIP_EMIT; ifile->flags |= RD_NONEXTERNAL; input_func = xd3_decode_input; if ((ret = main_init_recode_stream ())) { return EXIT_FAILURE; } if (cmd == CMD_RECODE) { output_func = main_recode_func; } else { output_func = main_merge_func; } break; #endif /* VCDIFF_TOOLS */ #if XD3_ENCODER case CMD_ENCODE: do_not_lru = 1; input_func = xd3_encode_input; output_func = main_write_output; if (option_no_compress) { stream_flags |= XD3_NOCOMPRESS; } if (option_use_altcodetable) { stream_flags |= XD3_ALT_CODE_TABLE; } if (option_smatch_config) { char *s = option_smatch_config, *e; int values[XD3_SOFTCFG_VARCNT]; int got; config.smatch_cfg = XD3_SMATCH_SOFT; for (got = 0; got < XD3_SOFTCFG_VARCNT; got += 1, s = e + 1) { values[got] = strtol (s, &e, 10); if ((values[got] < 0) || (e == s) || (got < XD3_SOFTCFG_VARCNT-1 && *e == 0) || (got == XD3_SOFTCFG_VARCNT-1 && *e != 0)) { XPR(NT "invalid string match specifier (-C) %d: %s\n", got, s); return EXIT_FAILURE; } } config.smatcher_soft.large_look = values[0]; config.smatcher_soft.large_step = values[1]; config.smatcher_soft.small_look = values[2]; config.smatcher_soft.small_chain = values[3]; config.smatcher_soft.small_lchain = values[4]; config.smatcher_soft.max_lazy = values[5]; config.smatcher_soft.long_enough = values[6]; } else { if (option_verbose > 1) { XPR(NT "compression level: %d\n", option_level); } if (option_level == 0) { stream_flags |= XD3_NOCOMPRESS; config.smatch_cfg = XD3_SMATCH_FASTEST; } else if (option_level == 1) { config.smatch_cfg = XD3_SMATCH_FASTEST; } else if (option_level == 2) { config.smatch_cfg = XD3_SMATCH_FASTER; } else if (option_level <= 5) { config.smatch_cfg = XD3_SMATCH_FAST; } else if (option_level == 6) { config.smatch_cfg = XD3_SMATCH_DEFAULT; } else { config.smatch_cfg = XD3_SMATCH_SLOW; } } break; #endif case CMD_DECODE: if (option_use_checksum == 0) { stream_flags |= XD3_ADLER32_NOVER; } ifile->flags |= RD_NONEXTERNAL; input_func = xd3_decode_input; output_func = main_write_output; break; default: XPR(NT "internal error\n"); return EXIT_FAILURE; } main_bsize = winsize = main_get_winsize (ifile); if ((main_bdata = (uint8_t*) main_malloc (winsize)) == NULL) { return EXIT_FAILURE; } config.winsize = winsize; config.srcwin_maxsz = option_srcwinsz; config.getblk = main_getblk_func; config.flags = stream_flags; if ((ret = main_set_secondary_flags (&config)) || (ret = xd3_config_stream (& stream, & config))) { XPR(NT XD3_LIB_ERRMSG (& stream, ret)); return EXIT_FAILURE; } #if VCDIFF_TOOLS if ((cmd == CMD_MERGE || cmd == CMD_MERGE_ARG) && (ret = xd3_whole_state_init (& stream))) { XPR(NT XD3_LIB_ERRMSG (& stream, ret)); return EXIT_FAILURE; } #endif if (cmd != CMD_DECODE) { /* When not decoding, set source now. The decoder delays this * step until XD3_GOTHEADER. */ if (sfile && sfile->filename != NULL) { if ((ret = main_set_source (& stream, cmd, sfile, & source))) { return EXIT_FAILURE; } XD3_ASSERT(stream.src != NULL); } } if (cmd == CMD_PRINTHDR || cmd == CMD_PRINTHDRS || cmd == CMD_PRINTDELTA || cmd == CMD_RECODE) { if (sfile->filename == NULL) { allow_fake_source = 1; sfile->filename = ""; main_set_source (& stream, cmd, sfile, & source); } } /* This times each window. */ get_millisecs_since (); /* Main input loop. */ do { xoff_t input_offset; xoff_t input_remain; usize_t try_read; input_offset = ifile->nread; input_remain = XOFF_T_MAX - input_offset; try_read = (usize_t) min ((xoff_t) config.winsize, input_remain); if ((ret = main_read_primary_input (ifile, main_bdata, try_read, & nread, 0 /* !source */))) { return EXIT_FAILURE; } /* If we've reached EOF tell the stream to flush. */ if (nread < try_read) { stream.flags |= XD3_FLUSH; } #if XD3_ENCODER /* After the first main_read_primary_input completes, we know * all the information needed to encode the application * header. */ if (cmd == CMD_ENCODE && (ret = main_set_appheader (& stream, ifile, sfile))) { return EXIT_FAILURE; } #endif xd3_avail_input (& stream, main_bdata, nread); /* If we read zero bytes after encoding at least one window... */ if (nread == 0 && stream.current_window > 0) { break; } again: ret = input_func (& stream); switch (ret) { case XD3_INPUT: continue; case XD3_GOTHEADER: { XD3_ASSERT (stream.current_window == 0); /* Need to process the appheader as soon as possible. It may * contain a suggested default filename/decompression routine for * the ofile, and it may contain default/decompression routine for * the sources. */ if (cmd == CMD_DECODE) { /* May need to set the sfile->filename if none was given. */ main_get_appheader (& stream, ifile, ofile, sfile); /* Now open the source file. */ if ((sfile->filename != NULL) && (ret = main_set_source (& stream, cmd, sfile, & source))) { return EXIT_FAILURE; } } } /* FALLTHROUGH */ case XD3_WINSTART: { /* e.g., set or unset XD3_SKIP_WINDOW. */ goto again; } case XD3_OUTPUT: { /* Defer opening the output file until the stream produces its * first output for both encoder and decoder, this way we * delay long enough for the decoder to receive the * application header. (Or longer if there are skipped * windows, but I can't think of any reason not to delay * open.) */ if (ofile != NULL && ! main_file_isopen (ofile) && (ret = main_open_output (& stream, ofile)) != 0) { return EXIT_FAILURE; } if ((ret = output_func (& stream, ofile)) && (ret != PRINTHDR_SPECIAL)) { return EXIT_FAILURE; } if (ret == PRINTHDR_SPECIAL) { xd3_abort_stream (& stream); ret = EXIT_SUCCESS; goto done; } ret = 0; xd3_consume_output (& stream); goto again; } case XD3_WINFINISH: { if (IS_ENCODE (cmd) || cmd == CMD_DECODE || cmd == CMD_RECODE) { if (! option_quiet && IS_ENCODE (cmd) && main_file_isopen (sfile)) { /* Warn when no source copies are found */ if (option_verbose && ! xd3_encoder_used_source (& stream)) { XPR(NT "warning: input window %"Q"u..%"Q"u has " "no source copies\n", stream.current_window * winsize, (stream.current_window+1) * winsize); XD3_ASSERT (stream.src != NULL); } /* Limited i-buffer size affects source copies */ if (option_verbose > 1 && stream.i_slots_used > stream.iopt_size) { XPR(NT "warning: input position %"Q"u overflowed " "instruction buffer, needed %u (vs. %u), " "consider raising -I\n", stream.current_window * winsize, stream.i_slots_used, stream.iopt_size); } } if (option_verbose) { char rrateavg[32], wrateavg[32], tm[32]; char rdb[32], wdb[32]; char trdb[32], twdb[32]; long millis = get_millisecs_since (); usize_t this_read = (usize_t)(stream.total_in - last_total_in); usize_t this_write = (usize_t)(stream.total_out - last_total_out); last_total_in = stream.total_in; last_total_out = stream.total_out; if (option_verbose > 1) { XPR(NT "%"Q"u: in %s (%s): out %s (%s): " "total in %s: out %s: %s\n", stream.current_window, main_format_bcnt (this_read, rdb), main_format_rate (this_read, millis, rrateavg), main_format_bcnt (this_write, wdb), main_format_rate (this_write, millis, wrateavg), main_format_bcnt (stream.total_in, trdb), main_format_bcnt (stream.total_out, twdb), main_format_millis (millis, tm)); } else { XPR(NT "%"Q"u: in %s: out %s: total in %s: " "out %s: %s\n", stream.current_window, main_format_bcnt (this_read, rdb), main_format_bcnt (this_write, wdb), main_format_bcnt (stream.total_in, trdb), main_format_bcnt (stream.total_out, twdb), main_format_millis (millis, tm)); } } } goto again; } default: /* input_func() error */ XPR(NT XD3_LIB_ERRMSG (& stream, ret)); return EXIT_FAILURE; } } while (nread == config.winsize); done: /* Close the inputs. (ifile must be open, sfile may be open) */ main_file_close (ifile); if (sfile != NULL) { main_file_close (sfile); } #if VCDIFF_TOOLS if (cmd == CMD_MERGE && (ret = main_merge_output (& stream, ofile))) { return EXIT_FAILURE; } if (cmd == CMD_MERGE_ARG) { xd3_swap_whole_state (& stream.whole_target, & recode_stream->whole_target); } #endif /* VCDIFF_TOOLS */ /* If output file is not open yet because of delayed-open, it means * we never encountered a window in the delta, but it could have had * a VCDIFF header? TODO: solve this elsewhere. For now, it prints * "nothing to output" below, but the check doesn't happen in case * of option_no_output. */ if (! option_no_output && ofile != NULL) { if (!stdout_only && ! main_file_isopen (ofile)) { XPR(NT "nothing to output: %s\n", ifile->filename); return EXIT_FAILURE; } /* Have to close the output before calling * main_external_compression_finish, or else it hangs. */ if (main_file_close (ofile) != 0) { return EXIT_FAILURE; } } #if EXTERNAL_COMPRESSION if ((ret = main_external_compression_finish ())) { XPR(NT "external compression commands failed\n"); return EXIT_FAILURE; } #endif if ((ret = xd3_close_stream (& stream))) { XPR(NT XD3_LIB_ERRMSG (& stream, ret)); return EXIT_FAILURE; } #if XD3_ENCODER if (option_verbose > 1 && cmd == CMD_ENCODE) { XPR(NT "scanner configuration: %s\n", stream.smatcher.name); XPR(NT "target hash table size: %u\n", stream.small_hash.size); if (sfile != NULL && sfile->filename != NULL) { XPR(NT "source hash table size: %u\n", stream.large_hash.size); } } if (option_verbose > 2 && cmd == CMD_ENCODE) { XPR(NT "source copies: %"Q"u (%"Q"u bytes)\n", stream.n_scpy, stream.l_scpy); XPR(NT "target copies: %"Q"u (%"Q"u bytes)\n", stream.n_tcpy, stream.l_tcpy); XPR(NT "adds: %"Q"u (%"Q"u bytes)\n", stream.n_add, stream.l_add); XPR(NT "runs: %"Q"u (%"Q"u bytes)\n", stream.n_run, stream.l_run); } #endif xd3_free_stream (& stream); if (option_verbose) { char tm[32]; long end_time = get_millisecs_now (); xoff_t nwrite = ofile != NULL ? ofile->nwrite : 0; XPR(NT "finished in %s; input %"Q"u output %"Q"u bytes (%0.2f%%)\n", main_format_millis (end_time - start_time, tm), ifile->nread, nwrite, 100.0 * nwrite / ifile->nread); } return EXIT_SUCCESS; } /* free memory before exit, reset single-use variables. */ static void main_cleanup (void) { usize_t i; if (appheader_used != NULL && appheader_used != option_appheader) { main_free (appheader_used); appheader_used = NULL; } main_free (main_bdata); main_bdata = NULL; main_bsize = 0; #if EXTERNAL_COMPRESSION main_free (ext_tmpfile); ext_tmpfile = NULL; #endif for (i = 0; lru && i < lru_size; i += 1) { main_free (lru[i].blk); } main_free (lru); lru = NULL; lru_hits = 0; lru_misses = 0; lru_filled = 0; if (recode_stream != NULL) { xd3_free_stream (recode_stream); main_free (recode_stream); recode_stream = NULL; } if (merge_stream != NULL) { xd3_free_stream (merge_stream); main_free (merge_stream); merge_stream = NULL; } XD3_ASSERT (main_mallocs == 0); } static void setup_environment (int argc, char **argv, int *argc_out, char ***argv_out, char ***argv_free, char **env_free) { int n, i, i0; char *p, *v = getenv("XDELTA"); if (v == NULL) { (*argc_out) = argc; (*argv_out) = argv; (*argv_free) = NULL; (*env_free) = NULL; return; } (*env_free) = (char*) main_malloc(strlen(v) + 1); strcpy(*env_free, v); /* Space needed for extra args, at least # of spaces */ n = argc + 1; for (p = *env_free; *p != 0; ) { if (*p++ == ' ') { n++; } } (*argv_free) = (char**) main_malloc(sizeof(char*) * (n + 1)); (*argv_out) = (*argv_free); (*argv_out)[0] = argv[0]; (*argv_out)[n] = NULL; i = 1; for (p = *env_free; *p != 0; ) { (*argv_out)[i++] = p; while (*p != ' ' && *p != 0) { p++; } while (*p == ' ') { *p++ = 0; } } for (i0 = 1; i0 < argc; i0++) { (*argv_out)[i++] = argv[i0]; } /* Counting spaces is an upper bound, argv stays NULL terminated. */ (*argc_out) = i; while (i <= n) { (*argv_out)[i++] = NULL; } } int #if PYTHON_MODULE || SWIG_MODULE || NOT_MAIN xd3_main_cmdline (int argc, char **argv) #else main (int argc, char **argv) #endif { static const char *flags = "0123456789cdefhnqvDJNORTVs:m:B:C:E:F:I:L:O:M:P:W:A::S::"; xd3_cmd cmd; main_file ifile; main_file ofile; main_file sfile; main_merge_list merge_order; main_merge *merge; int my_optind; char *my_optarg; char *my_optstr; char *sfilename; int env_argc; char **env_argv; char **free_argv; /* malloc() in setup_environment() */ char *free_value; /* malloc() in setup_environment() */ int ret; #ifdef _WIN32 GetStartupInfo(&winStartupInfo); setvbuf(stderr, NULL, _IONBF, 0); /* Do not buffer stderr */ #endif main_file_init (& ifile); main_file_init (& ofile); main_file_init (& sfile); main_merge_list_init (& merge_order); reset_defaults(); free_argv = NULL; free_value = NULL; setup_environment(argc, argv, &env_argc, &env_argv, &free_argv, &free_value); cmd = CMD_NONE; sfilename = NULL; my_optind = 1; argv = env_argv; argc = env_argc; program_name = env_argv[0]; extcomp_types[0].recomp_cmdname = program_name; extcomp_types[0].decomp_cmdname = program_name; takearg: my_optarg = NULL; my_optstr = argv[my_optind]; /* This doesn't use getopt() because it makes trouble for -P & python which * reenter main() and thus care about freeing all memory. I never had much * trust for getopt anyway, it's too opaque. This implements a fairly * standard non-long-option getopt with support for named operations (e.g., * "xdelta3 [encode|decode|printhdr...] < in > out"). */ if (my_optstr) { if (*my_optstr == '-') { my_optstr += 1; } else if (cmd == CMD_NONE) { goto nonflag; } else { my_optstr = NULL; } } while (my_optstr) { char *s; my_optarg = NULL; if ((ret = *my_optstr++) == 0) { my_optind += 1; goto takearg; } /* Option handling: first check for one ':' following the option in * flags, then check for two. The syntax allows: * * 1. -Afoo defines optarg="foo" * 2. -A foo defines optarg="foo" * 3. -A "" defines optarg="" (allows empty-string) * 4. -A [EOA or -moreargs] error (mandatory case) * 5. -A [EOA -moreargs] defines optarg=NULL (optional case) * 6. -A=foo defines optarg="foo" * 7. -A= defines optarg="" (mandatory case) * 8. -A= defines optarg=NULL (optional case) * * See tests in test_command_line_arguments(). */ s = strchr (flags, ret); if (s && s[1] && s[1] == ':') { int eqcase = 0; int option = s[2] && s[2] == ':'; /* Case 1, set optarg to the remaining characters. */ my_optarg = my_optstr; my_optstr = ""; /* Case 2-5 */ if (*my_optarg == 0) { /* Condition 4-5 */ int have_arg = (my_optind < (argc - 1) && *argv[my_optind+1] != '-'); if (! have_arg) { if (! option) { /* Case 4 */ XPR(NT "-%c: requires an argument\n", ret); ret = EXIT_FAILURE; goto cleanup; } /* Case 5. */ my_optarg = NULL; } else { /* Case 2-3. */ my_optarg = argv[++my_optind]; } } /* Case 6-8. */ else if (*my_optarg == '=') { /* Remove the = in all cases. */ my_optarg += 1; eqcase = 1; if (option && *my_optarg == 0) { /* Case 8. */ my_optarg = NULL; } } } switch (ret) { /* case: if no '-' was found, maybe check for a command name. */ nonflag: if (strcmp (my_optstr, "decode") == 0) { cmd = CMD_DECODE; } else if (strcmp (my_optstr, "encode") == 0) { #if XD3_ENCODER cmd = CMD_ENCODE; #else XPR(NT "encoder support not compiled\n"); return EXIT_FAILURE; #endif } else if (strcmp (my_optstr, "config") == 0) { cmd = CMD_CONFIG; } #if REGRESSION_TEST else if (strcmp (my_optstr, "test") == 0) { cmd = CMD_TEST; } #endif #if VCDIFF_TOOLS else if (strcmp (my_optstr, "printhdr") == 0) { cmd = CMD_PRINTHDR; } else if (strcmp (my_optstr, "printhdrs") == 0) { cmd = CMD_PRINTHDRS; } else if (strcmp (my_optstr, "printdelta") == 0) { cmd = CMD_PRINTDELTA; } else if (strcmp (my_optstr, "recode") == 0) { cmd = CMD_RECODE; } else if (strcmp (my_optstr, "merge") == 0) { cmd = CMD_MERGE; } #endif /* If no option was found and still no command, let the default * command be encode. The remaining args are treated as * filenames. */ if (cmd == CMD_NONE) { cmd = CMD_DEFAULT; my_optstr = NULL; break; } else { /* But if we find a command name, continue the getopt loop. */ my_optind += 1; goto takearg; } /* gzip-like options */ case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': option_level = ret - '0'; break; case 'f': option_force = 1; break; case 'v': option_verbose += 1; option_quiet = 0; break; case 'q': option_quiet = 1; option_verbose = 0; break; case 'c': option_stdout = 1; break; case 'd': if (cmd == CMD_NONE) { cmd = CMD_DECODE; } else { ret = main_help (); goto exit; } break; case 'e': #if XD3_ENCODER if (cmd == CMD_NONE) { cmd = CMD_ENCODE; } else { ret = main_help (); goto exit; } break; #else XPR(NT "encoder support not compiled\n"); return EXIT_FAILURE; #endif case 'n': option_use_checksum = 0; break; case 'N': option_no_compress = 1; break; case 'T': option_use_altcodetable = 1; break; case 'C': option_smatch_config = my_optarg; break; case 'J': option_no_output = 1; break; case 'S': if (my_optarg == NULL) { option_use_secondary = 1; option_secondary = "none"; } else { option_use_secondary = 1; option_secondary = my_optarg; } break; case 'A': if (my_optarg == NULL) { option_use_appheader = 0; } else { option_appheader = (uint8_t*) my_optarg; } break; case 'B': if ((ret = main_atou (my_optarg, & option_srcwinsz, XD3_MINSRCWINSZ, 0, 'B'))) { goto exit; } break; case 'I': if ((ret = main_atou (my_optarg, & option_iopt_size, 0, 0, 'I'))) { goto exit; } break; case 'P': if ((ret = main_atou (my_optarg, & option_sprevsz, 0, 0, 'P'))) { goto exit; } break; case 'W': if ((ret = main_atou (my_optarg, & option_winsize, XD3_ALLOCSIZE, XD3_HARDMAXWINSIZE, 'W'))) { goto exit; } break; case 'D': #if EXTERNAL_COMPRESSION == 0 if (option_verbose > 0) { XPR(NT "warning: -D option ignored, " "external compression support was not compiled\n"); } #else option_decompress_inputs = 0; #endif break; case 'R': #if EXTERNAL_COMPRESSION == 0 if (option_verbose > 0) { XPR(NT "warning: -R option ignored, " "external compression support was not compiled\n"); } #else option_recompress_outputs = 0; #endif break; case 's': if (sfilename != NULL) { XPR(NT "specify only one source file\n"); goto cleanup; } sfilename = my_optarg; break; case 'm': if ((merge = (main_merge*) main_malloc (sizeof (main_merge))) == NULL) { goto cleanup; } main_merge_list_push_back (& merge_order, merge); merge->filename = my_optarg; break; case 'V': ret = main_version (); goto exit; default: ret = main_help (); goto exit; } } option_source_filename = sfilename; /* In case there were no arguments, set the default command. */ if (cmd == CMD_NONE) { cmd = CMD_DEFAULT; } argc -= my_optind; argv += my_optind; /* There may be up to two more arguments. */ if (argc > 2) { XPR(NT "too many filenames: %s ...\n", argv[2]); goto cleanup; } ifile.flags = RD_FIRST; sfile.flags = RD_FIRST; sfile.filename = option_source_filename; /* The infile takes the next argument, if there is one. But if not, infile * is set to stdin. */ if (argc > 0) { ifile.filename = argv[0]; if ((ret = main_file_open (& ifile, ifile.filename, XO_READ))) { goto cleanup; } } else { XSTDIN_XF (& ifile); } /* The ofile takes the following argument, if there is one. But if not, it * is left NULL until the application header is processed. It will be set * in main_open_output. */ if (argc > 1) { /* Check for conflicting arguments. */ if (option_stdout && ! option_quiet) { XPR(NT "warning: -c option overrides output filename: %s\n", argv[1]); } if (! option_stdout) { ofile.filename = argv[1]; } } #if VCDIFF_TOOLS if (cmd == CMD_MERGE && (ret = main_merge_arguments (&merge_order))) { goto cleanup; } #endif /* VCDIFF_TOOLS */ switch (cmd) { case CMD_PRINTHDR: case CMD_PRINTHDRS: case CMD_PRINTDELTA: #if XD3_ENCODER case CMD_ENCODE: case CMD_RECODE: case CMD_MERGE: #endif case CMD_DECODE: ret = main_input (cmd, & ifile, & ofile, & sfile); break; #if REGRESSION_TEST case CMD_TEST: main_config (); ret = xd3_selftest (); break; #endif case CMD_CONFIG: ret = main_config (); break; default: ret = main_help (); break; } if (0) { cleanup: ret = EXIT_FAILURE; exit: (void)0; } #if EXTERNAL_COMPRESSION if (ext_tmpfile != NULL) { unlink (ext_tmpfile); } #endif main_file_cleanup (& ifile); main_file_cleanup (& ofile); main_file_cleanup (& sfile); while (! main_merge_list_empty (& merge_order)) { merge = main_merge_list_pop_front (& merge_order); main_free (merge); } main_free (free_argv); main_free (free_value); main_cleanup (); fflush (stdout); fflush (stderr); return ret; } static int main_help (void) { main_version(); /* Note: update wiki when command-line features change */ DP(RINT "usage: xdelta3 [command/options] [input [output]]\n"); DP(RINT "make patch:\n"); DP(RINT "\n"); DP(RINT " xdelta3.exe -e -s old_file new_file delta_file\n"); DP(RINT "\n"); DP(RINT "apply patch:\n"); DP(RINT "\n"); DP(RINT " xdelta3.exe -d -s old_file delta_file decoded_new_file\n"); DP(RINT "\n"); DP(RINT "special command names:\n"); DP(RINT " config prints xdelta3 configuration\n"); DP(RINT " decode decompress the input\n"); DP(RINT " encode compress the input%s\n", XD3_ENCODER ? "" : " [Not compiled]"); #if REGRESSION_TEST DP(RINT " test run the builtin tests\n"); #endif #if VCDIFF_TOOLS DP(RINT "special commands for VCDIFF inputs:\n"); DP(RINT " printdelta print information about the entire delta\n"); DP(RINT " printhdr print information about the first window\n"); DP(RINT " printhdrs print information about all windows\n"); DP(RINT " recode encode with new application/secondary settings\n"); DP(RINT " merge merge VCDIFF inputs (see below)\n"); #endif DP(RINT "merge patches:\n"); DP(RINT "\n"); DP(RINT " xdelta3 merge -m 1.vcdiff -m 2.vcdiff 3.vcdiff merged.vcdiff\n"); DP(RINT "\n"); DP(RINT "standard options:\n"); DP(RINT " -0 .. -9 compression level\n"); DP(RINT " -c use stdout\n"); DP(RINT " -d decompress\n"); DP(RINT " -e compress%s\n", XD3_ENCODER ? "" : " [Not compiled]"); DP(RINT " -f force overwrite\n"); DP(RINT " -h show help\n"); DP(RINT " -q be quiet\n"); DP(RINT " -v be verbose (max 2)\n"); DP(RINT " -V show version\n"); DP(RINT "memory options:\n"); DP(RINT " -B bytes source window size\n"); DP(RINT " -W bytes input window size\n"); DP(RINT " -P size compression duplicates window\n"); DP(RINT " -I size instruction buffer size (0 = unlimited)\n"); DP(RINT "compression options:\n"); DP(RINT " -s source source file to copy from (if any)\n"); DP(RINT " -S [djw|fgk] enable/disable secondary compression\n"); DP(RINT " -N disable small string-matching compression\n"); DP(RINT " -D disable external decompression (encode/decode)\n"); DP(RINT " -R disable external recompression (decode)\n"); DP(RINT " -n disable checksum (encode/decode)\n"); DP(RINT " -C soft config (encode, undocumented)\n"); DP(RINT " -A [apphead] disable/provide application header (encode)\n"); DP(RINT " -J disable output (check/compute only)\n"); DP(RINT " -T use alternate code table (test)\n"); DP(RINT " -m arguments for \"merge\"\n"); DP(RINT "the XDELTA environment variable may contain extra args:\n"); DP(RINT " XDELTA=\"-s source-x.y.tar.gz\" \\\n"); DP(RINT " tar --use-compress-program=xdelta3 \\\n"); DP(RINT " -cf target-x.z.tar.gz.vcdiff target-x.y\n"); return EXIT_FAILURE; }