mirror of
https://github.com/nitraiolo/CfgUSBLoader.git
synced 2024-11-30 15:14:16 +01:00
675 lines
19 KiB
C
675 lines
19 KiB
C
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// Banner sounds by oggzee
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// Fixes by Clipper
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#include <stdio.h>
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#include <string.h>
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#include <gctypes.h>
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#include <malloc.h>
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#include <asndlib.h>
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#include "disc.h"
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#include "cfg.h"
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#include "wdvd.h"
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#include "wpad.h"
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#include "wbfs.h"
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#include "libwbfs/libwbfs.h"
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#include "gettext.h"
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#define dbg4_printf if (CFG.debug & 4) printf
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void dbg_pause()
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{
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if ((CFG.debug & 5) != 5) return;
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printf("(press button)");
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int b = Wpad_WaitButtons();
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printf("*\n");
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if (b & CFG.button_exit.mask) {
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printf("exit\n");
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exit(0);
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}
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}
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void dbg_hex_dump(void *p, int size)
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{
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if ((CFG.debug & 5) != 5) return;
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hex_dump2(p, size);
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}
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typedef struct {
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//u8 zeroes[128]; // padding
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u8 zeroes[0x40]; // padding
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u8 imet[4]; // "IMET"
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u8 unk[8]; // 0x0000060000000003 fixed, unknown purpose
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u32 sizes[3]; // icon.bin, banner.bin, sound.bin
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u32 flag1; // unknown
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u8 names[10][84]; // JP, EN, DE, FR, ES, IT, NL, ZHCN, ZHTW, KO
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u8 zeroes_2[0x24C]; // padding
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u8 crypto[16]; // MD5 of 0x40 to 0x640 in header.
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} IMET;
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struct U8_archive_header
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{
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u8 tag[4]; // 0x55AA382D "U.8-"
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u32 rootnode_offset; // offset to root_node, always 0x20.
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u32 header_size; // size of header from root_node to end of string table.
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u32 data_offset; // offset to data -- this is rootnode_offset + header_size, aligned to 0x40.
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u8 zeroes[16];
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};
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struct U8_node
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{
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u8 type;
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u8 name_offset[3]; //really a "u24"
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u32 data_offset;
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u32 size;
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};
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typedef struct {
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u32 imd5; // 'IMD5'
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u32 filesize; //size of rest of file
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u8 zeroes[8]; //padding
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u8 crypto[16]; //MD5 of rest of file
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} IMD5;
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// Header
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typedef struct {
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char bns[4]; // 'BNS '
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u32 version; // 0xFEFF0100 endianness and format version check
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u32 filesize; // size of entire BNS
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u16 headersize; // size of BNS header (including chunkinfo)
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u16 chunkcount; // number of chunks
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struct {
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u32 offset; // offset from start of BNS of chunk header
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u32 size; // size of chunk including header
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} chunkinfo[0]; //[chunkcount]; // info for each chunk
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} BNS;
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// Chunk header
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typedef struct {
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char type[4]; // 'INFO' or 'DATA'
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u32 size; // size including header
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} BNS_chunk;
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// INFO chunk
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typedef struct {
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u8 unk; // 0, possibly format control
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u8 loop; // loop flag, 0 = no loop, 1 = loop
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u8 channels; // channel count
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u8 unk2; // 0, padding?
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u16 samplerate; // sample rate (Hz)
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u16 pad; // 0
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u32 loopstart; // loop start sample
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u32 samples; // total sample count
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u32 offset; // offset (in INFO) to channel info offset list
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u32 unk4; // 0, padding?
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} INFO_chunk;
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// channel info offset list
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typedef struct {
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// u32 offset[channels]; // offset (in INFO) to channel info for each channel
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u32 offset[0]; // offset (in INFO) to channel info for each channel
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} channel_info_offset_list;
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// channel info (for DSP ADPCM)
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typedef struct {
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u32 data_offset; // offset (in DATA) of audio data for channel
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u32 info_offset; // offset (in INFO) of DSP info (0x30 byte block)
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u32 unk; // 0
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} channel_info;
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void adpcm_decode(void *dsp_buf, void *adpcm_info, void *adpcm_data,
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int samples, int channels, int cur_chan)
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{
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// read:
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short *CoEfficients = adpcm_info; //[16];
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u8 *cdata = adpcm_data;
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// write:
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//int dsp_size = size / 8 * 14;
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int rsize = samples * 8 / 14;
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short *dsp = dsp_buf;
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// state
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int rpos = 0, wpos = cur_chan;
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short adpcmhistory1 = 0;
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short adpcmhistory2 = 0;
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while (rpos < rsize) {
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int sample;
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short nibbles[14];
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int index1;
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int i,j;
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u8 header;
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short delta;
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u8 thisbyte;
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short hist = adpcmhistory1;
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short hist2 = adpcmhistory2;
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// If we have loop data then we write to our looping file.
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//if (mscdata.Position == looppos)
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// bwpdata = new BinaryWriter(msploop);
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//header = brcdata.ReadByte();
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header = cdata[rpos++];
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i = header & 0xFF;
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delta = (short) (1 << (i & 0xff & 0xf));
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index1 = (i & 0xff) >> 4;
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for(i = 0; i < 14; i += 2) {
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//thisbyte = brcdata.ReadByte();
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thisbyte = cdata[rpos++];
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j = (thisbyte & 0xff) >> 4;
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nibbles[i] = (short) j;
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j = thisbyte & 0xff & 0xf;
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nibbles[i+1] = (short) j;
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}
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for(i = 0; i < 14; i++) {
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if(nibbles[i] >= 8)
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nibbles[i] = (short)(nibbles[i] - 16);
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}
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for(i = 0; i<14 ; i++) {
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sample = (delta * nibbles[i])<<11;
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sample += CoEfficients[index1 * 2] * hist;
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sample += CoEfficients[index1 * 2 + 1] * hist2;
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sample = sample + 1024;
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sample = sample >> 11;
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if(sample > 32767)
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sample = 32767;
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if(sample < -32768)
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sample = -32768;
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//bwpdata.Write((short)sample);
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dsp[wpos] = (short)sample;
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wpos += channels;
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if (wpos >= samples * channels) {
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rpos = rsize;
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break;
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}
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hist2 = hist;
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hist = (short)sample;
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}
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adpcmhistory1 = hist;
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adpcmhistory2 = hist2;
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}
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}
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u8* decompress_lz77(u8 *data, size_t data_size, size_t* decompressed_size)
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{
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u8 *data_end;
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u8 *decompressed_data;
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size_t unpacked_size;
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u8 *in_ptr;
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u8 *out_ptr;
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u8 *out_end;
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in_ptr = data;
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data_end = data + data_size;
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// Assume this for now and grow when needed
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unpacked_size = data_size;
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decompressed_data = malloc(unpacked_size);
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out_end = decompressed_data + unpacked_size;
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out_ptr = decompressed_data;
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while (in_ptr < data_end) {
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int bit;
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u8 bitmask = *in_ptr;
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in_ptr++;
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for (bit = 0x80; bit != 0; bit >>= 1) {
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if (bitmask & bit) {
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// Next section is compressed
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u8 rep_length;
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u16 rep_offset;
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rep_length = (*in_ptr >> 4) + 3;
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rep_offset = *in_ptr & 0x0f;
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in_ptr++;
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rep_offset = *in_ptr | (rep_offset << 8);
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in_ptr++;
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if (out_ptr-decompressed_data < rep_offset) {
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dbg4_printf(gt("Inconsistency in LZ77 encoding %x"), in_ptr-data);
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dbg4_printf("\n");
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}
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for ( ; rep_length > 0; rep_length--) {
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*out_ptr = out_ptr[-rep_offset-1];
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out_ptr++;
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if (out_ptr >= out_end) {
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// Need to grow buffer
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decompressed_data = realloc(decompressed_data, unpacked_size*2);
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out_ptr = decompressed_data + unpacked_size;
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unpacked_size *= 2;
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out_end = decompressed_data + unpacked_size;
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}
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}
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} else {
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// Just copy byte
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*out_ptr = *in_ptr;
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out_ptr++;
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if (out_ptr >= out_end) {
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// Need to grow buffer
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decompressed_data = realloc(decompressed_data, unpacked_size*2);
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out_ptr = decompressed_data + unpacked_size;
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unpacked_size *= 2;
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out_end = decompressed_data + unpacked_size;
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}
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in_ptr++;
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}
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}
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}
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*decompressed_size = (out_ptr - decompressed_data);
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return decompressed_data;
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}
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void parse_bns(void *data_bns, SoundInfo *snd)
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{
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BNS *bns = data_bns;
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BNS_chunk *b_chunk = NULL;
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INFO_chunk *i_chunk = NULL;
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void *d_chunk = NULL;
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channel_info_offset_list *ci_off;
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channel_info *ci;
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void *dsp_data = NULL;
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int dsp_size = 0;
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int i;
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dbg4_printf("BNS: %.4s 0x%x %x %d\n", bns->bns,
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bns->version, bns->filesize, bns->chunkcount);
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if (memcmp(bns, "BNS ", 4) != 0) return;
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for (i=0; i<bns->chunkcount; i++) {
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b_chunk = (void*)bns + bns->chunkinfo[i].offset;
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dbg4_printf("%d %4x %4x %.4s %x\n", i,
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bns->chunkinfo[i].offset,
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bns->chunkinfo[i].size,
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b_chunk->type,
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b_chunk->size);
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if (memcmp(b_chunk->type, "INFO", 4)==0) {
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if (!i_chunk) i_chunk = (void*)(b_chunk+1);
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dbg4_printf(" l:%d c:%d s:%d %x %x %x\n",
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i_chunk->loop,
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i_chunk->channels,
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i_chunk->samplerate,
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i_chunk->loopstart,
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i_chunk->samples,
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i_chunk->offset);
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}
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if (memcmp(&b_chunk->type, "DATA", 4)==0) {
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if (!d_chunk) d_chunk = (void*)(b_chunk+1);
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}
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}
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if (!i_chunk || !d_chunk) return;
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if (i_chunk->channels < 1 || i_chunk->channels > 2) return;
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dsp_size = i_chunk->samples * i_chunk->channels * sizeof(short);
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dsp_data = memalign(32, dsp_size + 14*2);
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ci_off = (void*)i_chunk + i_chunk->offset;
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for (i=0; i<i_chunk->channels; i++) {
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int off = ci_off->offset[i];
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ci = (void*)i_chunk + off;
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dbg4_printf(" [%d] %x data: %x info: %x\n", i, off,
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ci->data_offset, ci->info_offset);
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void *adpcm_data = (void*)d_chunk + ci->data_offset;
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void *adpcm_info = (void*)i_chunk + ci->info_offset;
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adpcm_decode(dsp_data, adpcm_info, adpcm_data,
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i_chunk->samples, i_chunk->channels, i);
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}
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snd->dsp_data = dsp_data;
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snd->size = dsp_size;
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snd->channels = i_chunk->channels;
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snd->rate = i_chunk->samplerate;
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snd->loop = 0;
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}
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/*
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The canonical WAVE format starts with the RIFF header:
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Offset Size Name Description
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0 4 ChunkID Contains the letters "RIFF" in ASCII form
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(0x52494646 big-endian form).
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4 4 ChunkSize 36 + SubChunk2Size, or more precisely:
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4 + (8 + SubChunk1Size) + (8 + SubChunk2Size)
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This is the size of the rest of the chunk
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following this number. This is the size of the
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entire file in bytes minus 8 bytes for the
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two fields not included in this count:
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ChunkID and ChunkSize.
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8 4 Format Contains the letters "WAVE"
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(0x57415645 big-endian form).
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The "WAVE" format consists of two subchunks: "fmt " and "data":
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The "fmt " subchunk describes the sound data's format:
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12 4 Subchunk1ID Contains the letters "fmt "
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(0x666d7420 big-endian form).
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16 4 Subchunk1Size 16 for PCM. This is the size of the
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rest of the Subchunk which follows this number.
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20 2 AudioFormat PCM = 1 (i.e. Linear quantization)
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Values other than 1 indicate some
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form of compression.
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22 2 NumChannels Mono = 1, Stereo = 2, etc.
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24 4 SampleRate 8000, 44100, etc.
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28 4 ByteRate == SampleRate * NumChannels * BitsPerSample/8
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32 2 BlockAlign == NumChannels * BitsPerSample/8
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The number of bytes for one sample including
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all channels. I wonder what happens when
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this number isn't an integer?
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34 2 BitsPerSample 8 bits = 8, 16 bits = 16, etc.
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2 ExtraParamSize if PCM, then doesn't exist
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X ExtraParams space for extra parameters
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The "data" subchunk contains the size of the data and the actual sound:
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36 4 Subchunk2ID Contains the letters "data"
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(0x64617461 big-endian form).
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40 4 Subchunk2Size == NumSamples * NumChannels * BitsPerSample/8
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This is the number of bytes in the data.
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You can also think of this as the size
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of the read of the subchunk following this
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number.
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44 * Data The actual sound data.
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*/
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typedef struct RIFF
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{
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char ChunkID[4]; // Contains the letters "RIFF" in ASCII form
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int ChunkSize; // 4 + (8 + SubChunk1Size) + (8 + SubChunk2Size)
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char Format[4]; // Contains the letters "WAVE"
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//The "WAVE" format consists of two subchunks: "fmt " and "data":
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//The "fmt " subchunk describes the sound data's format:
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char Subchunk1ID[4];// Contains the letters "fmt "
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int Subchunk1Size; // 16 for PCM. This is the size of the rest of the Subchunk
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short AudioFormat; // PCM = 1 (i.e. Linear quantization)
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short NumChannels; // Mono = 1, Stereo = 2, etc.
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int SampleRate; // 8000, 44100, etc.
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int ByteRate; // == SampleRate * NumChannels * BitsPerSample/8
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short BlockAlign; // == NumChannels * BitsPerSample/8
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short BitsPerSample;// 8 bits = 8, 16 bits = 16, etc.
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// 2 ExtraParamSize // if PCM, then doesn't exist
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// X ExtraParams // space for extra parameters
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} RIFF;
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typedef struct RIFF_chnk
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{
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char id[4];
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int size;
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} RIFF_chnk;
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void parse_riff(void *data, SoundInfo *snd)
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{
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RIFF *riff = data;
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int riff_size = _le32(&riff->ChunkSize);
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int sub1_size = _le32(&riff->Subchunk1Size);
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dbg_hex_dump(data, 128);
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dbg4_printf("'%.4s %x %.4s %.4s %x\n",
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riff->ChunkID, _le32(&riff->ChunkSize), riff->Format,
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riff->Subchunk1ID, sub1_size);
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if (memcmp(riff->ChunkID, "RIFF", 4)) return;
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if (memcmp(riff->Format, "WAVE", 4)) return;
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if (memcmp(riff->Subchunk1ID, "fmt ", 4)) return;
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short AudioFormat = _le16(&riff->AudioFormat);
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short NumChannels = _le16(&riff->NumChannels);
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short BitsPerSample = _le16(&riff->BitsPerSample);
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int SampleRate = _le32(&riff->SampleRate);
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if (AudioFormat != 1 || BitsPerSample != 16) return;
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if (NumChannels < 1 || NumChannels > 2) return;
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dbg4_printf("f:%d c:%d r:%d b:%d\n", AudioFormat, NumChannels,
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SampleRate, BitsPerSample);
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RIFF_chnk *chnk = ((void*)riff) + 12 + 8 + sub1_size;
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RIFF_chnk *riff_data = NULL;
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while (((void*)chnk > data) && ((void*)chnk < data + riff_size)) {
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int size = _le32(&chnk->size);
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dbg4_printf("[%.4s] %x\n", chnk->id, size);
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dbg_pause();
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if (memcmp(chnk->id, "data", 4)==0) {
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riff_data = chnk;
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break;
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}
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if (size <= 0) break;
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chnk = ((void*)chnk) + sizeof(RIFF_chnk) + size;
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}
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if (riff_data == NULL) return;
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int Size = _le32(&riff_data->size);
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short *ss = (void*)(riff_data + 1);
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short *dsp_data;
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int i;
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dsp_data = memalign(32, Size);
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if (!dsp_data) return;
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// byte order
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for (i=0; i<Size/2; i++) {
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dsp_data[i] = _le16(ss);
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ss++;
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}
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snd->dsp_data = dsp_data;
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snd->channels = NumChannels;
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snd->rate = SampleRate;
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snd->size = Size;
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snd->loop = 0;
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}
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/*
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Byte order: Big-endian
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Offset Length Contents
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0 4 bytes "FORM"
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4 4 bytes <File size - 8>
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8 4 bytes "AIFF"
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[ // Chunks
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4 bytes <Chunk magic>
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4 bytes <Chunk data size(x)>
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(x)bytes <Chunk data>
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]*
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COMM chunk: Must be defined
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0 4 bytes "COMM"
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4 4 bytes <COMM chunk size> // (=18)
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8 2 bytes <Number of channels(c)>
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10 4 bytes <Number of frames(f)>
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14 2 bytes <bits/samples(b)> // 1..32
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16 10 bytes <Sample rate (Extended 80-bit floating-point format)>
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SSND chunk: Must be defined
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0 4 bytes "SSND"
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4 4 bytes <Chunk size(x)>
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8 4 bytes <Offset(n)>
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12 4 bytes <block size> // (=0)
|
|
16 (n)bytes Comment
|
|
16+(n) (s)bytes <Sample data> // (s) := (x) - (n) - 8
|
|
*/
|
|
|
|
typedef struct CHNK
|
|
{
|
|
char id[4];
|
|
int size;
|
|
} CHNK;
|
|
|
|
typedef struct AIFF
|
|
{
|
|
char id[4]; // FORM
|
|
int size;
|
|
char aiff[4]; // AIFF
|
|
} AIFF;
|
|
|
|
/*
|
|
typedef struct COMM
|
|
{
|
|
char id[4]; // 4 bytes "COMM"
|
|
int size; // 4 bytes <COMM chunk size> // (=18)
|
|
u16 channels; // 2 bytes <Number of channels(c)>
|
|
int frames; // 4 bytes <Number of frames(f)>
|
|
u16 bits; // 2 bytes <bits/samples(b)> // 1..32
|
|
char rate[10]; //10 bytes <Sample rate (Extended 80-bit floating-point format)>
|
|
} COMM;
|
|
*/
|
|
typedef struct COMM
|
|
{
|
|
char id[4]; // 4 bytes "COMM"
|
|
int size; // 4 bytes <COMM chunk size> // (=18)
|
|
u16 channels; // 2 bytes <Number of channels(c)>
|
|
u8 frames[4]; // 4 bytes <Number of frames(f)>
|
|
u16 bits; // 2 bytes <bits/samples(b)> // 1..32
|
|
u8 rate[10];
|
|
//u16 pad1;
|
|
//u16 rate;
|
|
//u8 pad[6]; //10 bytes <Sample rate (Extended 80-bit floating-point format)>
|
|
} COMM;
|
|
|
|
typedef struct SSND
|
|
{
|
|
char id[4]; // 4 bytes "SSND"
|
|
int size; // 4 bytes <Chunk size(x)>
|
|
int offset; // 4 bytes <Offset(n)>
|
|
int bsize; // 4 bytes <block size> // (=0)
|
|
//(n)bytes Comment
|
|
//(s)bytes <Sample data> // (s) := (x) - (n) - 8
|
|
} SSND;
|
|
|
|
double ext_to_double(unsigned char a_extended[10])
|
|
{
|
|
int exponent,i;
|
|
char found;
|
|
union {
|
|
double dval;
|
|
unsigned char cval[8];
|
|
} value;
|
|
unsigned char extended[10];
|
|
memcpy(extended, a_extended, 10);
|
|
//for (i=0;i<10;i++) dbg4_printf("%02x ", extended[i]); puts("");
|
|
/* I'll assume little endian for now. Easy to fix to big endian anyway */
|
|
/* also assuming positive for simplicity */
|
|
found=0;
|
|
for (i = 2; i < 10; i++) found |= extended[i];
|
|
if (!found) return 0;
|
|
exponent = (((extended[0]&0x7F) << 8) | extended[1]) - 15359;
|
|
found=0;
|
|
while(!found) {
|
|
found = (extended[2] & 0x80);
|
|
for (i = 2; i < 9; i++) extended[i] = (extended[i] << 1) | (extended[i+1] >> 7);
|
|
extended[9] = extended[9] << 1;
|
|
exponent--;
|
|
}
|
|
/* Little Endian here:
|
|
value.cval[7] = extended[0]&0x80 | (exponent >> 4);
|
|
value.cval[6] = (exponent << 4) | (extended[2] >> 4);
|
|
for (i=0;i<6; i++) {
|
|
value.cval[5-i] = (extended[i+2] << 4) | (extended[i+3] >> 4);
|
|
}
|
|
*/
|
|
value.cval[0] = (extended[0]&0x80) | (exponent >> 4);
|
|
value.cval[1] = (exponent << 4) | (extended[2] >> 4);
|
|
for (i=0;i<6; i++) {
|
|
value.cval[i+2] = (extended[i+2] << 4) | (extended[i+3] >> 4);
|
|
}
|
|
return value.dval;
|
|
}
|
|
|
|
void parse_aiff(void *data, SoundInfo *snd)
|
|
{
|
|
AIFF *aiff = data;
|
|
CHNK *chnk = (CHNK*)(aiff+1);
|
|
COMM *comm = NULL;
|
|
SSND *ssnd = NULL;
|
|
int rate = 0;
|
|
dbg4_printf("%.4s %x %.4s\n", aiff->id, aiff->size, aiff->aiff);
|
|
while ((void*)chnk < data + aiff->size) {
|
|
dbg4_printf("[%.4s] %d %x\n", chnk->id, chnk->size, chnk->size);
|
|
if (memcmp(chnk->id, "COMM", 4)==0 && !comm) {
|
|
comm = (COMM*)chnk;
|
|
rate = (int)ext_to_double(comm->rate);
|
|
dbg4_printf("c:%d f:%x b:%d r:%d\n", comm->channels,
|
|
_be32(comm->frames), comm->bits, rate);
|
|
}
|
|
if (memcmp(chnk->id, "SSND", 4)==0 && !ssnd) {
|
|
ssnd = (SSND*)chnk;
|
|
dbg4_printf("%d %d\n", ssnd->offset, ssnd->bsize);
|
|
}
|
|
// next chunk:
|
|
chnk = (void*)(chnk+1) + chnk->size;
|
|
}
|
|
if (!comm || !ssnd) return;
|
|
int dsp_size = ssnd->size - ssnd->offset - 8;
|
|
void *dsp_data = memalign(32, dsp_size);
|
|
if (!dsp_data) return;
|
|
memcpy(dsp_data, (void*)(ssnd+1) + ssnd->offset, dsp_size);
|
|
snd->dsp_data = dsp_data;
|
|
snd->channels = comm->channels;
|
|
snd->rate = rate;
|
|
snd->size = dsp_size;
|
|
snd->loop = 0;
|
|
}
|
|
|
|
void parse_banner_title(void *banner, u8 *title, s32 lang)
|
|
{
|
|
memcpy(title, ((IMET*)banner)->names[lang], 84);
|
|
}
|
|
|
|
void parse_banner_snd(void *banner, SoundInfo *snd)
|
|
{
|
|
//extern char opening_bnr[];
|
|
//banner = opening_bnr;
|
|
void *data_hdr = banner + sizeof(IMET);
|
|
struct U8_archive_header *u8_hdr;
|
|
struct U8_node *node;
|
|
int i, num, off;
|
|
char *name_start, *name;
|
|
u8 u8_tag[4] = {0x55, 0xAA, 0x38, 0x2D}; // "U.8-"
|
|
|
|
dbg_hex_dump(banner, 128);
|
|
u8_hdr = data_hdr;
|
|
dbg4_printf("imet: %.4s\n", ((IMET*)banner)->imet);
|
|
|
|
//printf("Title is: %s\n",banner_title);
|
|
dbg4_printf("U8: %.4s 0x%x\n", u8_hdr->tag, u8_hdr->rootnode_offset);
|
|
dbg_pause();
|
|
if (memcmp(u8_hdr->tag, u8_tag, 4)) return;
|
|
|
|
node = data_hdr + u8_hdr->rootnode_offset;
|
|
num = node->size;
|
|
name_start = (char*)&node[num];
|
|
if (num>5) num = 5;
|
|
for (i=1; i<num; i++) {
|
|
off = *(int*)(&node[i]) & 0x00FFFFFF;
|
|
name = name_start + off;
|
|
dbg4_printf("%d %.20s [0x%x] @ %x\n", i, name, node[i].size, node[i].data_offset);
|
|
dbg_pause();
|
|
if (strcmp(name, "sound.bin") == 0) {
|
|
IMD5 *imd5 = data_hdr + node[i].data_offset;
|
|
void *sound_data = (void*)imd5 + sizeof(IMD5);
|
|
unsigned size = imd5->filesize;
|
|
void *lz_data = NULL;
|
|
retry:
|
|
dbg4_printf("[%.4s]\n", (char*)sound_data);
|
|
dbg_pause();
|
|
if (memcmp(sound_data, "BNS ", 4)==0) {
|
|
parse_bns(sound_data, snd);
|
|
} else if (memcmp(sound_data, "RIFF", 4)==0) {
|
|
parse_riff(sound_data, snd);
|
|
} else if (memcmp(sound_data, "FORM", 4)==0) {
|
|
parse_aiff(sound_data, snd);
|
|
} else if (memcmp(sound_data, "LZ77", 4)==0 && lz_data == NULL) {
|
|
unsigned lz_hdr = ((unsigned*)sound_data)[1];
|
|
lz_data = decompress_lz77(sound_data+8, size-8, &size);
|
|
dbg4_printf("de-LZ: %p %x %x %x %x %.4s\n", lz_data,
|
|
node[i].size, size, lz_hdr, lz_hdr>>8, (char*)lz_data);
|
|
sound_data = lz_data;
|
|
goto retry;
|
|
}
|
|
SAFE_FREE(lz_data);
|
|
}
|
|
}
|
|
dbg4_printf("snd: %p %x\n", snd->dsp_data, snd->size);
|
|
}
|
|
|
|
|