#ifdef _MSC_VER #define _CRT_SECURE_NO_DEPRECATE #endif #include #include #include #include #include #include #include #include extern "C" { #include "../src/vgmstream.h" #include "../src/util.h" } #include "foo_vgmstream.h" static size_t read_the_rest_foo(uint8_t * dest, off_t offset, size_t length, FOO_STREAMFILE * streamfile) { size_t length_read_total=0; /* is the beginning at least there? */ if (offset >= streamfile->offset && offset < streamfile->offset+streamfile->validsize) { size_t length_read; off_t offset_into_buffer = offset-streamfile->offset; length_read = streamfile->validsize-offset_into_buffer; memcpy(dest,streamfile->buffer+offset_into_buffer,length_read); length_read_total += length_read; length -= length_read; offset += length_read; dest += length_read; } /* TODO: What would make more sense here is to read the whole request * at once into the dest buffer, as it must be large enough, and then * copy some part of that into our own buffer. * The destination buffer is supposed to be much smaller than the * STREAMFILE buffer, though. Maybe we should only ever return up * to the buffer size to avoid having to deal with things like this * which are outside of my intended use. */ /* read as much of the beginning of the request as possible, proceed */ while (length>0) { size_t length_to_read; size_t length_read=0; streamfile->validsize=0; streamfile->m_file->seek(offset,*streamfile->p_abort); if (streamfile->m_file->is_eof(*streamfile->p_abort)) return length_read; streamfile->offset=offset; /* decide how much must be read this time */ if (length>streamfile->buffersize) length_to_read=streamfile->buffersize; else length_to_read=length; /* always try to fill the buffer */ length_read = streamfile->m_file->read(streamfile->buffer,streamfile->buffersize,*streamfile->p_abort); streamfile->validsize=length_read; #ifdef PROFILE_STREAMFILE streamfile->bytes_read += length_read; #endif /* if we can't get enough to satisfy the request we give up */ if (length_read < length_to_read) { memcpy(dest,streamfile->buffer,length_read); length_read_total+=length_read; return length_read_total; } /* use the new buffer */ memcpy(dest,streamfile->buffer,length_to_read); length_read_total+=length_to_read; length-=length_to_read; dest+=length_to_read; offset+=length_to_read; } return length_read_total; } static size_t read_foo(FOO_STREAMFILE *streamfile, uint8_t * dest, off_t offset, size_t length) { if (!streamfile || !dest || length<=0) return 0; /* if entire request is within the buffer */ if (offset >= streamfile->offset && offset+length <= streamfile->offset+streamfile->validsize) { memcpy(dest,streamfile->buffer+(offset-streamfile->offset),length); return length; } return read_the_rest_foo(dest,offset,length,streamfile); } STREAMFILE * open_foo_streamfile(const char * const filename, abort_callback * p_abort) { return open_foo_streamfile_buffer(filename,STREAMFILE_DEFAULT_BUFFER_SIZE, p_abort); } static STREAMFILE *open_foo(FOO_STREAMFILE *streamFile,const char * const filename,size_t buffersize) { service_ptr_t m_file; STREAMFILE *newstreamFile; if (!filename) return NULL; // if same name, duplicate the file pointer we already have open if (!strcmp(streamFile->name,filename)) { m_file = streamFile->m_file; if (1) { newstreamFile = open_foo_streamfile_buffer_by_file(m_file,filename,buffersize,streamFile->p_abort); if (newstreamFile) { return newstreamFile; } // failure, close it and try the default path (which will probably fail a second time) } } // a normal open, open a new file return open_foo_streamfile_buffer(filename,buffersize,streamFile->p_abort); } static size_t get_size_foo(FOO_STREAMFILE * streamfile) { //fseeko(streamfile->infile,0,SEEK_END); return streamfile->m_file->get_size(*streamfile->p_abort);//ftello(streamfile->infile); } static off_t get_offset_foo(FOO_STREAMFILE *streamFile) { return streamFile->offset; } static void close_foo(FOO_STREAMFILE * streamfile) { //fclose(streamfile->infile); free(streamfile->buffer); free(streamfile); } static void get_name_foo(FOO_STREAMFILE *streamfile,char *buffer,size_t length) { strcpy(buffer,streamfile->name); } static STREAMFILE * open_foo_streamfile_buffer_by_file(service_ptr_t m_file,const char * const filename, size_t buffersize, abort_callback * p_abort) { uint8_t * buffer; FOO_STREAMFILE * streamfile; buffer = (uint8_t *) calloc(buffersize,1); if (!buffer) { return NULL; } streamfile = (FOO_STREAMFILE *) calloc(1,sizeof(FOO_STREAMFILE)); if (!streamfile) { free(buffer); return NULL; } streamfile->sf.read = (size_t (__cdecl *)(_STREAMFILE *,uint8_t *,off_t,size_t)) read_foo; streamfile->sf.get_size = (size_t (__cdecl *)(_STREAMFILE *)) get_size_foo; streamfile->sf.get_offset = (off_t (__cdecl *)(_STREAMFILE *)) get_offset_foo; streamfile->sf.get_name = (void (__cdecl *)(_STREAMFILE *,char *,size_t)) get_name_foo; streamfile->sf.open = (_STREAMFILE *(__cdecl *)(_STREAMFILE *,const char *const ,size_t)) open_foo; streamfile->sf.close = (void (__cdecl *)(_STREAMFILE *)) close_foo; #ifdef PROFILE_STREAMFILE streamfile->sf.get_bytes_read = (void*)get_bytes_read_stdio; #endif streamfile->m_file = m_file; streamfile->buffersize = buffersize; streamfile->buffer = buffer; streamfile->p_abort = p_abort; strcpy(streamfile->name,filename); return &streamfile->sf; } STREAMFILE * open_foo_streamfile_buffer(const char * const filename, size_t buffersize, abort_callback * p_abort) { STREAMFILE *streamFile; service_ptr_t infile; if(!(filesystem::g_exists(filename, *p_abort))) return NULL; filesystem::g_open_read(infile,filename,*p_abort); streamFile = open_foo_streamfile_buffer_by_file(infile,filename,buffersize,p_abort); if (!streamFile) { // fclose(infile); } return streamFile; }