/*************************************************************************** gbx_stream.c (c) 2000-2013 BenoƮt Minisini 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, 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***************************************************************************/ #define __GBX_STREAM_C #include "gb_common.h" #include #include #include #include #include #include #include #include #include #include "gb_common_buffer.h" #include "gb_common_swap.h" #include "gb_common_check.h" #include "gb_error.h" #include "gbx_value.h" #include "gb_limit.h" #include "gbx_exec.h" #include "gbx_project.h" #include "gb_file.h" #include "gambas.h" #include "gbx_regexp.h" #include "gbx_api.h" #include "gbx_string.h" #include "gbx_watch.h" #include "gbx_c_array.h" #include "gbx_c_collection.h" #include "gbx_struct.h" #include "gbx_stream.h" int STREAM_eff_read; static STREAM _temp_stream = { 0 }; static STREAM *_temp_save = NULL; static int _temp_level; #if DEBUG_STREAM static unsigned char _tag = 0; static int _nopen = 0; #endif void STREAM_exit(void) { #if DEBUG_STREAM if (_nopen) ERROR_warning("%d streams yet opened", _nopen); #endif STREAM_close(&_temp_stream); } static void wait_for_fd_ready_to_read(fd) { if (fd >= 0) WATCH_process(fd, -1, 0); } bool STREAM_in_archive(const char *path) { ARCHIVE *arch; if (FILE_is_relative(path)) { ARCHIVE_get_current(&arch); if (arch->name || EXEC_arch) // || !FILE_exist_real(path)) - Why that test ? return TRUE; } return FALSE; } int STREAM_get_readable(STREAM *stream, int *len) { int fd; off_t off; off_t end; fd = STREAM_handle(stream); if (fd < 0) return TRUE; //_IOCTL: #ifdef FIONREAD if (!stream->common.no_fionread) { if (ioctl(fd, FIONREAD, len) >= 0) return 0; stream->common.no_fionread = TRUE; } #endif //_LSEEK: if (!stream->common.no_lseek) { off = lseek(fd, 0, SEEK_CUR); if (off >= 0) { end = lseek(fd, 0, SEEK_END); if (end >= 0) { *len = (int)(end - off); off = lseek(fd, off, SEEK_SET); if (off >= 0) return 0; } } stream->common.no_lseek = TRUE; } //fprintf(stderr, "STREAM_get_readable: lseek: %d\n", *len); return (-1); } static int default_eof(STREAM *stream) { int fd; int ilen; fd = STREAM_handle(stream); if (fd < 0) return TRUE; if (STREAM_is_blocking(stream) && !stream->common.available_now) wait_for_fd_ready_to_read(STREAM_handle(stream)); if (STREAM_get_readable(stream, &ilen)) return TRUE; return (ilen == 0); } // STREAM_open *MUST* initialize completely the stream structure void STREAM_open(STREAM *stream, const char *path, int mode) { STREAM_CLASS *sclass; int fd; stream->type = NULL; if (mode & ST_PIPE) { sclass = &STREAM_pipe; } else if (mode & ST_MEMORY) { sclass = &STREAM_memory; } else if (mode & ST_STRING) { sclass = &STREAM_string; } else { // ".99" is used for opening a file descriptor in direct mode if (FILE_is_relative(path) && !((mode & ST_DIRECT) && path[0] == '.' && isdigit(path[1]))) { ARCHIVE *arch = NULL; if (strncmp(path, "../", 3)) ARCHIVE_get_current(&arch); else if (!EXEC_arch) path += 3; if ((arch && arch->name) || EXEC_arch) // || !FILE_exist_real(path)) - Why that test ? { sclass = &STREAM_arch; goto _OPEN; } if ((mode & ST_ACCESS) != ST_READ || mode & ST_PIPE) THROW(E_ACCESS); } if (mode & ST_DIRECT) sclass = &STREAM_direct; else sclass = &STREAM_buffer; } _OPEN: stream->common.mode = mode; stream->common.swap = FALSE; stream->common.eol = 0; stream->common.eof = FALSE; stream->common.buffer = NULL; stream->common.buffer_pos = 0; stream->common.buffer_len = 0; stream->common.no_fionread = FALSE; stream->common.no_lseek = FALSE; stream->common.standard = FALSE; stream->common.blocking = TRUE; stream->common.available_now = FALSE; stream->common.redirected = FALSE; stream->common.redirect = NULL; if ((*(sclass->open))(stream, path, mode, NULL)) THROW_SYSTEM(errno, path); stream->type = sclass; fd = STREAM_handle(stream); if (fd >= 0) fcntl(fd, F_SETFD, fcntl(fd, F_GETFD) | O_CLOEXEC); #if DEBUG_STREAM _tag++; stream->common.tag = _tag; _nopen++; fprintf(stderr, "Open %p [%d] (%d)\n", stream, _tag, _nopen); #endif } void STREAM_release(STREAM *stream) { if (stream->common.buffer) { #if DEBUG_STREAM fprintf(stderr, "Stream %p [%d]: Free buffer\n", stream, stream->common.tag); #endif FREE(&stream->common.buffer); stream->common.buffer_pos = 0; stream->common.buffer_len = 0; } STREAM_cancel(stream); } static void stop_watching(STREAM *stream, int mode) { int fd = STREAM_handle(stream); if (fd >= 0) GB_Watch(fd, mode, NULL, 0); } void STREAM_close(STREAM *stream) { STREAM_release(stream); if (!stream->type) return; stop_watching(stream, GB_WATCH_NONE); if (stream->common.standard || !(*(stream->type->close))(stream)) stream->type = NULL; #if DEBUG_STREAM _nopen--; fprintf(stderr, "Close %p [%d] (%d)\n", stream, stream->common.tag, _nopen); #endif } void STREAM_flush(STREAM *stream) { STREAM_end(stream); if (!stream->type) THROW(E_CLOSED); (*(stream->type->flush))(stream); } static void read_buffer(STREAM *stream, void **addr, int *len) { int l = stream->common.buffer_len - stream->common.buffer_pos; if (l > *len) l = *len; if (l > 0) { memcpy(*addr, stream->common.buffer + stream->common.buffer_pos, l); *addr = (char *)*addr + l; *len -= l; STREAM_eff_read += l; stream->common.buffer_pos += l; } } void STREAM_read(STREAM *stream, void *addr, int len) { STREAM_eff_read = 0; if (STREAM_is_closed(stream)) THROW(E_CLOSED); if (len <= 0) return; if (stream->common.buffer) read_buffer(stream, &addr, &len); while ((*(stream->type->read))(stream, addr, len)) { if (errno == EINTR) continue; stop_watching(stream, GB_WATCH_READ); switch(errno) { case 0: case EAGAIN: THROW(E_EOF); case EIO: THROW(E_READ); default: THROW_SYSTEM(errno, NULL); } } } #if 0 char STREAM_getchar(STREAM *stream) { char c = 0; bool ret; if (!stream->type) THROW(E_CLOSED); if (stream->common.buffer && stream->common.buffer_pos < stream->common.buffer_len) return stream->common.buffer[stream->common.buffer_pos++]; for(;;) { if (stream->type->getchar) ret = (*(stream->type->getchar))(stream, &c); else ret = (*(stream->type->read))(stream, &c, 1); if (!ret) break; if (errno == EINTR) continue; stop_watching(stream, GB_WATCH_READ); switch(errno) { case 0: case EAGAIN: THROW(E_EOF); case EIO: THROW(E_READ); default: THROW_SYSTEM(errno, NULL); } } return c; } #endif int STREAM_read_max(STREAM *stream, void *addr, int len) { bool err; int flags, handle; int save_errno; if (!stream->type) THROW(E_CLOSED); STREAM_eff_read = 0; if (stream->common.buffer) read_buffer(stream, &addr, &len); if (len > 0) { for(;;) { if (stream->common.available_now) { err = (*(stream->type->read))(stream, addr, len); } else { handle = STREAM_handle(stream); flags = fcntl(handle, F_GETFL); if ((flags & O_NONBLOCK) == 0) { wait_for_fd_ready_to_read(handle); fcntl(handle, F_SETFL, flags | O_NONBLOCK); } errno = 0; err = (*(stream->type->read))(stream, addr, len); save_errno = errno; if ((flags & O_NONBLOCK) == 0) fcntl(handle, F_SETFL, flags); errno = save_errno; } if (!err) break; if (errno == EINTR) continue; if (errno == 0) stop_watching(stream, GB_WATCH_READ); switch(errno) { case 0: case EAGAIN: return STREAM_eff_read; case EIO: return -1; //THROW(E_READ); default: THROW_SYSTEM(errno, NULL); } } } return STREAM_eff_read; } void STREAM_write(STREAM *stream, void *addr, int len) { if (STREAM_is_closed_for_writing(stream)) THROW(E_CLOSED); if (len <= 0) return; if (stream->common.redirected) stream = stream->common.redirect; while ((*(stream->type->write))(stream, addr, len)) { switch(errno) { case EINTR: break; case EIO: THROW(E_WRITE); default: THROW_SYSTEM(errno, NULL); } } } void STREAM_write_zeros(STREAM *stream, int len) { static const char buffer[32] = { 0 }; int lenw; while (len > 0) { lenw = Min(len, sizeof(buffer)); STREAM_write(stream, (void *)buffer, lenw); len -= lenw; } } void STREAM_write_eol(STREAM *stream) { if (STREAM_is_closed_for_writing(stream)) THROW(E_CLOSED); switch(stream->common.eol) { case ST_EOL_UNIX: STREAM_write(stream, "\n", 1); break; case ST_EOL_WINDOWS: STREAM_write(stream, "\r\n", 2); break; case ST_EOL_MAC: STREAM_write(stream, "\r", 1); break; } } int64_t STREAM_tell(STREAM *stream) { int64_t pos; if (STREAM_is_closed(stream)) THROW(E_CLOSED); if (stream->type->tell(stream, &pos)) /*THROW(E_SEEK, ERROR_get());*/ THROW_SYSTEM(errno, NULL); return pos; } void STREAM_seek(STREAM *stream, int64_t pos, int whence) { if (STREAM_is_closed(stream)) THROW(E_CLOSED); if (stream->type->seek(stream, pos, whence)) { switch(errno) { case EINVAL: THROW(E_ARG); default: THROW_SYSTEM(errno, NULL); } } } static void fill_buffer(STREAM *stream, char *addr) { bool err; int flags, fd; STREAM_eff_read = 0; fd = STREAM_handle(stream); for(;;) { if (stream->common.available_now) err = (*(stream->type->read))(stream, addr, STREAM_BUFFER_SIZE); else { wait_for_fd_ready_to_read(fd); flags = fcntl(fd, F_GETFL); if ((flags & O_NONBLOCK) == 0) fcntl(fd, F_SETFL, flags | O_NONBLOCK); err = (*(stream->type->read))(stream, addr, STREAM_BUFFER_SIZE); if ((flags & O_NONBLOCK) == 0) { int save_errno = errno; fcntl(fd, F_SETFL, flags); errno = save_errno; } } if (!err) break; if (errno == EINTR) continue; if (STREAM_eff_read == 0) stop_watching(stream, GB_WATCH_READ); switch(errno) { case 0: case EAGAIN: case EINPROGRESS: return; case EIO: return; //THROW(E_READ); default: THROW_SYSTEM(errno, NULL); } } } static char *input(STREAM *stream, bool line, char *escape) { int len = 0; int start; unsigned char c, lc = 0; void *test, *test_org; bool eol; char *buffer; int buffer_len; int buffer_pos; char *addr; addr = NULL; if (!line) test = &&__TEST_INPUT; else { switch(stream->common.eol) { case 1: test = &&__TEST_WINDOWS; break; case 2: test = &&__TEST_MAC; break; default: test = &&__TEST_UNIX; break; } } test_org = test; stream->common.eof = FALSE; if (!STREAM_is_blocking(stream) && STREAM_eof(stream)) { //printf("EOF!\n"); fflush(stdout); THROW(E_EOF); } buffer = stream->common.buffer; buffer_len = stream->common.buffer_len; buffer_pos = stream->common.buffer_pos; if (!buffer) { #if DEBUG_STREAM fprintf(stderr, "Stream %p [%d]: Alloc buffer\n", stream, stream->common.tag); #endif ALLOC(&buffer, STREAM_BUFFER_SIZE); buffer_pos = 0; buffer_len = 0; } /*eof_func = stream->type->eof; if (!eof_func) eof_func = default_eof;*/ start = buffer_pos; for(;;) { if (buffer_pos == buffer_len) { if (len) { addr = STRING_add(addr, buffer + start, len); len = 0; } stream->common.buffer = buffer; stream->common.buffer_pos = buffer_pos; stream->common.buffer_len = buffer_len; fill_buffer(stream, buffer); buffer_pos = 0; buffer_len = STREAM_eff_read; if (!buffer_len) { stream->common.eof = TRUE; break; } start = 0; } c = buffer[buffer_pos++]; //STREAM_getchar(stream); if (escape && c == *escape) { if (test == &&__TEST_CONT) test = test_org; else test = &&__TEST_CONT; } goto *test; __TEST_INPUT: eol = (c <= ' '); goto __TEST_OK; __TEST_UNIX: eol = (c == '\n'); if (lc == '\r') len--; lc = c; goto __TEST_OK; __TEST_MAC: eol = (c == '\r'); goto __TEST_OK; __TEST_WINDOWS: eol = (lc == '\r') && (c == '\n'); if (eol) len--; lc = c; goto __TEST_OK; __TEST_OK: if (eol) break; __TEST_CONT: len++; } if (len > 0) addr = STRING_add(addr, buffer + start, len); else if (len < 0) addr = STRING_extend(addr, STRING_length(addr) + len); stream->common.buffer = buffer; stream->common.buffer_pos = buffer_pos; stream->common.buffer_len = buffer_len; return addr; } char *STREAM_line_input(STREAM *stream, char *escape) { return input(stream, TRUE, escape); } char *STREAM_input(STREAM *stream) { return input(stream, FALSE, NULL); } static int read_length(STREAM *stream) { union { unsigned char _data[4]; short _short; int _int; } buffer; int len = 0; STREAM_read(stream, buffer._data, 1); switch (buffer._data[0] >> 6) { case 0: case 1: len = buffer._data[0]; break; case 2: STREAM_read(stream, &buffer._data[1], 1); buffer._data[0] &= 0x3F; if (!EXEC_big_endian) SWAP_short(&buffer._short); len = buffer._short; break; case 3: STREAM_read(stream, &buffer._data[1], 3); buffer._data[0] &= 0x3F; if (!EXEC_big_endian) SWAP_int(&buffer._int); len = buffer._int; break; } return len; } static STREAM *enter_temp_stream(STREAM *stream) { if (stream != &_temp_stream) { _temp_save = stream; _temp_level = 0; if (&_temp_stream.type) STREAM_close(&_temp_stream); STREAM_open(&_temp_stream, NULL, ST_STRING | ST_WRITE); } _temp_level++; return &_temp_stream; } static STREAM *leave_temp_stream(void) { _temp_level--; if (_temp_level > 0) return &_temp_stream; STREAM_write(_temp_save, _temp_stream.string.buffer, STRING_length(_temp_stream.string.buffer)); STREAM_close(&_temp_stream); return _temp_save; } static void read_structure(STREAM *stream, CLASS *class, char *base); static void read_value_ctype(STREAM *stream, CLASS *class, CTYPE ctype, void *addr) { TYPE type; VALUE temp; type = (TYPE)ctype.id; if (type == T_OBJECT && ctype.value >= 0) { class = class->load->class_ref[ctype.value]; if (CLASS_is_struct(class)) { CSTRUCT *structure = (CSTRUCT *)OBJECT_create(class, NULL, NULL, 0); OBJECT_REF(structure); read_structure(stream, class, (char *)structure + sizeof(CSTRUCT)); *((void **)addr) = structure; return; } } else if (type == TC_STRUCT) { class = class->load->class_ref[ctype.value]; read_structure(stream, class, addr); return; } STREAM_read_type(stream, type, &temp); VALUE_class_write(class, &temp, addr, ctype); } static void read_structure(STREAM *stream, CLASS *class, char *base) { int i, n; CLASS_DESC *desc; char *addr; CTYPE ctype; for (n = 0; n < class->n_desc; n++) { desc = class->table[n].desc; ctype = desc->variable.ctype; addr = base + desc->variable.offset; if (ctype.id == TC_STRUCT) { read_structure(stream, class->load->class_ref[ctype.value], addr); } else if (ctype.id == TC_ARRAY) { CLASS_ARRAY *adesc = class->load->array[ctype.value]; int size = CLASS_sizeof_ctype(class, adesc->ctype); for (i = 0; i < CARRAY_get_static_count(adesc); i++) { read_value_ctype(stream, desc->variable.class, adesc->ctype, addr); addr += size; } } else { read_value_ctype(stream, desc->variable.class, ctype, addr); } } } void STREAM_read_type(STREAM *stream, TYPE type, VALUE *value) { bool variant; int len; union { unsigned char _byte; short _short; int _int; float _single; unsigned char _data[4]; } buffer; variant = (type == T_VARIANT); if (variant || TYPE_is_object(type)) { if (TYPE_is_pure_object(type) && CLASS_is_struct((CLASS *)type)) { CLASS *class = (CLASS *)type; CSTRUCT *structure = (CSTRUCT *)OBJECT_create(class, NULL, NULL, 0); read_structure(stream, class, (char *)structure + sizeof(CSTRUCT)); value->_object.class = class; value->_object.object = structure; return; } STREAM_read(stream, &buffer._byte, 1); if (buffer._byte == 0) { value->type = T_VARIANT; value->_variant.vtype = T_NULL; return; } if (buffer._byte == 'A') { CARRAY *array; int size, i; VALUE temp; void *data; STREAM_read(stream, &buffer._byte, 1); type = (TYPE)buffer._byte; size = read_length(stream); GB_ArrayNew((GB_ARRAY *)&array, type, size); for (i = 0; i < size; i++) { data = CARRAY_get_data(array, i); STREAM_read_type(stream, type, &temp); VALUE_write(&temp, data, type); } value->type = T_VARIANT; value->_variant.vtype = (TYPE)OBJECT_class(array); value->_variant.value._object = array; return; } if (buffer._byte == 'c' || buffer._byte == 'C') { GB_COLLECTION col; int size, i; VALUE temp; char *key; char tkey[32]; int len; size = read_length(stream); GB_CollectionNew(&col, buffer._byte == 'c'); for (i = 0; i < size; i++) { len = read_length(stream); if (len < sizeof(tkey)) key = tkey; else key = STRING_new(NULL, len); STREAM_read(stream, key, len); STREAM_read_type(stream, T_VARIANT, &temp); GB_CollectionSet(col, key, len, (GB_VARIANT *)&temp); if (len >= 32) STRING_free_real(key); } value->type = T_VARIANT; value->_variant.vtype = (TYPE)OBJECT_class(col); value->_variant.value._object = col; return; } if (variant) type = buffer._byte; } value->type = type; switch (type) { case T_BOOLEAN: STREAM_read(stream, &buffer._byte, 1); value->_integer.value = (buffer._byte != 0) ? (-1) : 0; break; case T_BYTE: STREAM_read(stream, &buffer._byte, 1); value->_integer.value = buffer._byte; break; case T_SHORT: STREAM_read(stream, &buffer._short, sizeof(short)); if (stream->common.swap) SWAP_short(&buffer._short); value->_integer.value = buffer._short; break; case T_INTEGER: STREAM_read(stream, &value->_integer.value, sizeof(int)); if (stream->common.swap) SWAP_int(&value->_integer.value); break; case T_LONG: STREAM_read(stream, &value->_long.value, sizeof(int64_t)); if (stream->common.swap) SWAP_int64(&value->_long.value); break; case T_POINTER: STREAM_read(stream, &value->_pointer.value, sizeof(void *)); if (stream->common.swap) SWAP_pointer(&value->_pointer.value); break; case T_SINGLE: STREAM_read(stream, &buffer._single, sizeof(float)); if (stream->common.swap) SWAP_float(&buffer._single); value->_single.value = buffer._single; break; case T_FLOAT: STREAM_read(stream, &value->_float.value, sizeof(double)); if (stream->common.swap) SWAP_double(&value->_float.value); break; case T_DATE: STREAM_read(stream, &value->_date.date, sizeof(int)); STREAM_read(stream, &value->_date.time, sizeof(int)); if (stream->common.swap) { SWAP_int(&value->_date.date); SWAP_int(&value->_date.time); } break; case T_CSTRING: value->type = T_STRING; // continue case T_STRING: if (stream->type == &STREAM_memory) { ssize_t slen; if (CHECK_strlen(stream->memory.addr + stream->memory.pos, &slen)) THROW(E_READ); len = (int)slen; } else len = read_length(stream); if (len > 0) { STRING_new_temp_value(value, NULL, labs(len)); STREAM_read(stream, value->_string.addr, len); } else { STRING_void_value(value); } break; default: THROW(E_TYPE, "Standard type", TYPE_get_name(type)); } if (variant) VALUE_convert_variant(value); } static void write_length(STREAM *stream, int len) { union { unsigned char _byte; short _short; int _int; } buffer; if (len < 0x80) { buffer._byte = (unsigned char)len; STREAM_write(stream, &buffer._byte, 1); } else if (len < 0x4000) { buffer._short = (short)len | 0x8000; if (!EXEC_big_endian) SWAP_short(&buffer._short); STREAM_write(stream, &buffer._short, sizeof(short)); } else { buffer._int = len | 0xC0000000; if (!EXEC_big_endian) SWAP_int(&buffer._int); STREAM_write(stream, &buffer._int, sizeof(int)); } } void STREAM_write_type(STREAM *stream, TYPE type, VALUE *value) { union { unsigned char _byte; short _short; int _int; int64_t _long; float _single; double _float; unsigned char _data[8]; void *_pointer; } buffer; if (VALUE_is_null(value)) { buffer._byte = 0; STREAM_write(stream, &buffer._byte, 1); return; } if (type == T_VARIANT) { VARIANT_undo(value); type = value->type; if (!TYPE_is_object(type)) { buffer._byte = (unsigned char)type; STREAM_write(stream, &buffer._byte, 1); } } if (TYPE_is_object(type)) type = T_OBJECT; switch (type) { case T_BOOLEAN: buffer._byte = value->_integer.value ? 0xFF : 0; STREAM_write(stream, &buffer._byte, 1); break; case T_BYTE: buffer._byte = (unsigned char)value->_integer.value; STREAM_write(stream, &buffer._byte, 1); break; case T_SHORT: buffer._short = (short)value->_integer.value; if (stream->common.swap) SWAP_short(&buffer._short); STREAM_write(stream, &buffer._short, sizeof(short)); break; case T_INTEGER: buffer._int = value->_integer.value; if (stream->common.swap) SWAP_int(&buffer._int); STREAM_write(stream, &buffer._int, sizeof(int)); break; case T_LONG: buffer._long = value->_long.value; if (stream->common.swap) SWAP_int64(&buffer._long); STREAM_write(stream, &buffer._long, sizeof(int64_t)); break; case T_POINTER: buffer._pointer = value->_pointer.value; if (stream->common.swap) SWAP_pointer(&buffer._pointer); STREAM_write(stream, &buffer._pointer, sizeof(void *)); break; case T_SINGLE: buffer._single = value->_single.value; if (stream->common.swap) SWAP_float(&buffer._single); STREAM_write(stream, &buffer._single, sizeof(float)); break; case T_FLOAT: buffer._float = value->_float.value; if (stream->common.swap) SWAP_double(&buffer._float); STREAM_write(stream, &buffer._float, sizeof(double)); break; case T_DATE: buffer._int = value->_date.date; if (stream->common.swap) SWAP_int(&buffer._int); STREAM_write(stream, &buffer._int, sizeof(int)); buffer._int = value->_date.time; if (stream->common.swap) SWAP_int(&buffer._int); STREAM_write(stream, &buffer._int, sizeof(int)); break; case T_STRING: case T_CSTRING: if (stream->type == &STREAM_memory) { STREAM_write(stream, value->_string.addr + value->_string.start, value->_string.len); buffer._byte = 0; STREAM_write(stream, &buffer._byte, 1); } else { write_length(stream, value->_string.len); STREAM_write(stream, value->_string.addr + value->_string.start, value->_string.len); } break; case T_OBJECT: { CLASS *class = OBJECT_class(value->_object.object); void *structure; if (class->quick_array == CQA_ARRAY || class->is_array_of_struct) { CARRAY *array = (CARRAY *)value->_object.object; VALUE temp; void *data; int i; if (OBJECT_is_locked((OBJECT *)array)) THROW(E_SERIAL); OBJECT_lock((OBJECT *)array, TRUE); if (!array->ref) { buffer._byte = 'A'; STREAM_write(stream, &buffer._byte, 1); buffer._byte = (unsigned char)Min(T_OBJECT, array->type); STREAM_write(stream, &buffer._byte, 1); write_length(stream, array->count); } if (class->is_array_of_struct) { for (i = 0; i < array->count; i++) { data = CARRAY_get_data(array, i); structure = CSTRUCT_create_static(array, (CLASS *)array->type, data); temp._object.class = OBJECT_class(structure); temp._object.object = structure; OBJECT_REF(structure); STREAM_write_type(stream, T_OBJECT, &temp); OBJECT_UNREF(structure); } } else { for (i = 0; i < array->count; i++) { data = CARRAY_get_data(array, i); VALUE_read(&temp, data, array->type); STREAM_write_type(stream, array->type, &temp); } } OBJECT_lock((OBJECT *)array, FALSE); break; } else if (class->quick_array == CQA_COLLECTION) { CCOLLECTION *col = (CCOLLECTION *)value->_object.object; GB_COLLECTION_ITER iter; char *key = NULL; int len; VALUE temp; if (OBJECT_is_locked((OBJECT *)col)) THROW(E_SERIAL); OBJECT_lock((OBJECT *)col, TRUE); buffer._byte = col->mode ? 'c' : 'C'; STREAM_write(stream, &buffer._byte, 1); write_length(stream, CCOLLECTION_get_count(col)); GB_CollectionEnum(col, &iter, (GB_VARIANT *)&temp, NULL, NULL); while (!GB_CollectionEnum(col, &iter, (GB_VARIANT *)&temp, &key, &len)) { write_length(stream, len); STREAM_write(stream, key, len); STREAM_write_type(stream, T_VARIANT, &temp); } OBJECT_lock((OBJECT *)col, FALSE); break; } else if (class->is_struct) { CSTRUCT *structure = (CSTRUCT *)value->_object.object; int i; CLASS_DESC *desc; VALUE temp; char *addr; stream = enter_temp_stream(stream); if (OBJECT_is_locked((OBJECT *)structure)) THROW(E_SERIAL); OBJECT_lock((OBJECT *)structure, TRUE); for (i = 0; i < class->n_desc; i++) { desc = class->table[i].desc; if (structure->ref) addr = (char *)((CSTATICSTRUCT *)structure)->addr + desc->variable.offset; else addr = (char *)structure + sizeof(CSTRUCT) + desc->variable.offset; VALUE_class_read(desc->variable.class, &temp, (void *)addr, desc->variable.ctype, (void *)structure); BORROW(&temp); STREAM_write_type(stream, temp.type, &temp); RELEASE(&temp); } stream = leave_temp_stream(); OBJECT_lock((OBJECT *)structure, FALSE); break; } // continue; } default: THROW(E_TYPE, "Standard type", TYPE_get_name(type)); } } void STREAM_load(const char *path, char **buffer, int *rlen) { STREAM stream; int64_t len; STREAM_open(&stream, path, ST_READ); STREAM_lof(&stream, &len); if (len >> 31) THROW(E_MEMORY); *rlen = len; ALLOC(buffer, *rlen); STREAM_read(&stream, *buffer, *rlen); STREAM_close(&stream); } bool STREAM_map(const char *path, char **paddr, int *plen) { STREAM stream; int fd; struct stat info; void *addr; size_t len; bool ret = TRUE; STREAM_open(&stream, path, ST_READ + ST_DIRECT); if (stream.type == &STREAM_arch) { *paddr = (char *)stream.arch.arch->arch->addr + stream.arch.start; *plen = stream.arch.size; ret = FALSE; goto __RETURN; } fd = STREAM_handle(&stream); if (fd < 0) goto __RETURN; if (fstat(fd, &info) < 0) goto __RETURN; len = info.st_size; addr = mmap(NULL, len, PROT_READ, MAP_PRIVATE, fd, 0); if (addr == MAP_FAILED) goto __RETURN; *paddr = addr; *plen = len; ret = FALSE; __RETURN: STREAM_close(&stream); return ret; } void STREAM_unmap(char *addr, int len) { if (addr && len > 0 && ARCHIVE_check_addr(addr)) { munmap(addr, len); } } int STREAM_handle(STREAM *stream) { if (STREAM_is_closed(stream)) THROW(E_CLOSED); if (stream->type->handle) return (*stream->type->handle)(stream); else return (-1); } bool STREAM_lock(STREAM *stream) { int64_t pos; int fd; if (STREAM_is_closed(stream)) THROW(E_CLOSED); fd = STREAM_handle(stream); if (fd < 0) return TRUE; pos = lseek(fd, 0, SEEK_CUR); if (pos < 0) goto __ERROR; if (lseek(fd, 0, SEEK_SET) < 0) goto __ERROR; #ifdef F_TLOCK if (lockf(fd, F_TLOCK, 0)) { if (errno == EAGAIN) return TRUE; else goto __ERROR; } #else ERROR_warning("locking is not implemented"); #endif if (lseek(fd, pos, SEEK_SET) < 0) goto __ERROR; return FALSE; __ERROR: THROW_SYSTEM(errno, NULL); return TRUE; } void STREAM_lof(STREAM *stream, int64_t *len) { int fd; int ilen; if (STREAM_is_closed(stream)) THROW(E_CLOSED); *len = 0; if (stream->type->lof) { if (!(*(stream->type->lof))(stream, len)) return; } fd = STREAM_handle(stream); if ((fd >= 0) && (STREAM_get_readable(stream, &ilen) == 0)) *len = ilen; if (stream->common.buffer) *len += stream->common.buffer_len - stream->common.buffer_pos; } bool STREAM_eof(STREAM *stream) { if (STREAM_is_closed(stream)) THROW(E_CLOSED); if (stream->common.buffer && stream->common.buffer_pos < stream->common.buffer_len) return FALSE; if (stream->type->eof) return ((*(stream->type->eof))(stream)); else return default_eof(stream); } int STREAM_read_direct(int fd, char *buffer, int len) { ssize_t eff_read; ssize_t len_read; while (len > 0) { len_read = Min(len, MAX_IO); eff_read = read(fd, buffer, len_read); if (eff_read > 0) { STREAM_eff_read += eff_read; len -= eff_read; buffer += eff_read; } if (eff_read < len_read) { if (eff_read == 0) errno = 0; if (eff_read <= 0 && errno != EINTR) return TRUE; } } return FALSE; } int STREAM_write_direct(int fd, char *buffer, int len) { ssize_t eff_write; ssize_t len_write; while (len > 0) { len_write = Min(len, MAX_IO); eff_write = write(fd, buffer, len_write); if (eff_write < len_write) { if (eff_write <= 0 && errno != EINTR) return TRUE; } len -= eff_write; buffer += eff_write; } return FALSE; } void STREAM_blocking(STREAM *stream, bool block) { int fd = STREAM_handle(stream); if (fd < 0) return; stream->common.blocking = block; if (block) fcntl(fd, F_SETFL, fcntl(fd, F_GETFL) & ~O_NONBLOCK); else fcntl(fd, F_SETFL, fcntl(fd, F_GETFL) | O_NONBLOCK); } void STREAM_check_blocking(STREAM *stream) { int fd = STREAM_handle(stream); stream->common.blocking = (fd < 0) ? TRUE : ((fcntl(fd, F_GETFL) & O_NONBLOCK) == 0); } void STREAM_cancel(STREAM *stream) { if (!stream->common.redirect) return; STREAM_close(stream->common.redirect); FREE(&stream->common.redirect); stream->common.redirected = FALSE; } void STREAM_begin(STREAM *stream) { STREAM_cancel(stream); if (!stream->common.redirect) { ALLOC_ZERO(&stream->common.redirect, sizeof(STREAM)); STREAM_open(stream->common.redirect, NULL, ST_STRING | ST_WRITE); } stream->common.redirected = TRUE; } void STREAM_end(STREAM *stream) { if (!stream->common.redirect) return; stream->common.redirected = FALSE; STREAM_write(stream, stream->common.redirect->string.buffer, STRING_length(stream->common.redirect->string.buffer)); STREAM_cancel(stream); }