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339 lines
11 KiB
339 lines
11 KiB
/** |
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* This file is part of FFmpeg. |
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* |
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* FFmpeg is free software; you can redistribute it and/or |
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* modify it under the terms of the GNU Lesser General Public |
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* License as published by the Free Software Foundation; either |
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* version 2.1 of the License, or (at your option) any later version. |
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* |
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* FFmpeg is distributed in the hope that it will be useful, |
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* but WITHOUT ANY WARRANTY; without even the implied warranty of |
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
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* Lesser General Public License for more details. |
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* |
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* You should have received a copy of the GNU Lesser General Public |
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* License along with FFmpeg; if not, write to the Free Software |
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA |
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*/ |
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#include "encryption_info.h" |
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#include "mem.h" |
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#include "intreadwrite.h" |
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#define FF_ENCRYPTION_INFO_EXTRA 24 |
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// The format of the AVEncryptionInfo side data: |
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// u32be scheme |
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// u32be crypt_byte_block |
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// u32be skip_byte_block |
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// u32be key_id_size |
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// u32be iv_size |
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// u32be subsample_count |
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// u8[key_id_size] key_id |
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// u8[iv_size] iv |
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// { |
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// u32be bytes_of_clear_data |
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// u32be bytes_of_protected_data |
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// }[subsample_count] |
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AVEncryptionInfo *av_encryption_info_alloc(uint32_t subsample_count, uint32_t key_id_size, uint32_t iv_size) |
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{ |
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AVEncryptionInfo *info; |
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info = av_mallocz(sizeof(*info)); |
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if (!info) |
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return NULL; |
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info->key_id = av_mallocz(key_id_size); |
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info->key_id_size = key_id_size; |
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info->iv = av_mallocz(iv_size); |
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info->iv_size = iv_size; |
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info->subsamples = av_mallocz_array(subsample_count, sizeof(*info->subsamples)); |
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info->subsample_count = subsample_count; |
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// Allow info->subsamples to be NULL if there are no subsamples. |
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if (!info->key_id || !info->iv || (!info->subsamples && subsample_count)) { |
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av_encryption_info_free(info); |
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return NULL; |
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} |
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return info; |
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} |
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AVEncryptionInfo *av_encryption_info_clone(const AVEncryptionInfo *info) |
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{ |
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AVEncryptionInfo *ret; |
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ret = av_encryption_info_alloc(info->subsample_count, info->key_id_size, info->iv_size); |
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if (!ret) |
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return NULL; |
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ret->scheme = info->scheme; |
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ret->crypt_byte_block = info->crypt_byte_block; |
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ret->skip_byte_block = info->skip_byte_block; |
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memcpy(ret->iv, info->iv, info->iv_size); |
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memcpy(ret->key_id, info->key_id, info->key_id_size); |
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memcpy(ret->subsamples, info->subsamples, sizeof(*info->subsamples) * info->subsample_count); |
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return ret; |
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} |
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void av_encryption_info_free(AVEncryptionInfo *info) |
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{ |
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if (info) { |
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av_free(info->key_id); |
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av_free(info->iv); |
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av_free(info->subsamples); |
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av_free(info); |
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} |
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} |
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AVEncryptionInfo *av_encryption_info_get_side_data(const uint8_t* buffer, size_t size) |
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{ |
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AVEncryptionInfo *info; |
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uint64_t key_id_size, iv_size, subsample_count, i; |
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if (!buffer || size < FF_ENCRYPTION_INFO_EXTRA) |
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return NULL; |
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key_id_size = AV_RB32(buffer + 12); |
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iv_size = AV_RB32(buffer + 16); |
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subsample_count = AV_RB32(buffer + 20); |
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if (size < FF_ENCRYPTION_INFO_EXTRA + key_id_size + iv_size + subsample_count * 8) |
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return NULL; |
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info = av_encryption_info_alloc(subsample_count, key_id_size, iv_size); |
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if (!info) |
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return NULL; |
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info->scheme = AV_RB32(buffer); |
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info->crypt_byte_block = AV_RB32(buffer + 4); |
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info->skip_byte_block = AV_RB32(buffer + 8); |
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memcpy(info->key_id, buffer + 24, key_id_size); |
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memcpy(info->iv, buffer + key_id_size + 24, iv_size); |
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buffer += key_id_size + iv_size + 24; |
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for (i = 0; i < subsample_count; i++) { |
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info->subsamples[i].bytes_of_clear_data = AV_RB32(buffer); |
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info->subsamples[i].bytes_of_protected_data = AV_RB32(buffer + 4); |
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buffer += 8; |
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} |
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return info; |
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} |
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uint8_t *av_encryption_info_add_side_data(const AVEncryptionInfo *info, size_t *size) |
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{ |
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uint8_t *buffer, *cur_buffer; |
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uint32_t i; |
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if (UINT32_MAX - FF_ENCRYPTION_INFO_EXTRA < info->key_id_size || |
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UINT32_MAX - FF_ENCRYPTION_INFO_EXTRA - info->key_id_size < info->iv_size || |
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(UINT32_MAX - FF_ENCRYPTION_INFO_EXTRA - info->key_id_size - info->iv_size) / 8 < info->subsample_count) { |
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return NULL; |
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} |
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*size = FF_ENCRYPTION_INFO_EXTRA + info->key_id_size + info->iv_size + |
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(info->subsample_count * 8); |
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cur_buffer = buffer = av_malloc(*size); |
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if (!buffer) |
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return NULL; |
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AV_WB32(cur_buffer, info->scheme); |
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AV_WB32(cur_buffer + 4, info->crypt_byte_block); |
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AV_WB32(cur_buffer + 8, info->skip_byte_block); |
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AV_WB32(cur_buffer + 12, info->key_id_size); |
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AV_WB32(cur_buffer + 16, info->iv_size); |
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AV_WB32(cur_buffer + 20, info->subsample_count); |
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cur_buffer += 24; |
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memcpy(cur_buffer, info->key_id, info->key_id_size); |
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cur_buffer += info->key_id_size; |
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memcpy(cur_buffer, info->iv, info->iv_size); |
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cur_buffer += info->iv_size; |
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for (i = 0; i < info->subsample_count; i++) { |
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AV_WB32(cur_buffer, info->subsamples[i].bytes_of_clear_data); |
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AV_WB32(cur_buffer + 4, info->subsamples[i].bytes_of_protected_data); |
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cur_buffer += 8; |
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} |
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return buffer; |
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} |
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// The format of the AVEncryptionInitInfo side data: |
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// u32be init_info_count |
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// { |
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// u32be system_id_size |
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// u32be num_key_ids |
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// u32be key_id_size |
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// u32be data_size |
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// u8[system_id_size] system_id |
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// u8[key_id_size][num_key_id] key_ids |
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// u8[data_size] data |
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// }[init_info_count] |
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#define FF_ENCRYPTION_INIT_INFO_EXTRA 16 |
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AVEncryptionInitInfo *av_encryption_init_info_alloc( |
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uint32_t system_id_size, uint32_t num_key_ids, uint32_t key_id_size, uint32_t data_size) |
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{ |
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AVEncryptionInitInfo *info; |
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uint32_t i; |
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info = av_mallocz(sizeof(*info)); |
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if (!info) |
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return NULL; |
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info->system_id = av_mallocz(system_id_size); |
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info->system_id_size = system_id_size; |
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info->key_ids = key_id_size ? av_mallocz_array(num_key_ids, sizeof(*info->key_ids)) : NULL; |
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info->num_key_ids = num_key_ids; |
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info->key_id_size = key_id_size; |
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info->data = av_mallocz(data_size); |
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info->data_size = data_size; |
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// Allow pointers to be NULL if the size is 0. |
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if ((!info->system_id && system_id_size) || (!info->data && data_size) || |
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(!info->key_ids && num_key_ids && key_id_size)) { |
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av_encryption_init_info_free(info); |
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return NULL; |
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} |
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if (key_id_size) { |
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for (i = 0; i < num_key_ids; i++) { |
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info->key_ids[i] = av_mallocz(key_id_size); |
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if (!info->key_ids[i]) { |
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av_encryption_init_info_free(info); |
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return NULL; |
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} |
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} |
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} |
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return info; |
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} |
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void av_encryption_init_info_free(AVEncryptionInitInfo *info) |
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{ |
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uint32_t i; |
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if (info) { |
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for (i = 0; i < info->num_key_ids; i++) { |
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av_free(info->key_ids[i]); |
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} |
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av_encryption_init_info_free(info->next); |
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av_free(info->system_id); |
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av_free(info->key_ids); |
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av_free(info->data); |
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av_free(info); |
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} |
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} |
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AVEncryptionInitInfo *av_encryption_init_info_get_side_data( |
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const uint8_t *side_data, size_t side_data_size) |
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{ |
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// |ret| tracks the front of the list, |info| tracks the back. |
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AVEncryptionInitInfo *ret = NULL, *info, *temp_info; |
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uint64_t system_id_size, num_key_ids, key_id_size, data_size, i, j; |
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uint64_t init_info_count; |
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if (!side_data || side_data_size < 4) |
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return NULL; |
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init_info_count = AV_RB32(side_data); |
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side_data += 4; |
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side_data_size -= 4; |
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for (i = 0; i < init_info_count; i++) { |
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if (side_data_size < FF_ENCRYPTION_INIT_INFO_EXTRA) { |
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av_encryption_init_info_free(ret); |
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return NULL; |
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} |
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system_id_size = AV_RB32(side_data); |
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num_key_ids = AV_RB32(side_data + 4); |
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key_id_size = AV_RB32(side_data + 8); |
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data_size = AV_RB32(side_data + 12); |
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// UINT32_MAX + UINT32_MAX + UINT32_MAX * UINT32_MAX == UINT64_MAX |
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if (side_data_size - FF_ENCRYPTION_INIT_INFO_EXTRA < system_id_size + data_size + num_key_ids * key_id_size) { |
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av_encryption_init_info_free(ret); |
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return NULL; |
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} |
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side_data += FF_ENCRYPTION_INIT_INFO_EXTRA; |
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side_data_size -= FF_ENCRYPTION_INIT_INFO_EXTRA; |
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temp_info = av_encryption_init_info_alloc(system_id_size, num_key_ids, key_id_size, data_size); |
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if (!temp_info) { |
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av_encryption_init_info_free(ret); |
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return NULL; |
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} |
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if (i == 0) { |
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info = ret = temp_info; |
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} else { |
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info->next = temp_info; |
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info = temp_info; |
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} |
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memcpy(info->system_id, side_data, system_id_size); |
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side_data += system_id_size; |
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side_data_size -= system_id_size; |
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for (j = 0; j < num_key_ids; j++) { |
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memcpy(info->key_ids[j], side_data, key_id_size); |
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side_data += key_id_size; |
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side_data_size -= key_id_size; |
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} |
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memcpy(info->data, side_data, data_size); |
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side_data += data_size; |
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side_data_size -= data_size; |
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} |
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return ret; |
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} |
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uint8_t *av_encryption_init_info_add_side_data(const AVEncryptionInitInfo *info, size_t *side_data_size) |
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{ |
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const AVEncryptionInitInfo *cur_info; |
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uint8_t *buffer, *cur_buffer; |
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uint32_t i, init_info_count; |
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uint64_t temp_side_data_size; |
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temp_side_data_size = 4; |
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init_info_count = 0; |
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for (cur_info = info; cur_info; cur_info = cur_info->next) { |
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temp_side_data_size += (uint64_t)FF_ENCRYPTION_INIT_INFO_EXTRA + info->system_id_size + info->data_size; |
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if (init_info_count == UINT32_MAX || temp_side_data_size > UINT32_MAX) { |
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return NULL; |
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} |
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init_info_count++; |
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if (info->num_key_ids) { |
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temp_side_data_size += (uint64_t)info->num_key_ids * info->key_id_size; |
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if (temp_side_data_size > UINT32_MAX) { |
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return NULL; |
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} |
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} |
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} |
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*side_data_size = temp_side_data_size; |
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cur_buffer = buffer = av_malloc(*side_data_size); |
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if (!buffer) |
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return NULL; |
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AV_WB32(cur_buffer, init_info_count); |
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cur_buffer += 4; |
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for (cur_info = info; cur_info; cur_info = cur_info->next) { |
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AV_WB32(cur_buffer, cur_info->system_id_size); |
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AV_WB32(cur_buffer + 4, cur_info->num_key_ids); |
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AV_WB32(cur_buffer + 8, cur_info->key_id_size); |
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AV_WB32(cur_buffer + 12, cur_info->data_size); |
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cur_buffer += 16; |
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memcpy(cur_buffer, cur_info->system_id, cur_info->system_id_size); |
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cur_buffer += cur_info->system_id_size; |
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for (i = 0; i < cur_info->num_key_ids; i++) { |
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memcpy(cur_buffer, cur_info->key_ids[i], cur_info->key_id_size); |
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cur_buffer += cur_info->key_id_size; |
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} |
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memcpy(cur_buffer, cur_info->data, cur_info->data_size); |
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cur_buffer += cur_info->data_size; |
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} |
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return buffer; |
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}
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