/* * This file is part of MPlayer. * * MPlayer 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 of the License, or * (at your option) any later version. * * MPlayer 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 MPlayer; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "config.h" #include #include #include #include #include #include "playlist.h" #include "playlist_parser.h" #include "stream/stream.h" #include "asxparser.h" #include "common/msg.h" typedef struct ASX_Parser_t ASX_Parser_t; typedef struct { char* buffer; int line; } ASX_LineSave_t; struct ASX_Parser_t { int line; // Curent line ASX_LineSave_t *ret_stack; int ret_stack_size; char* last_body; int deep; struct playlist *pl; struct mp_log *log; }; ASX_Parser_t *asx_parser_new(struct playlist *pl); void asx_parser_free(ASX_Parser_t* parser); /* * Return -1 on error, 0 when nothing is found, 1 on sucess */ int asx_get_element(ASX_Parser_t* parser,char** _buffer, char** _element,char** _body,char*** _attribs); int asx_parse_attribs(ASX_Parser_t* parser,char* buffer,char*** _attribs); /////// Attribs utils char* asx_get_attrib(const char* attrib,char** attribs); #define asx_free_attribs(a) asx_list_free(&a,free) ////// List utils typedef void (*ASX_FreeFunc)(void* arg); void asx_list_free(void* list_ptr,ASX_FreeFunc free_func); ////// List utils void asx_list_free(void* list_ptr,ASX_FreeFunc free_func) { void** ptr = *(void***)list_ptr; if(ptr == NULL) return; if(free_func != NULL) { for( ; *ptr != NULL ; ptr++) free_func(*ptr); } free(*(void**)list_ptr); *(void**)list_ptr = NULL; } /////// Attribs utils char* asx_get_attrib(const char* attrib,char** attribs) { char** ptr; if(attrib == NULL || attribs == NULL) return NULL; for(ptr = attribs; ptr[0] != NULL; ptr += 2){ if(strcasecmp(ptr[0],attrib) == 0) return strdup(ptr[1]); } return NULL; } #define asx_warning_attrib_required(p,e,a) MP_WARN(parser, "At line %d : element %s don't have the required attribute %s",p->line,e,a) #define asx_warning_body_parse_error(p,e) MP_WARN(parser, "At line %d : error while parsing %s body",p->line,e) ASX_Parser_t *asx_parser_new(struct playlist *pl) { ASX_Parser_t* parser = calloc(1,sizeof(ASX_Parser_t)); parser->pl = pl; return parser; } void asx_parser_free(ASX_Parser_t* parser) { if(!parser) return; free(parser->ret_stack); free(parser); } #define LETTER "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ" #define SPACE " \n\t\r" int asx_parse_attribs(ASX_Parser_t* parser,char* buffer,char*** _attribs) { char *ptr1, *ptr2, *ptr3; int n_attrib = 0; char **attribs = NULL; char *attrib, *val; ptr1 = buffer; while(1) { for( ; strchr(SPACE,*ptr1) != NULL; ptr1++) { // Skip space if(*ptr1 == '\0') break; } ptr3 = strchr(ptr1,'='); if(ptr3 == NULL) break; for(ptr2 = ptr3-1; strchr(SPACE,*ptr2) != NULL; ptr2--) { if (ptr2 == ptr1) { MP_ERR(parser, "At line %d : this should never append, back to attribute begin while skipping end space",parser->line); break; } } attrib = malloc(ptr2-ptr1+2); strncpy(attrib,ptr1,ptr2-ptr1+1); attrib[ptr2-ptr1+1] = '\0'; ptr1 = strchr(ptr3,'"'); if(ptr1 == NULL || ptr1[1] == '\0') ptr1 = strchr(ptr3,'\''); if(ptr1 == NULL || ptr1[1] == '\0') { MP_WARN(parser, "At line %d : can't find attribute %s value",parser->line,attrib); free(attrib); break; } ptr2 = strchr(ptr1+1,ptr1[0]); if (ptr2 == NULL) { MP_WARN(parser, "At line %d : value of attribute %s isn't finished",parser->line,attrib); free(attrib); break; } ptr1++; val = malloc(ptr2-ptr1+1); strncpy(val,ptr1,ptr2-ptr1); val[ptr2-ptr1] = '\0'; n_attrib++; attribs = realloc(attribs, (2 * n_attrib + 1) * sizeof(char*)); attribs[n_attrib*2-2] = attrib; attribs[n_attrib*2-1] = val; ptr1 = ptr2+1; } if(n_attrib > 0) attribs[n_attrib*2] = NULL; *_attribs = attribs; return n_attrib; } /* * Return -1 on error, 0 when nothing is found, 1 on sucess */ int asx_get_element(ASX_Parser_t* parser,char** _buffer, char** _element,char** _body,char*** _attribs) { char *ptr1,*ptr2, *ptr3, *ptr4; char *attribs = NULL; char *element = NULL, *body = NULL, *ret = NULL, *buffer; int n_attrib = 0; int body_line = 0,attrib_line,ret_line,in = 0; int quotes = 0; if(_buffer == NULL || _element == NULL || _body == NULL || _attribs == NULL) { MP_ERR(parser, "At line %d : asx_get_element called with invalid value",parser->line); return -1; } *_body = *_element = NULL; *_attribs = NULL; buffer = *_buffer; if(buffer == NULL) return 0; if(parser->ret_stack && /*parser->last_body && */buffer != parser->last_body) { ASX_LineSave_t* ls = parser->ret_stack; int i; for(i = 0 ; i < parser->ret_stack_size ; i++) { if(buffer == ls[i].buffer) { parser->line = ls[i].line; break; } } if( i < parser->ret_stack_size) { i++; if( i < parser->ret_stack_size) memmove(parser->ret_stack,parser->ret_stack+i, (parser->ret_stack_size - i)*sizeof(ASX_LineSave_t)); parser->ret_stack_size -= i; if(parser->ret_stack_size > 0) parser->ret_stack = realloc(parser->ret_stack,parser->ret_stack_size*sizeof(ASX_LineSave_t)); else { free(parser->ret_stack); parser->ret_stack = NULL; } } } ptr1 = buffer; while(1) { for( ; ptr1[0] != '<' ; ptr1++) { if(ptr1[0] == '\0') { ptr1 = NULL; break; } if(ptr1[0] == '\n') parser->line++; } //ptr1 = strchr(ptr1,'<'); if(!ptr1 || ptr1[1] == '\0') return 0; // Nothing found if(strncmp(ptr1,"",3) != 0 ; ptr1++) { if(ptr1[0] == '\0') { ptr1 = NULL; break; } if(ptr1[0] == '\n') parser->line++; } //ptr1 = strstr(ptr1,"-->"); if(!ptr1) { MP_ERR(parser, "At line %d : unfinished comment",parser->line); return -1; } } else { break; } } // Is this space skip very useful ?? for(ptr1++; strchr(SPACE,ptr1[0]) != NULL; ptr1++) { // Skip space if(ptr1[0] == '\0') { MP_ERR(parser, "At line %d : EOB reached while parsing element start",parser->line); return -1; } if(ptr1[0] == '\n') parser->line++; } for(ptr2 = ptr1; strchr(LETTER,*ptr2) != NULL;ptr2++) { // Go to end of name if(*ptr2 == '\0'){ MP_ERR(parser, "At line %d : EOB reached while parsing element start",parser->line); return -1; } if(ptr2[0] == '\n') parser->line++; } element = malloc(ptr2-ptr1+1); strncpy(element,ptr1,ptr2-ptr1); element[ptr2-ptr1] = '\0'; for( ; strchr(SPACE,*ptr2) != NULL; ptr2++) { // Skip space if(ptr2[0] == '\0') { MP_ERR(parser, "At line %d : EOB reached while parsing element start",parser->line); free(element); return -1; } if(ptr2[0] == '\n') parser->line++; } attrib_line = parser->line; for(ptr3 = ptr2; ptr3[0] != '\0'; ptr3++) { // Go to element end if(ptr3[0] == '"') quotes ^= 1; if(!quotes && (ptr3[0] == '>' || strncmp(ptr3,"/>",2) == 0)) break; if(ptr3[0] == '\n') parser->line++; } if(ptr3[0] == '\0' || ptr3[1] == '\0') { // End of file MP_ERR(parser, "At line %d : EOB reached while parsing element start",parser->line); free(element); return -1; } // Save attribs string if(ptr3-ptr2 > 0) { attribs = malloc(ptr3-ptr2+1); strncpy(attribs,ptr2,ptr3-ptr2); attribs[ptr3-ptr2] = '\0'; } //bs_line = parser->line; if(ptr3[0] != '/') { // Not Self closed element ptr3++; for( ; strchr(SPACE,*ptr3) != NULL; ptr3++) { // Skip space on body begin if(*ptr3 == '\0') { MP_ERR(parser, "At line %d : EOB reached while parsing %s element body",parser->line,element); free(element); free(attribs); return -1; } if(ptr3[0] == '\n') parser->line++; } ptr4 = ptr3; body_line = parser->line; while(1) { // Find closing element for( ; ptr4[0] != '<' ; ptr4++) { if(ptr4[0] == '\0') { ptr4 = NULL; break; } if(ptr4[0] == '\n') parser->line++; } if(ptr4 && strncmp(ptr4,"",3) != 0 ; ptr4++) { if(ptr4[0] == '\0') { ptr4 = NULL; break; } if(ptr1[0] == '\n') parser->line++; } continue; } if(ptr4 == NULL || ptr4[1] == '\0') { MP_ERR(parser, "At line %d : EOB reached while parsing %s element body",parser->line,element); free(element); free(attribs); return -1; } if(ptr4[1] != '/' && strncasecmp(element,ptr4+1,strlen(element)) == 0) { in++; ptr4+=2; continue; } else if(strncasecmp(element,ptr4+2,strlen(element)) == 0) { // Extract body if(in > 0) { in--; ptr4 += 2+strlen(element); continue; } ret = ptr4+strlen(element)+3; if(ptr4 != ptr3) { ptr4--; for( ; ptr4 != ptr3 && strchr(SPACE,*ptr4) != NULL; ptr4--) ;// Skip space on body end // if(ptr4[0] == '\0') parser->line--; //} ptr4++; body = malloc(ptr4-ptr3+1); strncpy(body,ptr3,ptr4-ptr3); body[ptr4-ptr3] = '\0'; } break; } else { ptr4 += 2; } } } else { ret = ptr3 + 2; // 2 is for /> } for( ; ret[0] != '\0' && strchr(SPACE,ret[0]) != NULL; ret++) { // Skip space if(ret[0] == '\n') parser->line++; } ret_line = parser->line; if(attribs) { parser->line = attrib_line; n_attrib = asx_parse_attribs(parser,attribs,_attribs); free(attribs); if(n_attrib < 0) { MP_WARN(parser, "At line %d : error while parsing element %s attributes",parser->line,element); free(element); free(body); return -1; } } else *_attribs = NULL; *_element = element; *_body = body; parser->last_body = body; parser->ret_stack_size++; parser->ret_stack = realloc(parser->ret_stack,parser->ret_stack_size*sizeof(ASX_LineSave_t)); if(parser->ret_stack_size > 1) memmove(parser->ret_stack+1,parser->ret_stack,(parser->ret_stack_size-1)*sizeof(ASX_LineSave_t)); parser->ret_stack[0].buffer = ret; parser->ret_stack[0].line = ret_line; parser->line = body ? body_line : ret_line; *_buffer = ret; return 1; } static void asx_parse_ref(ASX_Parser_t* parser, char** attribs) { char *href; href = asx_get_attrib("HREF",attribs); if(href == NULL) { asx_warning_attrib_required(parser,"REF" ,"HREF" ); return; } playlist_add_file(parser->pl, href); MP_VERBOSE(parser, "Adding file %s to element entry\n",href); free(href); } static void asx_parse_entryref(ASX_Parser_t* parser,char* buffer,char** _attribs) { char *href; if(parser->deep > 0) return; href = asx_get_attrib("HREF",_attribs); if(href == NULL) { asx_warning_attrib_required(parser,"ENTRYREF" ,"HREF" ); return; } MP_ERR(parser, "Recursive playlist %s\n", href); playlist_add_file(parser->pl, href); free(href); //MP_INFO(parser, "Need to implement entryref\n"); } static void asx_parse_entry(ASX_Parser_t* parser,char* buffer,char** _attribs) { char *element,*body,**attribs; int r; while(buffer && buffer[0] != '\0') { r = asx_get_element(parser,&buffer,&element,&body,&attribs); if(r < 0) { asx_warning_body_parse_error(parser,"ENTRY"); return; } else if (r == 0) { // No more element break; } if(strcasecmp(element,"REF") == 0) { asx_parse_ref(parser,attribs); MP_DBG(parser, "Adding element %s to entry\n",element); } else MP_DBG(parser, "Ignoring element %s\n",element); free(body); asx_free_attribs(attribs); } } static void asx_parse_repeat(ASX_Parser_t* parser,char* buffer,char** _attribs) { char *element,*body,**attribs; int r; asx_get_attrib("COUNT",_attribs); MP_ERR(parser, "Ignoring repeated playlist entries\n"); while(buffer && buffer[0] != '\0') { r = asx_get_element(parser,&buffer,&element,&body,&attribs); if(r < 0) { asx_warning_body_parse_error(parser,"REPEAT"); return; } else if (r == 0) { // No more element break; } if(strcasecmp(element,"ENTRY") == 0) { asx_parse_entry(parser,body,attribs); } else if(strcasecmp(element,"ENTRYREF") == 0) { asx_parse_entryref(parser,body,attribs); } else if(strcasecmp(element,"REPEAT") == 0) { asx_parse_repeat(parser,body,attribs); } else MP_DBG(parser, "Ignoring element %s\n",element); free(body); asx_free_attribs(attribs); } } bool asx_parse(char* buffer, struct playlist *pl, struct mp_log *log) { char *element,*asx_body,**asx_attribs,*body = NULL, **attribs; int r; ASX_Parser_t* parser = asx_parser_new(pl); parser->log = log; parser->line = 1; parser->deep = 0; r = asx_get_element(parser,&buffer,&element,&asx_body,&asx_attribs); if(r < 0) { MP_ERR(parser, "At line %d : Syntax error ???",parser->line); asx_parser_free(parser); return false; } else if(r == 0) { // No contents MP_ERR(parser, "empty asx element"); asx_parser_free(parser); return false; } if(strcasecmp(element,"ASX") != 0) { MP_ERR(parser, "first element isn't ASX, it's %s\n",element); asx_free_attribs(asx_attribs); asx_parser_free(parser); return false; } if(!asx_body) { MP_ERR(parser, "ASX element is empty"); asx_free_attribs(asx_attribs); asx_parser_free(parser); return false; } buffer = asx_body; while(buffer && buffer[0] != '\0') { r = asx_get_element(parser,&buffer,&element,&body,&attribs); if(r < 0) { asx_warning_body_parse_error(parser,"ASX"); asx_parser_free(parser); return false; } else if (r == 0) { // No more element break; } if(strcasecmp(element,"ENTRY") == 0) { asx_parse_entry(parser,body,attribs); } else if(strcasecmp(element,"ENTRYREF") == 0) { asx_parse_entryref(parser,body,attribs); } else if(strcasecmp(element,"REPEAT") == 0) { asx_parse_repeat(parser,body,attribs); } else MP_DBG(parser, "Ignoring element %s\n",element); free(body); asx_free_attribs(attribs); } free(asx_body); asx_free_attribs(asx_attribs); asx_parser_free(parser); return true; }