/* * Copyright (C) 2002-2009 The DOSBox Team * * This program 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. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* $Id: hardware.cpp,v 1.23 2009-10-11 18:09:22 qbix79 Exp $ */ #include #include #include #include "dosbox.h" #include "hardware.h" #include "setup.h" #include "support.h" #include "mem.h" #include "mapper.h" #include "pic.h" #include "render.h" #include "cross.h" #if (C_SSHOT) #include #include "../libs/zmbv/zmbv.cpp" #endif static std::string capturedir; extern const char* RunningProgram; Bitu CaptureState; #define WAVE_BUF 16*1024 #define MIDI_BUF 4*1024 #define AVI_HEADER_SIZE 500 static struct { struct { FILE * handle; Bit16s buf[WAVE_BUF][2]; Bitu used; Bit32u length; Bit32u freq; } wave; struct { FILE * handle; Bit8u buffer[MIDI_BUF]; Bitu used,done; Bit32u last; } midi; struct { Bitu rowlen; } image; #if (C_SSHOT) struct { FILE *handle; Bitu frames; Bit16s audiobuf[WAVE_BUF][2]; Bitu audioused; Bitu audiorate; Bitu audiowritten; VideoCodec *codec; Bitu width, height, bpp; Bitu written; float fps; int bufSize; void *buf; Bit8u *index; Bitu indexsize, indexused; } video; #endif } capture; FILE * OpenCaptureFile(const char * type,const char * ext) { if(capturedir.empty()) { LOG_MSG("Please specify a capture directory"); return 0; } Bitu last=0; char file_start[16]; dir_information * dir; /* Find a filename to open */ dir = open_directory(capturedir.c_str()); if (!dir) { //Try creating it first Cross::CreateDir(capturedir); dir=open_directory(capturedir.c_str()); if(!dir) { LOG_MSG("Can't open dir %s for capturing %s",capturedir.c_str(),type); return 0; } } strcpy(file_start,RunningProgram); lowcase(file_start); strcat(file_start,"_"); bool is_directory; char tempname[CROSS_LEN]; bool testRead = read_directory_first(dir, tempname, is_directory ); for ( ; testRead; testRead = read_directory_next(dir, tempname, is_directory) ) { char * test=strstr(tempname,ext); if (!test || strlen(test)!=strlen(ext)) continue; *test=0; if (strncasecmp(tempname,file_start,strlen(file_start))!=0) continue; Bitu num=atoi(&tempname[strlen(file_start)]); if (num>=last) last=num+1; } close_directory( dir ); char file_name[CROSS_LEN]; sprintf(file_name,"%s%c%s%03d%s",capturedir.c_str(),CROSS_FILESPLIT,file_start,last,ext); /* Open the actual file */ FILE * handle=fopen(file_name,"wb"); if (handle) { LOG_MSG("Capturing %s to %s",type,file_name); } else { LOG_MSG("Failed to open %s for capturing %s",file_name,type); } return handle; } #if (C_SSHOT) static void CAPTURE_AddAviChunk(const char * tag, Bit32u size, void * data, Bit32u flags) { Bit8u chunk[8];Bit8u *index;Bit32u pos, writesize; chunk[0] = tag[0];chunk[1] = tag[1];chunk[2] = tag[2];chunk[3] = tag[3]; host_writed(&chunk[4], size); /* Write the actual data */ fwrite(chunk,1,8,capture.video.handle); writesize = (size+1)&~1; fwrite(data,1,writesize,capture.video.handle); pos = capture.video.written + 4; capture.video.written += writesize + 8; if (capture.video.indexused + 16 >= capture.video.indexsize ) { capture.video.index = (Bit8u*)realloc( capture.video.index, capture.video.indexsize + 16 * 4096); if (!capture.video.index) E_Exit("Ran out of memory during AVI capturing"); capture.video.indexsize += 16*4096; } index = capture.video.index+capture.video.indexused; capture.video.indexused += 16; index[0] = tag[0]; index[1] = tag[1]; index[2] = tag[2]; index[3] = tag[3]; host_writed(index+4, flags); host_writed(index+8, pos); host_writed(index+12, size); } #endif #if (C_SSHOT) static void CAPTURE_VideoHeader() { Bit8u avi_header[AVI_HEADER_SIZE]; Bitu main_list; Bitu header_pos=0; Bitu save_pos=ftell(capture.video.handle); #define AVIOUT4(_S_) memcpy(&avi_header[header_pos],_S_,4);header_pos+=4; #define AVIOUTw(_S_) host_writew(&avi_header[header_pos], _S_);header_pos+=2; #define AVIOUTd(_S_) host_writed(&avi_header[header_pos], _S_);header_pos+=4; /* Try and write an avi header */ AVIOUT4("RIFF"); // Riff header AVIOUTd(AVI_HEADER_SIZE + capture.video.written - 8 + capture.video.indexused); AVIOUT4("AVI "); AVIOUT4("LIST"); // List header main_list = header_pos; AVIOUTd(0); // TODO size of list AVIOUT4("hdrl"); AVIOUT4("avih"); AVIOUTd(56); /* # of bytes to follow */ AVIOUTd((Bit32u)(1000000 / capture.video.fps)); /* Microseconds per frame */ AVIOUTd(0); AVIOUTd(0); /* PaddingGranularity (whatever that might be) */ AVIOUTd(0x110); /* Flags,0x10 has index, 0x100 interleaved */ AVIOUTd(capture.video.frames); /* TotalFrames */ AVIOUTd(0); /* InitialFrames */ AVIOUTd(2); /* Stream count */ AVIOUTd(0); /* SuggestedBufferSize */ AVIOUTd(capture.video.width); /* Width */ AVIOUTd(capture.video.height); /* Height */ AVIOUTd(0); /* TimeScale: Unit used to measure time */ AVIOUTd(0); /* DataRate: Data rate of playback */ AVIOUTd(0); /* StartTime: Starting time of AVI data */ AVIOUTd(0); /* DataLength: Size of AVI data chunk */ /* Video stream list */ AVIOUT4("LIST"); AVIOUTd(4 + 8 + 56 + 8 + 40); /* Size of the list */ AVIOUT4("strl"); /* video stream header */ AVIOUT4("strh"); AVIOUTd(56); /* # of bytes to follow */ AVIOUT4("vids"); /* Type */ AVIOUT4(CODEC_4CC); /* Handler */ AVIOUTd(0); /* Flags */ AVIOUTd(0); /* Reserved, MS says: wPriority, wLanguage */ AVIOUTd(0); /* InitialFrames */ AVIOUTd(1000000); /* Scale */ AVIOUTd((Bit32u)(1000000 * capture.video.fps)); /* Rate: Rate/Scale == samples/second */ AVIOUTd(0); /* Start */ AVIOUTd(capture.video.frames); /* Length */ AVIOUTd(0); /* SuggestedBufferSize */ AVIOUTd(~0); /* Quality */ AVIOUTd(0); /* SampleSize */ AVIOUTd(0); /* Frame */ AVIOUTd(0); /* Frame */ /* The video stream format */ AVIOUT4("strf"); AVIOUTd(40); /* # of bytes to follow */ AVIOUTd(40); /* Size */ AVIOUTd(capture.video.width); /* Width */ AVIOUTd(capture.video.height); /* Height */ // OUTSHRT(1); OUTSHRT(24); /* Planes, Count */ AVIOUTd(0); AVIOUT4(CODEC_4CC); /* Compression */ AVIOUTd(capture.video.width * capture.video.height*4); /* SizeImage (in bytes?) */ AVIOUTd(0); /* XPelsPerMeter */ AVIOUTd(0); /* YPelsPerMeter */ AVIOUTd(0); /* ClrUsed: Number of colors used */ AVIOUTd(0); /* ClrImportant: Number of colors important */ /* Audio stream list */ AVIOUT4("LIST"); AVIOUTd(4 + 8 + 56 + 8 + 16); /* Length of list in bytes */ AVIOUT4("strl"); /* The audio stream header */ AVIOUT4("strh"); AVIOUTd(56); /* # of bytes to follow */ AVIOUT4("auds"); AVIOUTd(0); /* Format (Optionally) */ AVIOUTd(0); /* Flags */ AVIOUTd(0); /* Reserved, MS says: wPriority, wLanguage */ AVIOUTd(0); /* InitialFrames */ AVIOUTd(4); /* Scale */ AVIOUTd(capture.video.audiorate*4); /* Rate, actual rate is scale/rate */ AVIOUTd(0); /* Start */ if (!capture.video.audiorate) capture.video.audiorate = 1; AVIOUTd(capture.video.audiowritten/4); /* Length */ AVIOUTd(0); /* SuggestedBufferSize */ AVIOUTd(~0); /* Quality */ AVIOUTd(4); /* SampleSize */ AVIOUTd(0); /* Frame */ AVIOUTd(0); /* Frame */ /* The audio stream format */ AVIOUT4("strf"); AVIOUTd(16); /* # of bytes to follow */ AVIOUTw(1); /* Format, WAVE_ZMBV_FORMAT_PCM */ AVIOUTw(2); /* Number of channels */ AVIOUTd(capture.video.audiorate); /* SamplesPerSec */ AVIOUTd(capture.video.audiorate*4); /* AvgBytesPerSec*/ AVIOUTw(4); /* BlockAlign */ AVIOUTw(16); /* BitsPerSample */ int nmain = header_pos - main_list - 4; /* Finish stream list, i.e. put number of bytes in the list to proper pos */ int njunk = AVI_HEADER_SIZE - 8 - 12 - header_pos; AVIOUT4("JUNK"); AVIOUTd(njunk); /* Fix the size of the main list */ header_pos = main_list; AVIOUTd(nmain); header_pos = AVI_HEADER_SIZE - 12; AVIOUT4("LIST"); AVIOUTd(capture.video.written+4); /* Length of list in bytes */ AVIOUT4("movi"); /* First add the index table to the end */ memcpy(capture.video.index, "idx1", 4); host_writed( capture.video.index+4, capture.video.indexused - 8 ); fwrite( capture.video.index, 1, capture.video.indexused, capture.video.handle); fseek(capture.video.handle, 0, SEEK_SET); fwrite(&avi_header, 1, AVI_HEADER_SIZE, capture.video.handle); fseek(capture.video.handle, save_pos, SEEK_SET); } static void CAPTURE_VideoEvent(bool pressed) { if (!pressed) return; if (CaptureState & CAPTURE_VIDEO) { /* Close the video */ CaptureState &= ~CAPTURE_VIDEO; LOG_MSG("Stopped capturing video."); /* Adds AVI header to the file */ CAPTURE_VideoHeader(); fclose( capture.video.handle ); free( capture.video.index ); free( capture.video.buf ); delete capture.video.codec; capture.video.handle = 0; } else { CaptureState |= CAPTURE_VIDEO; } } #endif void CAPTURE_AddImage(Bitu width, Bitu height, Bitu bpp, Bitu pitch, Bitu flags, float fps, Bit8u * data, Bit8u * pal) { #if (C_SSHOT) Bitu i; Bit8u doubleRow[SCALER_MAXWIDTH*4]; Bitu countWidth = width; if (flags & CAPTURE_FLAG_DBLH) height *= 2; if (flags & CAPTURE_FLAG_DBLW) width *= 2; if (height > SCALER_MAXHEIGHT) return; if (width > SCALER_MAXWIDTH) return; if (CaptureState & CAPTURE_IMAGE) { png_structp png_ptr; png_infop info_ptr; png_color palette[256]; CaptureState &= ~CAPTURE_IMAGE; /* Open the actual file */ FILE * fp=OpenCaptureFile("Screenshot",".png"); if (!fp) goto skip_shot; /* First try to alloacte the png structures */ png_ptr = png_create_write_struct(PNG_LIBPNG_VER_STRING, NULL,NULL, NULL); if (!png_ptr) goto skip_shot; info_ptr = png_create_info_struct(png_ptr); if (!info_ptr) { png_destroy_write_struct(&png_ptr,(png_infopp)NULL); goto skip_shot; } /* Finalize the initing of png library */ png_init_io(png_ptr, fp); png_set_compression_level(png_ptr,Z_BEST_COMPRESSION); /* set other zlib parameters */ png_set_compression_mem_level(png_ptr, 8); png_set_compression_strategy(png_ptr,Z_DEFAULT_STRATEGY); png_set_compression_window_bits(png_ptr, 15); png_set_compression_method(png_ptr, 8); png_set_compression_buffer_size(png_ptr, 8192); if (bpp==8) { png_set_IHDR(png_ptr, info_ptr, width, height, 8, PNG_COLOR_TYPE_PALETTE, PNG_INTERLACE_NONE, PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT); for (i=0;i<256;i++) { palette[i].red=pal[i*4+0]; palette[i].green=pal[i*4+1]; palette[i].blue=pal[i*4+2]; } png_set_PLTE(png_ptr, info_ptr, palette,256); } else { png_set_bgr( png_ptr ); png_set_IHDR(png_ptr, info_ptr, width, height, 8, PNG_COLOR_TYPE_RGB, PNG_INTERLACE_NONE, PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT); } png_write_info(png_ptr, info_ptr); for (i=0;i> 1)*pitch); else srcLine=(data+(i >> 0)*pitch); rowPointer=srcLine; switch (bpp) { case 8: if (flags & CAPTURE_FLAG_DBLW) { for (Bitu x=0;x> 2; doubleRow[x*6+1] = doubleRow[x*6+4] = ((pixel& 0x03e0) * 0x21) >> 7; doubleRow[x*6+2] = doubleRow[x*6+5] = ((pixel& 0x7c00) * 0x21) >> 12; } } else { for (Bitu x=0;x> 2; doubleRow[x*3+1] = ((pixel& 0x03e0) * 0x21) >> 7; doubleRow[x*3+2] = ((pixel& 0x7c00) * 0x21) >> 12; } } rowPointer = doubleRow; break; case 16: if (flags & CAPTURE_FLAG_DBLW) { for (Bitu x=0;x> 2; doubleRow[x*6+1] = doubleRow[x*6+4] = ((pixel& 0x07e0) * 0x41) >> 9; doubleRow[x*6+2] = doubleRow[x*6+5] = ((pixel& 0xf800) * 0x21) >> 13; } } else { for (Bitu x=0;x> 2; doubleRow[x*3+1] = ((pixel& 0x07e0) * 0x41) >> 9; doubleRow[x*3+2] = ((pixel& 0xf800) * 0x21) >> 13; } } rowPointer = doubleRow; break; case 32: if (flags & CAPTURE_FLAG_DBLW) { for (Bitu x=0;xSetupCompress( width, height)) goto skip_video; capture.video.bufSize = capture.video.codec->NeededSize(width, height, format); capture.video.buf = malloc( capture.video.bufSize ); if (!capture.video.buf) goto skip_video; capture.video.index = (Bit8u*)malloc( 16*4096 ); if (!capture.video.buf) goto skip_video; capture.video.indexsize = 16*4096; capture.video.indexused = 8; capture.video.width = width; capture.video.height = height; capture.video.bpp = bpp; capture.video.fps = fps; for (i=0;iPrepareCompressFrame( codecFlags, format, (char *)pal, capture.video.buf, capture.video.bufSize)) goto skip_video; for (i=0;i> 1; if (flags & CAPTURE_FLAG_DBLH) srcLine=(data+(i >> 1)*pitch); else srcLine=(data+(i >> 0)*pitch); switch ( bpp) { case 8: for (x=0;x> 1)*pitch); else rowPointer=(data+(i >> 0)*pitch); } capture.video.codec->CompressLines( 1, &rowPointer ); } int written = capture.video.codec->FinishCompressFrame(); if (written < 0) goto skip_video; CAPTURE_AddAviChunk( "00dc", written, capture.video.buf, codecFlags & 1 ? 0x10 : 0x0); capture.video.frames++; // LOG_MSG("Frame %d video %d audio %d",capture.video.frames, written, capture.video.audioused *4 ); if ( capture.video.audioused ) { CAPTURE_AddAviChunk( "01wb", capture.video.audioused * 4, capture.video.audiobuf, 0); capture.video.audiowritten = capture.video.audioused*4; capture.video.audioused = 0; } /* Adds AVI header to the file */ CAPTURE_VideoHeader(); /* Everything went okay, set flag again for next frame */ CaptureState |= CAPTURE_VIDEO; } skip_video: #endif return; } #if (C_SSHOT) static void CAPTURE_ScreenShotEvent(bool pressed) { if (!pressed) return; CaptureState |= CAPTURE_IMAGE; } #endif /* WAV capturing */ static Bit8u wavheader[]={ 'R','I','F','F', 0x0,0x0,0x0,0x0, /* Bit32u Riff Chunk ID / Bit32u riff size */ 'W','A','V','E', 'f','m','t',' ', /* Bit32u Riff Format / Bit32u fmt chunk id */ 0x10,0x0,0x0,0x0, 0x1,0x0,0x2,0x0, /* Bit32u fmt size / Bit16u encoding/ Bit16u channels */ 0x0,0x0,0x0,0x0, 0x0,0x0,0x0,0x0, /* Bit32u freq / Bit32u byterate */ 0x4,0x0,0x10,0x0, 'd','a','t','a', /* Bit16u byte-block / Bit16u bits / Bit16u data chunk id */ 0x0,0x0,0x0,0x0, /* Bit32u data size */ }; void CAPTURE_AddWave(Bit32u freq, Bit32u len, Bit16s * data) { #if (C_SSHOT) if (CaptureState & CAPTURE_VIDEO) { Bitu left = WAVE_BUF - capture.video.audioused; if (left > len) left = len; memcpy( &capture.video.audiobuf[capture.video.audioused], data, left*4); capture.video.audioused += left; capture.video.audiorate = freq; } #endif if (CaptureState & CAPTURE_WAVE) { if (!capture.wave.handle) { capture.wave.handle=OpenCaptureFile("Wave Output",".wav"); if (!capture.wave.handle) { CaptureState &= ~CAPTURE_WAVE; return; } capture.wave.length = 0; capture.wave.used = 0; capture.wave.freq = freq; fwrite(wavheader,1,sizeof(wavheader),capture.wave.handle); } Bit16s * read = data; while (len > 0 ) { Bitu left = WAVE_BUF - capture.wave.used; if (!left) { fwrite(capture.wave.buf,1,4*WAVE_BUF,capture.wave.handle); capture.wave.length += 4*WAVE_BUF; capture.wave.used = 0; left = WAVE_BUF; } if (left > len) left = len; memcpy( &capture.wave.buf[capture.wave.used], read, left*4); capture.wave.used += left; read += left*2; len -= left; } } } static void CAPTURE_WaveEvent(bool pressed) { if (!pressed) return; /* Check for previously opened wave file */ if (capture.wave.handle) { LOG_MSG("Stopped capturing wave output."); /* Write last piece of audio in buffer */ fwrite(capture.wave.buf,1,capture.wave.used*4,capture.wave.handle); capture.wave.length+=capture.wave.used*4; /* Fill in the header with useful information */ host_writed(&wavheader[0x04],capture.wave.length+sizeof(wavheader)-8); host_writed(&wavheader[0x18],capture.wave.freq); host_writed(&wavheader[0x1C],capture.wave.freq*4); host_writed(&wavheader[0x28],capture.wave.length); fseek(capture.wave.handle,0,0); fwrite(wavheader,1,sizeof(wavheader),capture.wave.handle); fclose(capture.wave.handle); capture.wave.handle=0; CaptureState |= CAPTURE_WAVE; } CaptureState ^= CAPTURE_WAVE; } /* MIDI capturing */ static Bit8u midi_header[]={ 'M','T','h','d', /* Bit32u, Header Chunk */ 0x0,0x0,0x0,0x6, /* Bit32u, Chunk Length */ 0x0,0x0, /* Bit16u, Format, 0=single track */ 0x0,0x1, /* Bit16u, Track Count, 1 track */ 0x01,0xf4, /* Bit16u, Timing, 2 beats/second with 500 frames */ 'M','T','r','k', /* Bit32u, Track Chunk */ 0x0,0x0,0x0,0x0, /* Bit32u, Chunk Length */ //Track data }; static void RawMidiAdd(Bit8u data) { capture.midi.buffer[capture.midi.used++]=data; if (capture.midi.used >= MIDI_BUF ) { capture.midi.done += capture.midi.used; fwrite(capture.midi.buffer,1,MIDI_BUF,capture.midi.handle); capture.midi.used = 0; } } static void RawMidiAddNumber(Bit32u val) { if (val & 0xfe00000) RawMidiAdd((Bit8u)(0x80|((val >> 21) & 0x7f))); if (val & 0xfffc000) RawMidiAdd((Bit8u)(0x80|((val >> 14) & 0x7f))); if (val & 0xfffff80) RawMidiAdd((Bit8u)(0x80|((val >> 7) & 0x7f))); RawMidiAdd((Bit8u)(val & 0x7f)); } void CAPTURE_AddMidi(bool sysex, Bitu len, Bit8u * data) { if (!capture.midi.handle) { capture.midi.handle=OpenCaptureFile("Raw Midi",".mid"); if (!capture.midi.handle) { return; } fwrite(midi_header,1,sizeof(midi_header),capture.midi.handle); capture.midi.last=PIC_Ticks; } Bit32u delta=PIC_Ticks-capture.midi.last; capture.midi.last=PIC_Ticks; RawMidiAddNumber(delta); if (sysex) { RawMidiAdd( 0xf0 ); RawMidiAddNumber( len ); } for (Bitu i=0;i> 24); size[1]=(Bit8u)(capture.midi.done >> 16); size[2]=(Bit8u)(capture.midi.done >> 8); size[3]=(Bit8u)(capture.midi.done >> 0); fwrite(&size,1,4,capture.midi.handle); fclose(capture.midi.handle); capture.midi.handle=0; CaptureState &= ~CAPTURE_MIDI; return; } CaptureState ^= CAPTURE_MIDI; if (CaptureState & CAPTURE_MIDI) { LOG_MSG("Preparing for raw midi capture, will start with first data."); capture.midi.used=0; capture.midi.done=0; capture.midi.handle=0; } else { LOG_MSG("Stopped capturing raw midi before any data arrived."); } } class HARDWARE:public Module_base{ public: HARDWARE(Section* configuration):Module_base(configuration){ Section_prop * section = static_cast(configuration); Prop_path* proppath= section->Get_path("captures"); capturedir = proppath->realpath; CaptureState = 0; MAPPER_AddHandler(CAPTURE_WaveEvent,MK_f6,MMOD1,"recwave","Rec Wave"); MAPPER_AddHandler(CAPTURE_MidiEvent,MK_f8,MMOD1|MMOD2,"caprawmidi","Cap MIDI"); #if (C_SSHOT) MAPPER_AddHandler(CAPTURE_ScreenShotEvent,MK_f5,MMOD1,"scrshot","Screenshot"); MAPPER_AddHandler(CAPTURE_VideoEvent,MK_f5,MMOD1|MMOD2,"video","Video"); #endif } ~HARDWARE(){ if (capture.wave.handle) CAPTURE_WaveEvent(true); if (capture.midi.handle) CAPTURE_MidiEvent(true); } }; static HARDWARE* test; void HARDWARE_Destroy(Section * sec) { delete test; } void HARDWARE_Init(Section * sec) { test = new HARDWARE(sec); sec->AddDestroyFunction(&HARDWARE_Destroy,true); }