Mercurial > dovecot > core-2.2
view src/lib-compression/ostream-zlib.c @ 22711:25d4771ad0fd
lib-storage: mailbox_list_index - indentation cleanup
author | Timo Sirainen <timo.sirainen@dovecot.fi> |
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date | Thu, 14 Dec 2017 02:10:27 +0200 |
parents | 2e2563132d5f |
children | cb108f786fb4 |
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/* Copyright (c) 2010-2017 Dovecot authors, see the included COPYING file */ #include "lib.h" #ifdef HAVE_ZLIB #include "crc32.h" #include "ostream-private.h" #include "ostream-zlib.h" #include <zlib.h> #define CHUNK_SIZE (1024*32) #define ZLIB_OS_CODE 0x03 /* Unix */ struct zlib_ostream { struct ostream_private ostream; z_stream zs; unsigned char gz_header[10]; unsigned char outbuf[CHUNK_SIZE]; unsigned int outbuf_offset, outbuf_used; uint32_t crc, bytes32; unsigned int gz:1; unsigned int header_sent:1; unsigned int flushed:1; }; static void o_stream_zlib_close(struct iostream_private *stream, bool close_parent) { struct zlib_ostream *zstream = (struct zlib_ostream *)stream; (void)o_stream_flush(&zstream->ostream.ostream); (void)deflateEnd(&zstream->zs); if (close_parent) o_stream_close(zstream->ostream.parent); } static int o_stream_zlib_send_gz_header(struct zlib_ostream *zstream) { ssize_t ret; ret = o_stream_send(zstream->ostream.parent, zstream->gz_header, sizeof(zstream->gz_header)); if ((size_t)ret != sizeof(zstream->gz_header)) { o_stream_copy_error_from_parent(&zstream->ostream); return -1; } zstream->header_sent = TRUE; return 0; } static int o_stream_zlib_lsb_uint32(struct ostream *output, uint32_t num) { unsigned char buf[sizeof(uint32_t)]; unsigned int i; for (i = 0; i < sizeof(buf); i++) { buf[i] = num & 0xff; num >>= 8; } if (o_stream_send(output, buf, sizeof(buf)) != sizeof(buf)) return -1; return 0; } static int o_stream_zlib_send_gz_trailer(struct zlib_ostream *zstream) { struct ostream *output = zstream->ostream.parent; if (!zstream->gz) return 0; if (o_stream_zlib_lsb_uint32(output, zstream->crc) < 0 || o_stream_zlib_lsb_uint32(output, zstream->bytes32) < 0) { o_stream_copy_error_from_parent(&zstream->ostream); return -1; } return 0; } static int o_stream_zlib_send_outbuf(struct zlib_ostream *zstream) { ssize_t ret; size_t size; if (zstream->outbuf_used == 0) return 1; size = zstream->outbuf_used - zstream->outbuf_offset; i_assert(size > 0); ret = o_stream_send(zstream->ostream.parent, zstream->outbuf + zstream->outbuf_offset, size); if (ret < 0) { o_stream_copy_error_from_parent(&zstream->ostream); return -1; } if ((size_t)ret != size) { zstream->outbuf_offset += ret; return 0; } zstream->outbuf_offset = 0; zstream->outbuf_used = 0; return 1; } static ssize_t o_stream_zlib_send_chunk(struct zlib_ostream *zstream, const void *data, size_t size) { z_stream *zs = &zstream->zs; int ret, flush; i_assert(zstream->outbuf_used == 0); flush = zstream->ostream.corked || zstream->gz ? Z_NO_FLUSH : Z_SYNC_FLUSH; if (!zstream->header_sent) { if (o_stream_zlib_send_gz_header(zstream) < 0) return -1; } zs->next_in = (void *)data; zs->avail_in = size; while (zs->avail_in > 0) { if (zs->avail_out == 0) { /* previous block was compressed. send it and start compression for a new block. */ zs->next_out = zstream->outbuf; zs->avail_out = sizeof(zstream->outbuf); zstream->outbuf_used = sizeof(zstream->outbuf); if ((ret = o_stream_zlib_send_outbuf(zstream)) < 0) return -1; if (ret == 0) { /* parent stream's buffer full */ break; } } ret = deflate(zs, flush); switch (ret) { case Z_OK: case Z_BUF_ERROR: break; case Z_STREAM_ERROR: i_assert(zstream->gz); i_panic("zlib.write(%s) failed: Can't write more data to .gz after flushing", o_stream_get_name(&zstream->ostream.ostream)); default: i_panic("zlib.write(%s) failed with unexpected code %d", o_stream_get_name(&zstream->ostream.ostream), ret); } } size -= zs->avail_in; zstream->crc = crc32_data_more(zstream->crc, data, size); zstream->bytes32 += size; zstream->flushed = flush == Z_SYNC_FLUSH && zs->avail_in == 0 && zs->avail_out == sizeof(zstream->outbuf); return size; } static int o_stream_zlib_send_flush(struct zlib_ostream *zstream, bool final) { z_stream *zs = &zstream->zs; size_t len; bool done = FALSE; int ret, flush; if (zs->avail_in != 0) { i_assert(zstream->ostream.ostream.last_failed_errno != 0); zstream->ostream.ostream.stream_errno = zstream->ostream.ostream.last_failed_errno; return -1; } if (zstream->flushed) return 0; if ((ret = o_stream_flush_parent_if_needed(&zstream->ostream)) <= 0) return ret; if (!zstream->header_sent) { if (o_stream_zlib_send_gz_header(zstream) < 0) return -1; } if ((ret = o_stream_zlib_send_outbuf(zstream)) <= 0) return ret; flush = !zstream->gz ? Z_SYNC_FLUSH : (final ? Z_FINISH : Z_NO_FLUSH); i_assert(zstream->outbuf_used == 0); do { len = sizeof(zstream->outbuf) - zs->avail_out; if (len != 0) { zs->next_out = zstream->outbuf; zs->avail_out = sizeof(zstream->outbuf); zstream->outbuf_used = len; if ((ret = o_stream_zlib_send_outbuf(zstream)) <= 0) return ret; if (done) break; } switch (deflate(zs, flush)) { case Z_OK: case Z_BUF_ERROR: break; case Z_STREAM_END: done = TRUE; break; default: i_unreached(); } } while (zs->avail_out != sizeof(zstream->outbuf)); if (final) { if (o_stream_zlib_send_gz_trailer(zstream) < 0) return -1; } if (final || flush != Z_NO_FLUSH) zstream->flushed = TRUE; return 0; } static int o_stream_zlib_flush(struct ostream_private *stream) { struct zlib_ostream *zstream = (struct zlib_ostream *)stream; int ret; if (o_stream_zlib_send_flush(zstream, TRUE) < 0) return -1; ret = o_stream_flush(stream->parent); if (ret < 0) o_stream_copy_error_from_parent(stream); return ret; } static ssize_t o_stream_zlib_sendv(struct ostream_private *stream, const struct const_iovec *iov, unsigned int iov_count) { struct zlib_ostream *zstream = (struct zlib_ostream *)stream; ssize_t ret, bytes = 0; unsigned int i; if ((ret = o_stream_zlib_send_outbuf(zstream)) <= 0) { /* error / we still couldn't flush existing data to parent stream. */ return ret; } for (i = 0; i < iov_count; i++) { ret = o_stream_zlib_send_chunk(zstream, iov[i].iov_base, iov[i].iov_len); if (ret < 0) return -1; bytes += ret; if ((size_t)ret != iov[i].iov_len) break; } stream->ostream.offset += bytes; if (!zstream->ostream.corked && i == iov_count) { if (o_stream_zlib_send_flush(zstream, FALSE) < 0) return -1; } /* avail_in!=0 check is used to detect errors. if it's non-zero here it simply means we didn't send all the data */ zstream->zs.avail_in = 0; return bytes; } static void o_stream_zlib_init_gz_header(struct zlib_ostream *zstream, int level, int strategy) { unsigned char *hdr = zstream->gz_header; hdr[0] = 0x1f; hdr[1] = 0x8b; hdr[2] = Z_DEFLATED; hdr[8] = level == 9 ? 2 : (strategy >= Z_HUFFMAN_ONLY || (level != Z_DEFAULT_COMPRESSION && level < 2) ? 4 : 0); hdr[9] = ZLIB_OS_CODE; i_assert(sizeof(zstream->gz_header) == 10); } static struct ostream * o_stream_create_zlib(struct ostream *output, int level, bool gz) { const int strategy = Z_DEFAULT_STRATEGY; struct zlib_ostream *zstream; int ret; i_assert(level >= 1 && level <= 9); zstream = i_new(struct zlib_ostream, 1); zstream->ostream.sendv = o_stream_zlib_sendv; zstream->ostream.flush = o_stream_zlib_flush; zstream->ostream.iostream.close = o_stream_zlib_close; zstream->crc = 0; zstream->gz = gz; if (!gz) zstream->header_sent = TRUE; o_stream_zlib_init_gz_header(zstream, level, strategy); ret = deflateInit2(&zstream->zs, level, Z_DEFLATED, -15, 8, strategy); switch (ret) { case Z_OK: break; case Z_MEM_ERROR: i_fatal_status(FATAL_OUTOFMEM, "deflateInit(): Out of memory"); case Z_VERSION_ERROR: i_fatal("Wrong zlib library version (broken compilation)"); case Z_STREAM_ERROR: i_fatal("Invalid compression level %d", level); default: i_fatal("deflateInit() failed with %d", ret); } zstream->zs.next_out = zstream->outbuf; zstream->zs.avail_out = sizeof(zstream->outbuf); return o_stream_create(&zstream->ostream, output, o_stream_get_fd(output)); } struct ostream *o_stream_create_gz(struct ostream *output, int level) { return o_stream_create_zlib(output, level, TRUE); } struct ostream *o_stream_create_deflate(struct ostream *output, int level) { return o_stream_create_zlib(output, level, FALSE); } #endif