/***************************************************************************** * xiph.h: Xiph helpers ***************************************************************************** * Copyright (C) 2010 Laurent Aimar * $Id$ * * Authors: Laurent Aimar * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 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 Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser 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. *****************************************************************************/ #include #include #define XIPH_MAX_HEADER_COUNT (256) /* Temp ffmpeg vorbis format */ static inline bool xiph_IsLavcFormat(const void *extra, unsigned i_extra, vlc_fourcc_t i_codec) { switch(i_codec) { case VLC_CODEC_VORBIS: return i_extra >= 6 && GetWBE(extra) == 30; case VLC_CODEC_THEORA: return i_extra >= 6 && GetWBE(extra) == 42; default: return false; } } static inline unsigned xiph_CountLavcHeaders(const void *p_extra, unsigned i_extra) { const uint8_t *p = (const uint8_t*) p_extra; const uint8_t *p_end = &p[i_extra]; /* Check headers count */ for (int i=0; i<3; i++) { if(p_end - p < 2) return 0; uint16_t i_size = GetWBE(p); if(&p[2U + i_size] > p_end) return 0; p += 2 + i_size; } return 3; } static inline unsigned xiph_CountHeaders(const void *p_extra, unsigned i_extra) { const uint8_t *p = (const uint8_t*) p_extra; if (!i_extra) return 0; /* First byte is headers count */ if(1U + *p > i_extra) return 0; return *p + 1; } static inline unsigned xiph_CountUnknownHeaders(const void *p_extra, unsigned i_extra, vlc_fourcc_t i_codec) { if (xiph_IsLavcFormat(p_extra, i_extra, i_codec)) return xiph_CountLavcHeaders(p_extra, i_extra); else return xiph_CountHeaders(p_extra, i_extra); } static inline int xiph_SplitLavcHeaders(unsigned packet_size[], const void *packet[], unsigned *packet_count, unsigned i_extra, const void *p_extra) { const uint8_t *current = (const uint8_t *)p_extra; const uint8_t *end = ¤t[i_extra]; if (i_extra < 2) return VLC_EGENERIC; /* Parse the packet count and their sizes */ const unsigned count = xiph_CountLavcHeaders(current, i_extra); if(count == 0) return VLC_EGENERIC; if (packet_count) *packet_count = count; /* count is trusted here (xiph_CountHeaders) */ for (unsigned i=0; i < count; i++) { /* each payload is prefixed by word size */ packet_size[i] = GetWBE(current); if(¤t[2U + packet_size[i]] > end) return VLC_EGENERIC; packet[i] = current + 2; current += packet_size[i] + 2; } return VLC_SUCCESS; } static inline int xiph_SplitHeaders(unsigned packet_size[], const void *packet[], unsigned *packet_count, unsigned i_extra, const void *p_extra) { const uint8_t *current = (const uint8_t *)p_extra; const uint8_t *end = ¤t[i_extra]; if (i_extra < 1) return VLC_EGENERIC; /* Parse the packet count and their sizes */ const unsigned count = xiph_CountHeaders(current, i_extra); if(count == 0) return VLC_EGENERIC; if (packet_count) *packet_count = count; /* - 1 byte (N-1) packets * - N-1 variable length payload sizes * - N-1 payloads * - Nth packet (remaining) */ /* skip count byte header */ ++current; /* read sizes for N-1 packets */ unsigned total_payload_minus_last = 0; for (unsigned i = 0; i < count - 1; i++) { packet_size[i] = 0; for (;;) { if (current >= end) return VLC_EGENERIC; packet_size[i] += *current; if (*current++ != 255) break; } if(UINT_MAX - total_payload_minus_last < packet_size[i]) return VLC_EGENERIC; total_payload_minus_last += packet_size[i]; } if(current + total_payload_minus_last > end) return VLC_EGENERIC; /* set pointers for N-1 packets */ for (unsigned i = 0; i < count - 1; i++) { packet[i] = current; current += packet_size[i]; } /* Last packet is remaining size */ packet_size[count - 1] = end - current; packet[count - 1] = current; return VLC_SUCCESS; } static inline int xiph_PackHeaders(int *extra_size, void **extra, unsigned packet_size[], const void *const packet[], unsigned packet_count) { if (packet_count <= 0 || packet_count > XIPH_MAX_HEADER_COUNT) return VLC_EGENERIC; /* Compute the size needed for the whole extra data */ unsigned payload_size = 0; unsigned header_size = 1; for (unsigned i = 0; i < packet_count; i++) { payload_size += packet_size[i]; if (i < packet_count - 1) header_size += 1 + packet_size[i] / 255; } /* */ *extra_size = header_size + payload_size; *extra = malloc(*extra_size); if (*extra == NULL) return VLC_ENOMEM; /* Write the header */ uint8_t *current = (uint8_t*)*extra; *current++ = packet_count - 1; for (unsigned i = 0; i < packet_count - 1; i++) { unsigned t = packet_size[i]; for (;;) { if (t >= 255) { *current++ = 255; t -= 255; } else { *current++ = t; break; } } } /* Copy the payloads */ for (unsigned i = 0; i < packet_count; i++) { if (packet_size[i] > 0) { memcpy(current, packet[i], packet_size[i]); current += packet_size[i]; } } assert(current == (uint8_t*)*extra + *extra_size); return VLC_SUCCESS; } static inline int xiph_AppendHeaders(int *extra_size, void **extra, unsigned size, const void *data) { unsigned packet_size[XIPH_MAX_HEADER_COUNT]; const void *packet[XIPH_MAX_HEADER_COUNT]; unsigned count; if (*extra_size > 0 && *extra) { if (xiph_SplitHeaders(packet_size, packet, &count, *extra_size, *extra)) return VLC_EGENERIC; } else { count = 0; } if (count >= XIPH_MAX_HEADER_COUNT) return VLC_EGENERIC; void *old = *extra; packet_size[count] = size; packet[count] = (void*)data; if (xiph_PackHeaders(extra_size, extra, packet_size, packet, count + 1)) { *extra_size = 0; *extra = NULL; } free(old); if (*extra_size <= 0) return VLC_EGENERIC; return VLC_SUCCESS; }