ref: 31703a27d9c753d0fe8b8aa039a2463742e6df53
dir: /common/mp4ff/mp4tagupdate.c/
#include <stdlib.h> #include <string.h> #include "mp4ffint.h" #ifdef USE_TAGGING static uint32_t fix_byte_order_32(uint32_t src) { uint32_t result; uint32_t a, b, c, d; int8_t data[4]; memcpy(data,&src,sizeof(src)); a = (uint8_t)data[0]; b = (uint8_t)data[1]; c = (uint8_t)data[2]; d = (uint8_t)data[3]; result = (a<<24) | (b<<16) | (c<<8) | d; return (uint32_t)result; } static uint16_t fix_byte_order_16(uint16_t src) { uint16_t result; uint16_t a, b; int8_t data[2]; memcpy(data,&src,sizeof(src)); a = (uint8_t)data[0]; b = (uint8_t)data[1]; result = (a<<8) | b; return (uint16_t)result; } typedef struct { void * data; unsigned written; unsigned allocated; unsigned error; } membuffer; unsigned membuffer_write(membuffer * buf,const void * ptr,unsigned bytes) { unsigned dest_size = buf->written + bytes; if (buf->error) return 0; if (dest_size > buf->allocated) { do { buf->allocated <<= 1; } while(dest_size > buf->allocated); { void * newptr = realloc(buf->data,buf->allocated); if (newptr==0) { free(buf->data); buf->data = 0; buf->error = 1; return 0; } buf->data = newptr; } } if (ptr) memcpy((char*)buf->data + buf->written,ptr,bytes); buf->written += bytes; return bytes; } #define membuffer_write_data membuffer_write unsigned membuffer_write_int32(membuffer * buf,uint32_t data) { uint8_t temp[4] = {(uint8_t)(data>>24),(uint8_t)(data>>16),(uint8_t)(data>>8),(uint8_t)data}; return membuffer_write_data(buf,temp,4); } unsigned membuffer_write_int24(membuffer * buf,uint32_t data) { uint8_t temp[3] = {(uint8_t)(data>>16),(uint8_t)(data>>8),(uint8_t)data}; return membuffer_write_data(buf,temp,3); } unsigned membuffer_write_int16(membuffer * buf,uint16_t data) { uint8_t temp[2] = {(uint8_t)(data>>8),(uint8_t)data}; return membuffer_write_data(buf,temp,2); } unsigned membuffer_write_atom_name(membuffer * buf,const char * data) { return membuffer_write_data(buf,data,4)==4 ? 1 : 0; } void membuffer_write_atom(membuffer * buf,const char * name,unsigned size,const void * data) { membuffer_write_int32(buf,size + 8); membuffer_write_atom_name(buf,name); membuffer_write_data(buf,data,size); } unsigned membuffer_write_string(membuffer * buf,const char * data) { return membuffer_write_data(buf,data,strlen(data)); } unsigned membuffer_write_int8(membuffer * buf,uint8_t data) { return membuffer_write_data(buf,&data,1); } void * membuffer_get_ptr(const membuffer * buf) { return buf->data; } unsigned membuffer_get_size(const membuffer * buf) { return buf->written; } unsigned membuffer_error(const membuffer * buf) { return buf->error; } void membuffer_set_error(membuffer * buf) {buf->error = 1;} unsigned membuffer_transfer_from_file(membuffer * buf,mp4ff_t * src,unsigned bytes) { unsigned oldsize; void * bufptr; oldsize = membuffer_get_size(buf); if (membuffer_write_data(buf,0,bytes) != bytes) return 0; bufptr = membuffer_get_ptr(buf); if (bufptr==0) return 0; if ((unsigned)mp4ff_read_data(src,(char*)bufptr + oldsize,bytes)!=bytes) { membuffer_set_error(buf); return 0; } return bytes; } membuffer * membuffer_create() { const unsigned initial_size = 256; membuffer * buf = (membuffer *) malloc(sizeof(membuffer)); buf->data = malloc(initial_size); buf->written = 0; buf->allocated = initial_size; buf->error = buf->data == 0 ? 1 : 0; return buf; } void membuffer_free(membuffer * buf) { if (buf->data) free(buf->data); free(buf); } void * membuffer_detach(membuffer * buf) { void * ret; if (buf->error) return 0; ret = realloc(buf->data,buf->written); if (ret == 0) free(buf->data); buf->data = 0; buf->error = 1; return ret; } #if 0 /* metadata tag structure */ typedef struct { char *item; char *value; } mp4ff_tag_t; /* metadata list structure */ typedef struct { mp4ff_tag_t *tags; uint32_t count; } mp4ff_metadata_t; #endif typedef struct { const char * atom; const char * name; } stdmeta_entry; static stdmeta_entry stdmetas[] = { {"�nam","title"}, {"�ART","artist"}, {"�wrt","writer"}, {"�alb","album"}, {"�day","date"}, {"�too","tool"}, {"�cmt","comment"}, // {"�gen","genre"}, {"cpil","compilation"}, // {"trkn","track"}, // {"disk","disc"}, // {"gnre","genre"}, {"covr","cover"}, }; static const char* find_standard_meta(const char * name) //returns atom name if found, 0 if not { unsigned n; for(n=0;n<sizeof(stdmetas)/sizeof(stdmetas[0]);n++) { if (!stricmp(name,stdmetas[n].name)) return stdmetas[n].atom; } return 0; } static void membuffer_write_track_tag(membuffer * buf,const char * name,uint32_t index,uint32_t total) { membuffer_write_int32(buf,8 /*atom header*/ + 8 /*data atom header*/ + 8 /*flags + reserved*/ + 8 /*actual data*/ ); membuffer_write_atom_name(buf,name); membuffer_write_int32(buf,8 /*data atom header*/ + 8 /*flags + reserved*/ + 8 /*actual data*/ ); membuffer_write_atom_name(buf,"data"); membuffer_write_int32(buf,0);//flags membuffer_write_int32(buf,0);//reserved membuffer_write_int16(buf,0); membuffer_write_int16(buf,(uint16_t)index);//track number membuffer_write_int16(buf,(uint16_t)total);//total tracks membuffer_write_int16(buf,0); } static void membuffer_write_int16_tag(membuffer * buf,const char * name,uint16_t value) { membuffer_write_int32(buf,8 /*atom header*/ + 8 /*data atom header*/ + 8 /*flags + reserved*/ + 2 /*actual data*/ ); membuffer_write_atom_name(buf,name); membuffer_write_int32(buf,8 /*data atom header*/ + 8 /*flags + reserved*/ + 2 /*actual data*/ ); membuffer_write_atom_name(buf,"data"); membuffer_write_int32(buf,0);//flags membuffer_write_int32(buf,0);//reserved membuffer_write_int16(buf,value);//value } static void membuffer_write_std_tag(membuffer * buf,const char * name,const char * value) { membuffer_write_int32(buf,8 /*atom header*/ + 8 /*data atom header*/ + 8 /*flags + reserved*/ + strlen(value) ); membuffer_write_atom_name(buf,name); membuffer_write_int32(buf,8 /*data atom header*/ + 8 /*flags + reserved*/ + strlen(value)); membuffer_write_atom_name(buf,"data"); membuffer_write_int32(buf,1);//flags membuffer_write_int32(buf,0);//reserved membuffer_write_data(buf,value,strlen(value)); } static void membuffer_write_custom_tag(membuffer * buf,const char * name,const char * value) { membuffer_write_int32(buf,8 /*atom header*/ + 0x1C /*weirdo itunes atom*/ + 12 /*name atom header*/ + strlen(name) + 16 /*data atom header + flags*/ + strlen(value) ); membuffer_write_atom_name(buf,"----"); membuffer_write_int32(buf,0x1C);//weirdo itunes atom membuffer_write_atom_name(buf,"mean"); membuffer_write_int32(buf,0); membuffer_write_data(buf,"com.apple.iTunes",16); membuffer_write_int32(buf,12 + strlen(name)); membuffer_write_atom_name(buf,"name"); membuffer_write_int32(buf,0); membuffer_write_data(buf,name,strlen(name)); membuffer_write_int32(buf,8 /*data atom header*/ + 8 /*flags + reserved*/ + strlen(value)); membuffer_write_atom_name(buf,"data"); membuffer_write_int32(buf,1);//flags membuffer_write_int32(buf,0);//reserved membuffer_write_data(buf,value,strlen(value)); } static uint32_t myatoi(const char * param) { return param ? atoi(param) : 0; } static uint32_t create_ilst(const mp4ff_metadata_t * data,void ** out_buffer,uint32_t * out_size) { membuffer * buf = membuffer_create(); unsigned metaptr; char * mask = (char*)malloc(data->count); memset(mask,0,data->count); { const char * tracknumber_ptr = 0, * totaltracks_ptr = 0; const char * discnumber_ptr = 0, * totaldiscs_ptr = 0; const char * genre_ptr = 0, * tempo_ptr = 0; for(metaptr = 0; metaptr < data->count; metaptr++) { mp4ff_tag_t * tag = &data->tags[metaptr]; if (!stricmp(tag->item,"tracknumber") || !stricmp(tag->item,"track")) { if (tracknumber_ptr==0) tracknumber_ptr = tag->value; mask[metaptr] = 1; } else if (!stricmp(tag->item,"totaltracks")) { if (totaltracks_ptr==0) totaltracks_ptr = tag->value; mask[metaptr] = 1; } else if (!stricmp(tag->item,"discnumber") || !stricmp(tag->item,"disc")) { if (discnumber_ptr==0) discnumber_ptr = tag->value; mask[metaptr] = 1; } else if (!stricmp(tag->item,"totaldiscs")) { if (totaldiscs_ptr==0) totaldiscs_ptr = tag->value; mask[metaptr] = 1; } else if (!stricmp(tag->item,"genre")) { if (genre_ptr==0) genre_ptr = tag->value; mask[metaptr] = 1; } else if (!stricmp(tag->item,"tempo")) { if (tempo_ptr==0) tempo_ptr = tag->value; mask[metaptr] = 1; } } if (tracknumber_ptr) membuffer_write_track_tag(buf,"trkn",myatoi(tracknumber_ptr),myatoi(totaltracks_ptr)); if (discnumber_ptr) membuffer_write_track_tag(buf,"disk",myatoi(discnumber_ptr),myatoi(totaldiscs_ptr)); if (tempo_ptr) membuffer_write_int16_tag(buf,"tmpo",(uint16_t)myatoi(tempo_ptr)); if (genre_ptr) { uint32_t index = mp4ff_meta_genre_to_index(genre_ptr); if (index==0) membuffer_write_std_tag(buf,"�gen",genre_ptr); else membuffer_write_int16_tag(buf,"gnre",(uint16_t)index); } } for(metaptr = 0; metaptr < data->count; metaptr++) { if (!mask[metaptr]) { mp4ff_tag_t * tag = &data->tags[metaptr]; const char * std_meta_atom = find_standard_meta(tag->item); if (std_meta_atom) { membuffer_write_std_tag(buf,std_meta_atom,tag->value); } else { membuffer_write_custom_tag(buf,tag->item,tag->value); } } } free(mask); if (membuffer_error(buf)) { membuffer_free(buf); return 0; } *out_size = membuffer_get_size(buf); *out_buffer = membuffer_detach(buf); membuffer_free(buf); return 1; } static uint32_t find_atom(mp4ff_t * f,uint64_t base,uint32_t size,const char * name) { uint32_t remaining = size; uint64_t atom_offset = base; for(;;) { char atom_name[4]; uint32_t atom_size; mp4ff_set_position(f,atom_offset); if (remaining < 8) break; atom_size = mp4ff_read_int32(f); if (atom_size > remaining || atom_size < 8) break; mp4ff_read_data(f,atom_name,4); if (!memcmp(atom_name,name,4)) { mp4ff_set_position(f,atom_offset); return 1; } remaining -= atom_size; atom_offset += atom_size; } return 0; } static uint32_t find_atom_v2(mp4ff_t * f,uint64_t base,uint32_t size,const char * name,uint32_t extraheaders,const char * name_inside) { uint64_t first_base = (uint64_t)(-1); while(find_atom(f,base,size,name))//try to find atom <name> with atom <name_inside> in it { uint64_t mybase = mp4ff_position(f); uint32_t mysize = mp4ff_read_int32(f); if (first_base == (uint64_t)(-1)) first_base = mybase; if (mysize < 8 + extraheaders) break; if (find_atom(f,mybase+(8+extraheaders),mysize-(8+extraheaders),name_inside)) { mp4ff_set_position(f,mybase); return 2; } base += mysize; if (size<=mysize) {size=0;break;} size -= mysize; } if (first_base != (uint64_t)(-1))//wanted atom inside not found { mp4ff_set_position(f,first_base); return 1; } else return 0; } static uint32_t create_meta(const mp4ff_metadata_t * data,void ** out_buffer,uint32_t * out_size) { membuffer * buf; uint32_t ilst_size; void * ilst_buffer; if (!create_ilst(data,&ilst_buffer,&ilst_size)) return 0; buf = membuffer_create(); membuffer_write_int32(buf,0); membuffer_write_atom(buf,"ilst",ilst_size,ilst_buffer); free(ilst_buffer); *out_size = membuffer_get_size(buf); *out_buffer = membuffer_detach(buf); membuffer_free(buf); return 1; } static uint32_t create_udta(const mp4ff_metadata_t * data,void ** out_buffer,uint32_t * out_size) { membuffer * buf; uint32_t meta_size; void * meta_buffer; if (!create_meta(data,&meta_buffer,&meta_size)) return 0; buf = membuffer_create(); membuffer_write_atom(buf,"meta",meta_size,meta_buffer); free(meta_buffer); *out_size = membuffer_get_size(buf); *out_buffer = membuffer_detach(buf); membuffer_free(buf); return 1; } static uint32_t modify_moov(mp4ff_t * f,const mp4ff_metadata_t * data,void ** out_buffer,uint32_t * out_size) { uint64_t total_base = f->moov_offset + 8; uint32_t total_size = (uint32_t)(f->moov_size - 8); uint64_t udta_offset,meta_offset,ilst_offset; uint32_t udta_size, meta_size, ilst_size; uint32_t new_ilst_size; void * new_ilst_buffer; uint8_t * p_out; int32_t size_delta; if (!find_atom_v2(f,total_base,total_size,"udta",0,"meta")) { membuffer * buf; void * new_udta_buffer; uint32_t new_udta_size; if (!create_udta(data,&new_udta_buffer,&new_udta_size)) return 0; buf = membuffer_create(); mp4ff_set_position(f,total_base); membuffer_transfer_from_file(buf,f,total_size); membuffer_write_atom(buf,"udta",new_udta_size,new_udta_buffer); free(new_udta_buffer); *out_size = membuffer_get_size(buf); *out_buffer = membuffer_detach(buf); membuffer_free(buf); return 1; } else { udta_offset = mp4ff_position(f); udta_size = mp4ff_read_int32(f); if (find_atom_v2(f,udta_offset+8,udta_size-8,"meta",4,"ilst")<2) { membuffer * buf; void * new_meta_buffer; uint32_t new_meta_size; if (!create_meta(data,&new_meta_buffer,&new_meta_size)) return 0; buf = membuffer_create(); mp4ff_set_position(f,total_base); membuffer_transfer_from_file(buf,f,(uint32_t)(udta_offset - total_base)); membuffer_write_int32(buf,udta_size + 8 + new_meta_size); membuffer_write_atom_name(buf,"udta"); membuffer_transfer_from_file(buf,f,udta_size); membuffer_write_atom(buf,"meta",new_meta_size,new_meta_buffer); free(new_meta_buffer); *out_size = membuffer_get_size(buf); *out_buffer = membuffer_detach(buf); membuffer_free(buf); return 1; } meta_offset = mp4ff_position(f); meta_size = mp4ff_read_int32(f); if (!find_atom(f,meta_offset+12,meta_size-12,"ilst")) return 0;//shouldn't happen, find_atom_v2 above takes care of it ilst_offset = mp4ff_position(f); ilst_size = mp4ff_read_int32(f); if (!create_ilst(data,&new_ilst_buffer,&new_ilst_size)) return 0; size_delta = new_ilst_size - (ilst_size - 8); *out_size = total_size + size_delta; *out_buffer = malloc(*out_size); if (*out_buffer == 0) { free(new_ilst_buffer); return 0; } p_out = (uint8_t*)*out_buffer; mp4ff_set_position(f,total_base); mp4ff_read_data(f,p_out,(uint32_t)(udta_offset - total_base )); p_out += (uint32_t)(udta_offset - total_base ); *(uint32_t*)p_out = fix_byte_order_32(mp4ff_read_int32(f) + size_delta); p_out += 4; mp4ff_read_data(f,p_out,4); p_out += 4; mp4ff_read_data(f,p_out,(uint32_t)(meta_offset - udta_offset - 8)); p_out += (uint32_t)(meta_offset - udta_offset - 8); *(uint32_t*)p_out = fix_byte_order_32(mp4ff_read_int32(f) + size_delta); p_out += 4; mp4ff_read_data(f,p_out,4); p_out += 4; mp4ff_read_data(f,p_out,(uint32_t)(ilst_offset - meta_offset - 8)); p_out += (uint32_t)(ilst_offset - meta_offset - 8); *(uint32_t*)p_out = fix_byte_order_32(mp4ff_read_int32(f) + size_delta); p_out += 4; mp4ff_read_data(f,p_out,4); p_out += 4; memcpy(p_out,new_ilst_buffer,new_ilst_size); p_out += new_ilst_size; mp4ff_set_position(f,ilst_offset + ilst_size); mp4ff_read_data(f,p_out,(uint32_t)(total_size - (ilst_offset - total_base) - ilst_size)); free(new_ilst_buffer); } return 1; } int32_t mp4ff_meta_update(mp4ff_callback_t *f,const mp4ff_metadata_t * data) { void * new_moov_data; uint32_t new_moov_size; mp4ff_t *ff = malloc(sizeof(mp4ff_t)); memset(ff, 0, sizeof(mp4ff_t)); ff->stream = f; mp4ff_set_position(ff,0); parse_atoms(ff); if (!modify_moov(ff,data,&new_moov_data,&new_moov_size)) { mp4ff_close(ff); return 0; } /* copy moov atom to end of the file */ if (ff->last_atom != ATOM_MOOV) { char *free_data = "free"; /* rename old moov to free */ mp4ff_set_position(ff, ff->moov_offset + 4); mp4ff_write_data(ff, free_data, 4); mp4ff_set_position(ff, ff->file_size); mp4ff_write_int32(ff,new_moov_size + 8); mp4ff_write_data(ff,"moov",4); mp4ff_write_data(ff, new_moov_data, new_moov_size); } else { mp4ff_set_position(ff, ff->moov_offset); mp4ff_write_int32(ff,new_moov_size + 8); mp4ff_write_data(ff,"moov",4); mp4ff_write_data(ff, new_moov_data, new_moov_size); } mp4ff_truncate(ff); mp4ff_close(ff); return 1; } #endif