/* @(#)cdrecord.h 1.205 13/05/28 Copyright 1995-2013 J. Schilling */ /* * Definitions for cdrecord * * Copyright (c) 1995-2013 J. Schilling */ /* * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * See the file CDDL.Schily.txt in this distribution for details. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file CDDL.Schily.txt from this distribution. */ /* * Make sure it is there. We need it for off_t. */ #ifndef _SCHILY_TYPES_H #include #endif #ifndef _SCHILY_UTYPES_H #include #endif /* * Defines for command line option flags */ #define F_DUMMY 0x00000001L /* Do dummy (simulation) writes */ #define F_TOC 0x00000002L /* Get TOC */ #define F_EJECT 0x00000004L /* Eject disk after doing the work */ #define F_LOAD 0x00000008L /* Load disk only */ #define F_MULTI 0x00000010L /* Create linkable TOC/multi-session */ #define F_MSINFO 0x00000020L /* Get multi-session info */ #define F_FIX 0x00000040L /* Fixate disk only */ #define F_NOFIX 0x00000080L /* Do not fixate disk */ #define F_VERSION 0x00000100L /* Print version info */ #define F_CHECKDRIVE 0x00000200L /* Check for driver */ #define F_INQUIRY 0x00000400L /* Do inquiry */ #define F_PRCAP 0x00000800L /* Print capabilities */ #define F_SCANBUS 0x00001000L /* Scan SCSI Bus */ #define F_RESET 0x00002000L /* Reset SCSI Bus */ #define F_BLANK 0x00004000L /* Blank CD-RW */ #define F_PRATIP 0x00008000L /* Print ATIP info */ #define F_PRDINFO 0x00010000L /* Print disk info (XXX not yet used) */ #define F_IGNSIZE 0x00020000L /* Ignore disk size */ #define F_SAO 0x00040000L /* Session at once */ #define F_RAW 0x00080000L /* Raw mode */ #define F_WRITE 0x00100000L /* Disk is going to be written */ #define F_FORCE 0x00200000L /* Force things (e.g. blank on dead disk) */ #define F_WAITI 0x00400000L /* Wait until data is available on stdin */ #define F_OVERBURN 0x00800000L /* Allow oveburning */ #define F_CLONE 0x01000000L /* Do clone writing */ #define F_STDIN 0x02000000L /* We are using stdin as CD data */ #define F_IMMED 0x04000000L /* Try tu use IMMED SCSI flag if possible */ #define F_DLCK 0x08000000L /* Load disk and lock door */ #define F_SETDROPTS 0x10000000L /* Set driver opts and exit */ #define F_FORMAT 0x20000000L /* Format media */ #define F_ABORT 0x40000000L /* Send abort sequence to drive */ #ifdef PROTOTYPES #define F_MEDIAINFO 0x80000000UL /* Print media info */ #else #define F_MEDIAINFO 0x80000000L /* Print media info */ #endif /* * Defines for command extended line option flags2 */ #define F2_XX 0x01 /* Not yet */ #ifdef min #undef min #endif #define min(a, b) ((a) < (b) ? (a):(b)) #ifdef max #undef max #endif #define max(a, b) ((a) < (b) ? (b):(a)) #undef roundup #define roundup(x, y) ((((x)+((y)-1))/(y))*(y)) /* * NOTICE: You should not make CDR_BUF_SIZE more than * the buffer size of the CD-Recorder. * * The Philips CDD 521 is the recorder with the smallest buffer. * It only has 256kB of buffer RAM. * * WARNING: Philips CDD 521 dies if CDR_BUF_SIZE is to big. * If you like to support the CDD 521 keep the old buffer * size at 63kB. */ /*#define CDR_BUF_SIZE (126*1024)*/ #define CDR_BUF_SIZE (63*1024) #define CDR_OLD_BUF_SIZE (63*1024) #define CDR_MAX_BUF_SIZE (256*1024) /* * Never set MIN_GRACE_TIME < 3 seconds. We need to give * the volume management a chance to settle before we * start writing. */ #ifndef MIN_GRACE_TIME #define MIN_GRACE_TIME 3 /* 3 seconds */ #endif #ifndef GRACE_TIME #define GRACE_TIME 9 /* 9 seconds */ #endif /* * Some sector sizes used for reading/writing ... */ #define DATA_SEC_SIZE 2048 /* 2048 bytes */ #define MODE2_SEC_SIZE 2336 /* 2336 bytes */ #define AUDIO_SEC_SIZE 2352 /* 2352 bytes */ #define RAW16_SEC_SIZE (2352+16) /* 2368 bytes */ #define RAW96_SEC_SIZE (2352+96) /* 2448 bytes */ #define MAX_TRACK 99 /* Red Book track limit */ #define PAD_SECS 15 /* NOTE: pad must be less than BUF_SIZE */ #define PAD_SIZE (PAD_SECS * DATA_SEC_SIZE) /* * FIFO size must be at least 2x CDR_MAX_BUF_SIZE */ #define DEFAULT_FIFOSIZE (4L*1024L*1024L) #if !defined(HAVE_LARGEFILES) && SIZEOF_LLONG > SIZEOF_LONG typedef Llong tsize_t; #else typedef off_t tsize_t; #endif #ifdef nono typedef struct tindex { int dummy; /* Not yet implemented */ } tindex_t; #endif typedef struct ofile { struct ofile *next; /* Next open file */ int f; /* Open file */ char *filename; /* File name */ int refcnt; /* open reference count */ } ofile_t; typedef struct track { void *xfp; /* Open file for this track from xopen()*/ char *filename; /* File name for this track */ tsize_t itracksize; /* Size of track bytes (-1 == until EOF)*/ /* This is in units of isecsize */ tsize_t tracksize; /* Size of track bytes (-1 == until EOF)*/ /* This is in units of secsize */ long trackstart; /* Start sector # of this track */ long tracksecs; /* Size of this track (sectors) */ long padsecs; /* Pad size for this track (sectors) */ long pregapsize; /* Pre-gap size for this track (sectors)*/ long index0start; /* Index 0 start within this tr(sectors)*/ int isecsize; /* Read input sector size for this track*/ int secsize; /* Sector size for this track (bytes) */ int secspt; /* # of sectors to copy for one transfer*/ int pktsize; /* # of blocks per write packet */ Uchar dataoff; /* offset of user data in raw sector */ Uchar tracks; /* Number of tracks on this disk */ Uchar track; /* Track # as offset in track[] array */ Uchar trackno; /* Track # on disk for this track */ Uchar tracktype; /* Track type (toc type) */ Uchar dbtype; /* Data block type for this track */ int sectype; /* Sector type */ int flags; /* Flags (see below) */ int nindex; /* Number of indices for track */ long *tindex; /* Track index descriptor */ char *isrc; /* ISRC code for this track / disk MCN */ void *text; /* Opaque CD-Text data (txtptr_t *) */ } track_t; #define track_base(tp) ((tp) - (tp)->track) /* * Defines for tp->flags */ #define TI_AUDIO 0x00001 /* File is an audio track */ #define TI_PREEMP 0x00002 /* Audio track recorded w/preemphasis */ #define TI_MIX 0x00004 /* This is a mixed mode track */ #define TI_RAW 0x00008 /* Write this track in raw mode */ #define TI_PAD 0x00010 /* Pad data track */ #define TI_SWAB 0x00020 /* Swab audio data */ #define TI_ISOSIZE 0x00040 /* Use iso size for track */ #define TI_NOAUHDR 0x00080 /* Don't look for audio header */ #define TI_FIRST 0x00100 /* This is the first track */ #define TI_LAST 0x00200 /* This is the last track */ #define TI_PACKET 0x00400 /* Fixed- or variable-packet track */ #define TI_NOCLOSE 0x00800 /* Don't close the track after writing */ #define TI_TAO 0x01000 /* This track is written in TAO mode */ #define TI_PREGAP 0x02000 /* Prev. track incl. pregap of this tr. */ #define TI_SCMS 0x04000 /* Force to follow the SCMS rules */ #define TI_COPY 0x08000 /* Allow digital copy */ #define TI_SHORT_TRACK 0x10000 /* Ignore min 4 second Red Book std. */ #define TI_RAW16 0x20000 /* This track uses 16 bytes subch. */ #define TI_RAW96R 0x40000 /* This track uses 96 bytes RAW subch. */ #define TI_CLONE 0x80000 /* Special clone treatment needed */ #define TI_TEXT 0x100000 /* This track holds CD-Text information */ #define TI_NOCD 0x200000 /* We are not writing a CD track */ #define TI_SAO 0x400000 /* This track is written in SAO mode */ #define TI_USEINFO 0x800000 /* Use information from *.inf files */ #define TI_QUADRO 0x1000000 /* Four Channel Audio Data */ #define TI_STDIN 0x2000000 /* Track read is from stdin */ #define TI_HIDDEN 0x4000000 /* Track is hidden / has hidden Tr. */ #define is_audio(tp) (((tp)->flags & TI_AUDIO) != 0) #define is_preemp(tp) (((tp)->flags & TI_PREEMP) != 0) #define is_pad(tp) (((tp)->flags & TI_PAD) != 0) #define is_swab(tp) (((tp)->flags & TI_SWAB) != 0) #define is_first(tp) (((tp)->flags & TI_FIRST) != 0) #define is_last(tp) (((tp)->flags & TI_LAST) != 0) #define is_packet(tp) (((tp)->flags & TI_PACKET) != 0) #define is_noclose(tp) (((tp)->flags & TI_NOCLOSE) != 0) #define is_tao(tp) (((tp)->flags & TI_TAO) != 0) #define is_sao(tp) (((tp)->flags & TI_SAO) != 0) #define is_raw(tp) (((tp)->flags & TI_RAW) != 0) #define is_raw16(tp) (((tp)->flags & TI_RAW16) != 0) #define is_raw96(tp) (((tp)->flags & (TI_RAW|TI_RAW16)) == TI_RAW) #define is_raw96p(tp) (((tp)->flags & (TI_RAW|TI_RAW16|TI_RAW96R)) == TI_RAW) #define is_raw96r(tp) (((tp)->flags & (TI_RAW|TI_RAW16|TI_RAW96R)) == (TI_RAW|TI_RAW96R)) #define is_pregap(tp) (((tp)->flags & TI_PREGAP) != 0) #define is_scms(tp) (((tp)->flags & TI_SCMS) != 0) #define is_copy(tp) (((tp)->flags & TI_COPY) != 0) #define is_shorttrk(tp) (((tp)->flags & TI_SHORT_TRACK) != 0) #define is_clone(tp) (((tp)->flags & TI_CLONE) != 0) #define is_text(tp) (((tp)->flags & TI_TEXT) != 0) #define is_quadro(tp) (((tp)->flags & TI_QUADRO) != 0) #define is_hidden(tp) (((tp)->flags & TI_HIDDEN) != 0) /* * Defines for toc type / track type */ #define TOC_DA 0 /* CD-DA */ #define TOC_ROM 1 /* CD-ROM */ #define TOC_XA1 2 /* CD_ROM XA with first track in mode 1 */ #define TOC_XA2 3 /* CD_ROM XA with first track in mode 2 */ #define TOC_CDI 4 /* CDI */ #define TOC_MASK 7 /* Mask needed for toctname[] */ /* * Additional flags in toc type / trackp->tracktype * XXX TOCF_DUMMY istr schon in dp->cdr_cmdflags & F_DUMMY * XXX TOCF_MULTI istr schon in dp->cdr_cmdflags & F_MULTI */ #define TOCF_DUMMY 0x10 /* Write in dummy (simulation) mode */ #define TOCF_MULTI 0x20 /* Multisession (Open Next Programarea) */ #define TOCF_MASK 0xF0 /* All possible flags in tracktype */ extern char *toc2name[]; /* Convert toc type to name */ extern int toc2sess[]; /* Convert toc type to session format */ /* * Defines for sector type * * Mode is 2 bits * Aud is 1 bit * * Sector is: aud << 2 | mode */ #define ST_ROM_MODE1 1 /* CD-ROM in mode 1 (vanilla cdrom) */ #define ST_ROM_MODE2 2 /* CD-ROM in mode 2 */ #define ST_AUDIO_NOPRE 4 /* CD-DA stereo without preemphasis */ #define ST_AUDIO_PRE 5 /* CD-DA stereo with preemphasis */ #define ST_PREEMPMASK 0x01 /* Mask for preemphasis bit */ #define ST_AUDIOMASK 0x04 /* Mask for audio bit */ #define ST_MODEMASK 0x03 /* Mask for mode bits in sector type */ #define ST_MASK 0x07 /* Mask needed for sectname[] */ /* * There are 6 different generic basic sector types. */ #define ST_MODE_AUDIO 0x00 /* Generic Audio mode */ #define ST_MODE_0 0x10 /* Generic Zero mode */ #define ST_MODE_1 0x20 /* Generic CD-ROM mode (ISO/IEC 10149) */ #define ST_MODE_2 0x30 /* Generic Mode 2 (ISO/IEC 10149) */ #define ST_MODE_2_FORM_1 0x40 /* Generic Mode 2 form 1 */ #define ST_MODE_2_FORM_2 0x50 /* Generic Mode 2 form 2 */ #define ST_MODE_2_MIXED 0x60 /* Generic Mode 2 mixed form (1/2) */ #define ST_MODE_MASK 0x70 /* Mask needed to get generic sectype */ #define ST_MODE_RAW 0x08 /* Do not touch EDC & subchannels */ #define ST_NOSCRAMBLE 0x80 /* Do not srcamble sectors */ #define SECT_AUDIO (ST_AUDIO_NOPRE | ST_MODE_AUDIO) #define SECT_AUDIO_NOPRE (ST_AUDIO_NOPRE | ST_MODE_AUDIO) #define SECT_AUDIO_PRE (ST_AUDIO_PRE | ST_MODE_AUDIO) #define SECT_MODE_0 (ST_ROM_MODE1 | ST_MODE_0) #define SECT_ROM (ST_ROM_MODE1 | ST_MODE_1) #define SECT_MODE_2 (ST_ROM_MODE2 | ST_MODE_2) #define SECT_MODE_2_F1 (ST_ROM_MODE2 | ST_MODE_2_FORM_1) #define SECT_MODE_2_F2 (ST_ROM_MODE2 | ST_MODE_2_FORM_2) #define SECT_MODE_2_MIX (ST_ROM_MODE2 | ST_MODE_2_MIXED) extern char *st2name[]; /* Convert sector type to name */ extern int st2mode[]; /* Convert sector type to control nibble*/ /* * Control nibble bits: * * 0 with preemphasis (audio) / incremental (data) * 1 digital copy permitted * 2 data (not audio) track * 3 4 channels (not 2) */ #define TM_PREEM 0x1 /* Audio track with preemphasis */ #define TM_INCREMENTAL 0x1 /* Incremental data track */ #define TM_ALLOW_COPY 0x2 /* Digital copy permitted */ #define TM_DATA 0x4 /* This is a data track */ #define TM_QUADRO 0x8 /* Four channel audio */ /* * Adr nibble: */ #define ADR_NONE 0 /* Sub-Q mode info not supplied */ #define ADR_POS 1 /* Sub-Q encodes position data */ #define ADR_MCN 2 /* Sub-Q encodes Media Catalog Number */ #define ADR_ISRC 3 /* Sub-Q encodes ISRC */ /* * Defines for write type (from SCSI-3/mmc) */ #define WT_PACKET 0x0 /* Packet writing */ #define WT_TAO 0x1 /* Track at once */ #define WT_SAO 0x2 /* Session at once */ #define WT_RAW 0x3 /* Raw */ #define WT_LAYER_JUMP 0x4 /* DVD-R/DL Layer jump */ #define WT_RES_5 0x5 /* Reserved */ #define WT_RES_6 0x6 /* Reserved */ #define WT_RES_7 0x7 /* Reserved */ #define WT_RES_8 0x8 /* Reserved */ #define WT_RES_9 0x9 /* Reserved */ #define WT_RES_A 0xA /* Reserved */ #define WT_RES_B 0xB /* Reserved */ #define WT_RES_C 0xC /* Reserved */ #define WT_RES_D 0xD /* Reserved */ #define WT_RES_E 0xE /* Reserved */ #define WT_RES_F 0xF /* Reserved */ /* * Data block layout: * * - Sync pattern 12 Bytes: 0x00 0xFF 0xFF ... 0xFF 0xFF 0x00 * - Block header 4 Bytes: | minute | second | frame | mode | * Mode byte: * Bits 7, 6, 5 Run-in/Run-out/Link * Bits 4, 3, 2 Reserved * Bits 1, 0 Mode * - Rest of sector see below. * * Mode 0 Format: * 0 12 Bytes Sync header * 12 4 Bytes Block header with Data mode == 0 * 16 2336 Bytes of zero data * * Mode 1 Format: * 0 12 Bytes Sync header * 12 4 Bytes Block header with Data mode == 1 * 16 2048 Bytes of user data * 2064 4 Bytes CRC for Bytes 0-2063 * 2068 8 Bytes Zero fill * 2076 172 Bytes P parity symbols * 2248 104 Bytes Q parity symbols * * Mode 2 Format (formless): * 0 12 Bytes Sync header * 12 4 Bytes Block header with Data mode == 2 * 16 2336 Bytes of user data * * Mode 2 form 1 Format: * 0 12 Bytes Sync header * 12 4 Bytes Block header with Data mode == 2 * 16 4 Bytes subheader first copy * 20 4 Bytes subheader second copy * 24 2048 Bytes of user data * 2072 4 Bytes CRC for Bytes 16-2071 * 2076 172 Bytes P parity symbols * 2248 104 Bytes Q parity symbols * * Mode 2 form 2 Format: * 0 12 Bytes Sync header * 12 4 Bytes Block header with Data mode == 2 * 16 4 Bytes subheader first copy * 20 4 Bytes subheader second copy * 24 2324 Bytes of user data * 2348 4 Bytes Optional CRC for Bytes 16-2347 */ /* * Mode Byte definitions (the 4th Byte in the Block header) */ #define SH_MODE_DATA 0x00 /* User Data Block */ #define SH_MODE_RI4 0x20 /* Fourth run in Block */ #define SH_MODE_RI3 0x40 /* Third run in Block */ #define SH_MODE_RI2 0x60 /* Second run in Block */ #define SH_MODE_RI1 0x80 /* First run in Block */ #define SH_MODE_LINK 0xA0 /* Link Block */ #define SH_MODE_RO2 0xC0 /* Second run out Block */ #define SH_MODE_RO1 0xE0 /* First run out Block */ #define SH_MODE_M0 0x00 /* Mode 0 Data */ #define SH_MODE_M1 0x01 /* Mode 1 Data */ #define SH_MODE_M2 0x02 /* Mode 2 Data */ #define SH_MODE_MR 0x03 /* Reserved */ /* * Defines for data block type (from SCSI-3/mmc) * * Mandatory are only: * DB_ROM_MODE1 (8) Mode 1 (ISO/IEC 10149) * DB_XA_MODE2 (10) Mode 2-F1 (CD-ROM XA form 1) * DB_XA_MODE2_MIX (13) Mode 2-MIX (CD-ROM XA 1/2+subhdr) */ #define DB_RAW 0 /* 2352 bytes of raw data */ #define DB_RAW_PQ 1 /* 2368 bytes (raw data + P/Q Subchannel) */ #define DB_RAW_PW 2 /* 2448 bytes (raw data + P-W Subchannel) */ #define DB_RAW_PW_R 3 /* 2448 bytes (raw data + P-W raw Subchannel)*/ #define DB_RES_4 4 /* - Reserved */ #define DB_RES_5 5 /* - Reserved */ #define DB_RES_6 6 /* - Reserved */ #define DB_VU_7 7 /* - Vendor specific */ #define DB_ROM_MODE1 8 /* 2048 bytes Mode 1 (ISO/IEC 10149) */ #define DB_ROM_MODE2 9 /* 2336 bytes Mode 2 (ISO/IEC 10149) */ #define DB_XA_MODE2 10 /* 2048 bytes Mode 2 (CD-ROM XA form 1) */ #define DB_XA_MODE2_F1 11 /* 2056 bytes Mode 2 (CD-ROM XA form 1) */ #define DB_XA_MODE2_F2 12 /* 2324 bytes Mode 2 (CD-ROM XA form 2) */ #define DB_XA_MODE2_MIX 13 /* 2332 bytes Mode 2 (CD-ROM XA 1/2+subhdr) */ #define DB_RES_14 14 /* - Reserved */ #define DB_VU_15 15 /* - Vendor specific */ extern char *db2name[]; /* Convert data block type to name */ /* * Defines for multi session type (from SCSI-3/mmc) */ #define MS_NONE 0 /* No B0 pointer. Next session not allowed*/ #define MS_FINAL 1 /* B0 = FF:FF:FF. Next session not allowed*/ #define MS_RES 2 /* Reserved */ #define MS_MULTI 3 /* B0 = Next PA. Next session allowed */ /* * Defines for session format (from SCSI-3/mmc) */ #define SES_DA_ROM 0x00 /* CD-DA or CD-ROM disk */ #define SES_CDI 0x10 /* CD-I disk */ #define SES_XA 0x20 /* CD-ROM XA disk */ #define SES_UNDEF 0xFF /* Undefined disk type (read disk info) */ /* * Defines for blanking of CD-RW discs (from SCSI-3/mmc) */ #define BLANK_DISC 0x00 /* Erase the entire disc */ #define BLANK_MINIMAL 0x01 /* Erase the PMA, 1st session TOC, pregap */ #define BLANK_TRACK 0x02 /* Erase an incomplete track */ #define BLANK_UNRESERVE 0x03 /* Unreserve a track */ #define BLANK_TAIL 0x04 /* Erase the tail of a track */ #define BLANK_UNCLOSE 0x05 /* Unclose the last session */ #define BLANK_SESSION 0x06 /* Erase the last session */ /* * Useful definitions for audio tracks */ #define msample (44100 * 2) /* one 16bit audio sample */ #define ssample (msample * 2) /* one stereo sample */ #define samples(v) ((v) / ssample) /* # of stereo samples */ #define hsamples(v) ((v) / (ssample/100)) /* 100* # of stereo samples/s*/ #define fsamples(v) ((v) / (ssample/75)) /* 75* # of stereo samples/s */ #define minutes(v) ((int)(samples(v) / 60)) #define seconds(v) ((int)(samples(v) % 60)) #define hseconds(v) ((int)(hsamples(v) % 100)) #define frames(v) ((int)(fsamples(v) % 75)) /* * sector based macros */ #define Sminutes(s) ((int)((s) / (60*75))) #define Sseconds(s) ((int)((s) / 75)) #define Shseconds(s) ((int)(((s) % 75)*100)/75) #define Sframes(s) ((int)((s) % 75)) typedef struct msf { char msf_min; char msf_sec; char msf_frame; } msf_t; /* * Definitions for read TOC/PMA/ATIP command */ #define FMT_TOC 0 #define FMT_SINFO 1 #define FMT_FULLTOC 2 #define FMT_PMA 3 #define FMT_ATIP 4 #define FMT_CDTEXT 5 /* * Definitions for read disk information "recording flags" * used in UInt16_t "ds_cdrflags". */ #define RF_WRITE 0x0001 /* Disk is going to be written */ #define RF_BLANK 0x0002 /* Disk is going to be erased */ #define RF_PRATIP 0x0004 /* Print ATIP info */ #define RF_LEADIN 0x0008 /* Lead-in has been "manually" written */ #define RF_BURNFREE 0x0010 /* BUFFER underrun free recording */ #define RF_VARIREC 0x0020 /* Plextor VariRec */ #define RF_AUDIOMASTER 0x0040 /* Yamaha AudioMaster */ #define RF_FORCESPEED 0x0080 /* WriteSpeed forced high */ #define RF_DID_STAT 0x0100 /* Already did call cdrstats() */ #define RF_DID_CDRSTAT 0x0200 /* Already did call (*dp->cdr_stats)() */ #define RF_WR_WAIT 0x0400 /* Wait during writing to free bus */ #define RF_SINGLESESS 0x0800 /* Plextor single sess. mode */ #define RF_HIDE_CDR 0x1000 /* Plextor hide CDR features */ #define RF_SPEEDREAD 0x2000 /* Plextor SpeedReed */ #define RF_GIGAREC 0x4000 /* Plextor GigaRec */ /* * Definitions for read disk information "disk status" * used in "ds_diskstat". */ #define DS_EMPTY 0 /* Empty disk */ #define DS_APPENDABLE 1 /* Incomplete disk (appendable) */ #define DS_COMPLETE 2 /* Complete disk (closed/no B0 pointer) */ #define DS_RESERVED 3 /* Reserved */ /* * Definitions for read disk information "session status" * used in "ds_sessstat". */ #define SS_EMPTY 0 /* Empty session */ #define SS_APPENDABLE 1 /* Incomplete session */ #define SS_RESERVED 2 /* Reserved */ #define SS_COMPLETE 3 /* Complete session (needs DS_COMPLETE) */ /* * Definitions for disk_status write mode * used in "ds_wrmode". */ #define WM_NONE 0 /* No write mode selected */ #define WM_BLANK 1 /* Blanking mode */ #define WM_FORMAT 2 /* Formatting */ #define WM_PACKET 4 /* Packet writing */ #define WM_TAO 8 /* Track at Once */ #define WM_SAO 12 /* Session at Once w/ cooked sectors */ #define WM_SAO_RAW16 13 /* Session at Once RAW+16 byte sectors */ #define WM_SAO_RAW96P 14 /* Session at Once RAW+96P byte sectors */ #define WM_SAO_RAW96R 15 /* Session at Once RAW+96R byte sectors */ #define WM_RAW 16 /* RAW with cooked sectors is impossible*/ #define WM_RAW_RAW16 17 /* RAW with RAW+16 byte sectors */ #define WM_RAW_RAW96P 18 /* RAW with RAW+96P byte sectors */ #define WM_RAW_RAW96R 19 /* RAW with RAW+96R byte sectors */ #define wm_base(wm) ((wm)/4*4) /* The basic write mode for this mode */ /* * Definitions for disk_status flags * used in UInt16_t "ds_flags". */ #define DSF_DID_V 0x0001 /* Disk id valid */ #define DSF_DBC_V 0x0002 /* Disk bar code valid */ #define DSF_URU 0x0004 /* Disk is for unrestricted use */ #define DSF_ERA 0x0008 /* Disk is erasable */ #define DSF_HIGHSP_ERA 0x0010 /* Disk is high speed erasable */ #define DSF_ULTRASP_ERA 0x0020 /* Disk is ultra speed erasable */ #define DSF_ULTRASPP_ERA 0x0040 /* Disk is ultra speed+ erasable */ #define DSF_NOCD 0x0080 /* Disk is not a CD */ #define DSF_DVD 0x0100 /* Disk is a DVD */ #define DSF_DVD_PLUS_R 0x0200 /* Disk is a DVD+R */ #define DSF_DVD_PLUS_RW 0x0400 /* Disk is a DVD+RW */ #define DSF_NEED_FORMAT 0x0800 /* Disk needs to be formatted */ #define DSF_BD 0x1000 /* Disk is a BD */ #define DSF_BD_RE 0x2000 /* Disk is a BD-RE */ /* * Definitions for disk_status disk type * used in "ds_type". */ #define DST_UNKNOWN 0 #define DST_CD_ROM 0x08 #define DST_CD_R 0x09 #define DST_CD_RW 0x0A #define DST_DVD_ROM 0x10 #define DST_DVD_R 0x11 #define DST_DVD_RAM 0x12 #define DST_DVD_RW 0x13 #define DST_DVD_RW_SEQ 0x14 #define DST_DVD_R_DL 0x15 #define DST_DVD_R_DL_LJ 0x16 #define DST_DVD_PLUS_RW 0x1A #define DST_DVD_PLUS_R 0x1B #define DST_DVD_PLUS_R_DL 0x2B #define DST_BD_ROM 0x40 #define DST_BD_R_SEQ 0x41 #define DST_BD_R 0x42 #define DST_BD_RE 0x43 typedef struct disk_status dstat_t; struct disk_status { track_t *ds_trackp; /* Pointer to track structure */ UInt32_t ds_diskid; /* Disk identification */ UInt16_t ds_cdrflags; /* Recording flags from cdrecord*/ UInt16_t ds_flags; /* Disk_status flags */ Uchar ds_wrmode; /* Selected write mode */ Uchar ds_type; /* Abstract disk type */ Uchar ds_disktype; /* Disk type (from TOC/PMA) */ Uchar ds_diskstat; /* Disk status (MMC) */ Uchar ds_sessstat; /* Status of last sesion (MMC) */ Uchar ds_trfirst; /* first track # */ Uchar ds_trlast; /* last track # */ Uchar ds_trfirst_ls; /* first track # in last session*/ Uchar ds_barcode[8]; /* Disk bar code */ Int32_t ds_first_leadin; /* Start of first lead in (ATIP)*/ Int32_t ds_last_leadout; /* Start of last lead out (ATIP)*/ Int32_t ds_curr_leadin; /* Start of next lead in */ Int32_t ds_curr_leadout; /* Start of next lead out */ Int32_t ds_maxblocks; /* # of official blocks on disk */ Int32_t ds_maxrblocks; /* # real blocks on disk */ Int32_t ds_fwa; /* first writable addr */ Int32_t ds_startsec; /* Actual start sector */ Int32_t ds_endsec; /* Actual end sector */ Int32_t ds_buflow; /* # of times drive buffer empty*/ UInt16_t ds_minbuf; /* Minimum drive bufer fill rt. */ UInt16_t ds_at_min_speed; /* The minimal ATIP write speed */ UInt16_t ds_at_max_speed; /* The maximal ATIP write speed */ UInt16_t ds_dr_cur_rspeed; /* The drive's cur read speed */ UInt16_t ds_dr_max_rspeed; /* The drive's max read speed */ UInt16_t ds_dr_cur_wspeed; /* The drive's cur write speed */ UInt16_t ds_dr_max_wspeed; /* The drive's max write speed */ UInt16_t ds_wspeed; /* The selected/drive wr. speed */ Int32_t ds_layer_break; /* Start of layer break */ }; /* * First approach of a CDR device abstraction layer. * This interface will change as long as I did not find the * optimum that fits for all devices. * * Called with pointer to whole track array: * cdr_send_cue() * cdr_write_leadin() * cdr_open_session() * cdr_fixate() * * Called with (track_t *) 0 or pointer to current track: * cdr_next_wr_address() * * Called with pointer to current track: * cdr_open_track() * cdr_close_track() * * Calling sequence: * cdr_identify() May modify driver * Here, the cdr_t will be allocated and * copied to a new writable area. * cdr_attach() Get drive properties * cdr_buffer_cap() * cdr_getdisktype() GET ATIP * cdr_init() set TAO for -msinfo * cdr_check_session XXX ???? * cdr_opt1() set early options * cdr_set_speed_dummy(scgp, dp, &speed) * <--- Grace time processing goes here * { do_opc(); cdr_blank() } * cdr_opt2() set late options * cdr_open_session() set up params (no wrt.) * do_opc() * cdr_write_leadin() start writing * LOOP { * cdr_open_track() * cdr_next_wr_address() only TAO / Packet * write_track_data() * cdr_close_track() * } * write_leadout() XXX should go -> driver! * cdr_fixate() * cdr_stats() */ /*--------------------------------------------------------------------------*/ typedef struct cdr_cmd cdr_t; #ifdef _SCG_SCSITRANSP_H struct cdr_cmd { int cdr_dev; /* Numerical device type */ UInt32_t cdr_cmdflags; /* Command line options */ UInt32_t cdr_cmdflags2; /* More cmdline options */ UInt32_t cdr_flags; /* Drive related flags */ UInt32_t cdr_flags2; /* More Drive flags */ UInt8_t cdr_cdrw_support; /* CD-RW write media types */ UInt8_t cdr_wrmodedef; /* Default write mode */ UInt16_t cdr_speeddef; /* Default write speed */ UInt16_t cdr_speedmax; /* Max. write speed */ char *cdr_drname; /* Driver ID string */ char *cdr_drtext; /* Driver ID text */ struct cd_mode_page_2A *cdr_cdcap; dstat_t *cdr_dstat; #ifdef _SCG_SCSIREG_H cdr_t *(*cdr_identify) __PR((SCSI *scgp, cdr_t *, struct scsi_inquiry *)); /* identify drive */ #else cdr_t *(*cdr_identify) __PR((SCSI *scgp, cdr_t *, void *)); /* identify drive */ #endif int (*cdr_attach) __PR((SCSI *scgp, cdr_t *)); /* init error decoding etc*/ int (*cdr_init) __PR((SCSI *scgp, cdr_t *)); /* init drive to useful deflts */ int (*cdr_getdisktype) __PR((SCSI *scgp, cdr_t *)); /* get disk type */ int (*cdr_prdiskstatus) __PR((SCSI *scgp, cdr_t *)); /* print disk status */ int (*cdr_load) __PR((SCSI *scgp, cdr_t *)); /* load disk */ int (*cdr_unload) __PR((SCSI *scgp, cdr_t *)); /* unload disk */ int (*cdr_buffer_cap) __PR((SCSI *scgp, long *sizep, long *freep)); /* read buffer capacity */ int (*cdr_check_recovery) __PR((SCSI *scgp, cdr_t *)); /* check if recover is needed */ int (*cdr_recover) __PR((SCSI *scgp, cdr_t *, int track)); /* do recover */ int (*cdr_set_speed_dummy) __PR((SCSI *scgp, cdr_t *, int *speedp)); /* set recording speed & dummy write */ int (*cdr_set_secsize) __PR((SCSI *scgp, int secsize)); /* set sector size */ int (*cdr_next_wr_address) __PR((SCSI *scgp, track_t *trackp, long *ap)); /* get next writable addr. */ int (*cdr_reserve_track) __PR((SCSI *scgp, Ulong len)); /* reserve track for future use */ int (*cdr_write_trackdata) __PR((SCSI *scgp, caddr_t buf, long daddr, long bytecnt, int seccnt, BOOL islast)); int (*cdr_gen_cue) __PR((track_t *trackp, void *cuep, BOOL needgap)); /* generate cue sheet */ int (*cdr_send_cue) __PR((SCSI *scgp, cdr_t *, track_t *trackp)); /* send cue sheet */ int (*cdr_write_leadin) __PR((SCSI *scgp, cdr_t *, track_t *trackp)); /* write leadin */ int (*cdr_open_track) __PR((SCSI *scgp, cdr_t *, track_t *trackp)); /* open new track */ int (*cdr_close_track) __PR((SCSI *scgp, cdr_t *, track_t *trackp)); /* close written track */ int (*cdr_open_session) __PR((SCSI *scgp, cdr_t *, track_t *trackp)); /* open new session */ int (*cdr_close_session) __PR((SCSI *scgp, cdr_t *)); /* really needed ??? */ int (*cdr_abort_session) __PR((SCSI *scgp, cdr_t *)); /* abort current write */ int (*cdr_session_offset) __PR((SCSI *scgp, long *soff)); /* read session offset*/ int (*cdr_fixate) __PR((SCSI *scgp, cdr_t *, track_t *trackp)); /* write toc on disk */ int (*cdr_stats) __PR((SCSI *scgp, cdr_t *)); /* final statistics printing*/ int (*cdr_blank) __PR((SCSI *scgp, cdr_t *, long addr, int blanktype)); /* blank something */ int (*cdr_format) __PR((SCSI *scgp, cdr_t *, int fmtflags)); /* format media */ int (*cdr_opc) __PR((SCSI *scgp, caddr_t bp, int cnt, int doopc)); /* Do OPC */ int (*cdr_opt1) __PR((SCSI *scgp, cdr_t *)); /* do early option processing*/ int (*cdr_opt2) __PR((SCSI *scgp, cdr_t *)); /* do late option processing */ }; #endif /* * Definitions for cdr_flags */ #define CDR_TAO 0x01 /* Drive supports Track at once */ #define CDR_SAO 0x02 /* Drive supports Sess at once */ #define CDR_PACKET 0x04 /* Drive supports packet writing*/ #define CDR_RAW 0x08 /* Drive supports raw writing */ #define CDR_RAW16 0x10 /* Drive supports RAW raw16 */ #define CDR_RAW96P 0x20 /* Drive supports RAW raw96 pak */ #define CDR_RAW96R 0x40 /* Drive supports RAW raw96 raw */ #ifdef __needed__ #define CDR_SRAW16 0x100 /* Drive supports SAO raw16 */ #endif #define CDR_SRAW96P 0x200 /* Drive supports SAO raw96 pak */ #define CDR_SRAW96R 0x400 /* Drive supports SAO raw96 raw */ #define CDR_LAYER_JUMP 0x800 /* Drive s. DVD-R/DL Layer jump */ #define CDR_SWABAUDIO 0x1000 /* Drive swabs audio data */ #define CDR_ISREADER 0x2000 /* Drive is s CD-ROM reader */ #define CDR_TRAYLOAD 0x4000 /* Drive loads CD with tray */ #define CDR_CADDYLOAD 0x8000 /* Drive loads CD with caddy */ #define CDR_NO_LOLIMIT 0x10000 /* Drive ignores lead-out limit */ #define CDR_DVD 0x20000 /* Drive is a DVD drive */ #define CDR_SIMUL 0x40000 /* Drive is simulated */ #define CDR_BURNFREE 0x80000 /* Drive sup. BUFund. free rec. */ #define CDR_VARIREC 0x100000 /* Drive sup. VariRec Plex. */ #define CDR_AUDIOMASTER 0x200000 /* Drive sup. AudioMaster Yamah.*/ #define CDR_FORCESPEED 0x400000 /* Drive sup. WriteSpeed ctl. */ #define CDR_DISKTATTOO 0x800000 /* Drive sup. Yamaha DiskT@2 */ #define CDR_SINGLESESS 0x1000000 /* Drive sup. single sess. mode */ #define CDR_HIDE_CDR 0x2000000 /* Drive sup. hide CDR features */ #define CDR_SPEEDREAD 0x4000000 /* Drive sup. SpeedReed */ #define CDR_GIGAREC 0x8000000 /* Drive sup. GigaRec Plex. */ #define CDR_MMC 0x10000000 /* Drive is MMC compliant */ #define CDR_MMC2 0x20000000 /* Drive is MMC-2 compliant */ #define CDR_MMC3 0x40000000 /* Drive is MMC-3 compliant */ #ifdef PROTOTYPES #define CDR_ALLOC 0x80000000UL /* structure is allocated */ #else #define CDR_ALLOC 0x80000000 /* structure is allocated */ #endif /* * Definitions for cdr_flags */ #define CDR2_NOCD 0x01 /* Drive not operating on a CD */ #define CDR2_BD 0x02 /* Drive is a BluRay drive */ /* * Definitions for cdr_cdrw_support */ #define CDR_CDRW_NONE 0x00 /* CD-RW writing not supported */ #define CDR_CDRW_MULTI 0x01 /* CD-RW multi speed supported */ #define CDR_CDRW_HIGH 0x02 /* CD-RW high speed supported */ #define CDR_CDRW_ULTRA 0x04 /* CD-RW ultra high speed supported */ #define CDR_CDRW_ULTRAP 0x08 /* CD-RW ultra high speed+ supported */ #define CDR_CDRW_ALL 0xFF /* All bits set: unknown - support all */ /* * cdrecord.c */ extern int read_buf __PR((int f, char *bp, int size)); extern int fill_buf __PR((int f, track_t *trackp, long secno, char *bp, int size)); extern int get_buf __PR((int f, track_t *trackp, long secno, char **bpp, int size)); #ifdef _SCG_SCSITRANSP_H extern int write_secs __PR((SCSI *scgp, cdr_t *dp, char *bp, long startsec, int bytespt, int secspt, BOOL islast)); extern int write_track_data __PR((SCSI *scgp, cdr_t *, track_t *)); extern int pad_track __PR((SCSI *scgp, cdr_t *dp, track_t *trackp, long startsec, Llong amt, BOOL dolast, Llong *bytesp)); extern void load_media __PR((SCSI *scgp, cdr_t *, BOOL)); extern void unload_media __PR((SCSI *scgp, cdr_t *, UInt32_t)); extern void reload_media __PR((SCSI *scgp, cdr_t *)); #endif extern void raisepri __PR((int)); extern int getnum __PR((char *arg, long *valp)); /* * cd_misc.c */ extern int from_bcd __PR((int b)); extern int to_bcd __PR((int i)); extern long msf_to_lba __PR((int m, int s, int f, BOOL force_positive)); extern BOOL lba_to_msf __PR((long lba, msf_t *mp)); extern void sec_to_msf __PR((long sec, msf_t *mp)); extern void print_min_atip __PR((long li, long lo)); extern BOOL is_cdspeed __PR((int speed)); /* * fifo.c */ extern long init_fifo __PR((long)); extern BOOL init_faio __PR((track_t *track, int)); extern BOOL await_faio __PR((void)); extern void kill_faio __PR((void)); extern int wait_faio __PR((void)); extern int faio_read_buf __PR((int f, char *bp, int size)); extern int faio_get_buf __PR((int f, char **bpp, int size)); extern void fifo_stats __PR((void)); extern int fifo_percent __PR((BOOL addone)); /* * wm_session.c */ #ifdef _SCG_SCSITRANSP_H extern int write_session_data __PR((SCSI *scgp, cdr_t *dp, track_t *trackp)); #endif /* * wm_track.c */ #ifdef _SCG_SCSITRANSP_H /*extern int write_track_data __PR((SCSI *scgp, cdr_t *dp, track_t *trackp));*/ #endif /* * wm_packet.c */ #ifdef _SCG_SCSITRANSP_H extern int write_packet_data __PR((SCSI *scgp, cdr_t *dp, track_t *trackp)); #endif /* * modes.c */ #ifdef _SCG_SCSITRANSP_H extern BOOL get_mode_params __PR((SCSI *scgp, int page, char *pagename, Uchar *modep, Uchar *cmodep, Uchar *dmodep, Uchar *smodep, int *lenp)); extern BOOL set_mode_params __PR((SCSI *scgp, char *pagename, Uchar *modep, int len, int save, int secsize)); #endif /* * misc.c */ #ifdef timerclear extern void timevaldiff __PR((struct timeval *start, struct timeval *stop)); extern void prtimediff __PR((const char *fmt, struct timeval *start, struct timeval *stop)); #endif /* * getnum.c */ extern int getnum __PR((char *arg, long *valp)); extern int getllnum __PR((char *arg, Llong *lvalp)); /* * scsi_cdr.c */ #ifdef _SCG_SCSITRANSP_H extern BOOL unit_ready __PR((SCSI *scgp)); extern BOOL wait_unit_ready __PR((SCSI *scgp, int secs)); extern BOOL scsi_in_progress __PR((SCSI *scgp)); extern BOOL cdr_underrun __PR((SCSI *scgp)); extern int test_unit_ready __PR((SCSI *scgp)); extern int rezero_unit __PR((SCSI *scgp)); extern int request_sense __PR((SCSI *scgp)); extern int request_sense_b __PR((SCSI *scgp, caddr_t bp, int cnt)); extern int inquiry __PR((SCSI *scgp, caddr_t, int)); extern int read_capacity __PR((SCSI *scgp)); #ifdef EOF /* stdio.h has been included */ extern void print_capacity __PR((SCSI *scgp, FILE *f)); #endif extern int scsi_load_unload __PR((SCSI *scgp, int)); extern int scsi_prevent_removal __PR((SCSI *scgp, int)); extern int scsi_start_stop_unit __PR((SCSI *scgp, int, int, BOOL immed)); #define ROTCTL_CLV 0 /* CLV or PCAV */ #define ROTCTL_CAV 1 /* True CAV */ extern int scsi_set_speed __PR((SCSI *scgp, int readspeed, int writespeed, int rotctl)); extern int scsi_get_speed __PR((SCSI *scgp, int *readspeedp, int *writespeedp)); extern int qic02 __PR((SCSI *scgp, int)); extern int write_xscsi __PR((SCSI *scgp, caddr_t, long, long, int)); extern int write_xg0 __PR((SCSI *scgp, caddr_t, long, long, int)); extern int write_xg1 __PR((SCSI *scgp, caddr_t, long, long, int)); extern int write_xg5 __PR((SCSI *scgp, caddr_t, long, long, int)); extern int seek_scsi __PR((SCSI *scgp, long addr)); extern int seek_g0 __PR((SCSI *scgp, long addr)); extern int seek_g1 __PR((SCSI *scgp, long addr)); extern int scsi_flush_cache __PR((SCSI *scgp, BOOL immed)); extern int read_buffer __PR((SCSI *scgp, caddr_t bp, int cnt, int mode)); extern int write_buffer __PR((SCSI *scgp, char *buffer, long length, int mode, int bufferid, long offset)); extern int read_subchannel __PR((SCSI *scgp, caddr_t bp, int track, int cnt, int msf, int subq, int fmt)); extern int read_toc __PR((SCSI *scgp, caddr_t, int, int, int, int)); extern int read_toc_philips __PR((SCSI *scgp, caddr_t, int, int, int, int)); extern int read_header __PR((SCSI *scgp, caddr_t, long, int, int)); extern int read_disk_info __PR((SCSI *scgp, caddr_t, int)); #define TI_TYPE_LBA 0 /* Address is LBA */ #define TI_TYPE_TRACK 1 /* Address: 0 -> TOC, xx -> Track xx, 0xFF -> Inv Track */ #define TI_TYPE_SESS 2 /* Address is session # */ extern int read_track_info __PR((SCSI *scgp, caddr_t, int type, int addr, int cnt)); extern int get_trackinfo __PR((SCSI *scgp, caddr_t, int type, int addr, int cnt)); extern int read_rzone_info __PR((SCSI *scgp, caddr_t bp, int cnt)); extern int reserve_tr_rzone __PR((SCSI *scgp, long size)); extern int read_dvd_structure __PR((SCSI *scgp, caddr_t bp, int cnt, int mt, int addr, int layer, int fmt)); extern int send_dvd_structure __PR((SCSI *scgp, caddr_t bp, int cnt, int fmt)); extern int send_opc __PR((SCSI *scgp, caddr_t, int cnt, int doopc)); #define CL_TYPE_STOP_DEICE 0 /* Stop De-icing a DVD+RW Media */ #define CL_TYPE_TRACK 1 /* Close Track # */ #define CL_TYPE_SESSION 2 /* Close Session/Border / Stop backgrnd. format */ #define CL_TYPE_INTER_BORDER 3 /* Close intermediate Border */ extern int scsi_close_tr_session __PR((SCSI *scgp, int type, int track, BOOL immed)); extern int read_master_cue __PR((SCSI *scgp, caddr_t bp, int sheet, int cnt)); extern int send_cue_sheet __PR((SCSI *scgp, caddr_t bp, long size)); extern int read_buff_cap __PR((SCSI *scgp, long *, long *)); extern int scsi_blank __PR((SCSI *scgp, long addr, int blanktype, BOOL immed)); extern BOOL allow_atapi __PR((SCSI *scgp, BOOL new)); extern int mode_select __PR((SCSI *scgp, Uchar *, int, int, int)); extern int mode_sense __PR((SCSI *scgp, Uchar *dp, int cnt, int page, int pcf)); extern int mode_select_sg0 __PR((SCSI *scgp, Uchar *, int, int, int)); extern int mode_sense_sg0 __PR((SCSI *scgp, Uchar *dp, int cnt, int page, int pcf)); extern int mode_select_g0 __PR((SCSI *scgp, Uchar *, int, int, int)); extern int mode_select_g1 __PR((SCSI *scgp, Uchar *, int, int, int)); extern int mode_sense_g0 __PR((SCSI *scgp, Uchar *dp, int cnt, int page, int pcf)); extern int mode_sense_g1 __PR((SCSI *scgp, Uchar *dp, int cnt, int page, int pcf)); extern int read_tochdr __PR((SCSI *scgp, cdr_t *, int *, int *)); extern int read_cdtext __PR((SCSI *scgp)); extern int read_trackinfo __PR((SCSI *scgp, int, long *, struct msf *, int *, int *, int *)); extern int read_B0 __PR((SCSI *scgp, BOOL isbcd, long *b0p, long *lop)); extern int read_session_offset __PR((SCSI *scgp, long *)); extern int read_session_offset_philips __PR((SCSI *scgp, long *)); extern int sense_secsize __PR((SCSI *scgp, int current)); extern int select_secsize __PR((SCSI *scgp, int)); extern BOOL is_cddrive __PR((SCSI *scgp)); extern BOOL is_unknown_dev __PR((SCSI *scgp)); extern int read_scsi __PR((SCSI *scgp, caddr_t, long, int)); extern int read_g0 __PR((SCSI *scgp, caddr_t, long, int)); extern int read_g1 __PR((SCSI *scgp, caddr_t, long, int)); extern BOOL getdev __PR((SCSI *scgp, BOOL)); #ifdef EOF /* stdio.h has been included */ extern void printinq __PR((SCSI *scgp, FILE *f)); #endif extern void printdev __PR((SCSI *scgp)); extern BOOL do_inquiry __PR((SCSI *scgp, BOOL)); extern BOOL recovery_needed __PR((SCSI *scgp, cdr_t *)); extern int scsi_load __PR((SCSI *scgp, cdr_t *)); extern int scsi_unload __PR((SCSI *scgp, cdr_t *)); extern int scsi_cdr_write __PR((SCSI *scgp, caddr_t bp, long sectaddr, long size, int blocks, BOOL islast)); extern struct cd_mode_page_2A * mmc_cap __PR((SCSI *scgp, Uchar *modep)); extern void mmc_getval __PR((struct cd_mode_page_2A *mp, BOOL *cdrrp, BOOL *cdwrp, BOOL *cdrrwp, BOOL *cdwrwp, BOOL *dvdp, BOOL *dvdwp)); extern BOOL is_mmc __PR((SCSI *scgp, BOOL *cdwp, BOOL *dvdwp)); extern BOOL mmc_check __PR((SCSI *scgp, BOOL *cdrrp, BOOL *cdwrp, BOOL *cdrrwp, BOOL *cdwrwp, BOOL *dvdp, BOOL *dvdwp)); extern void print_capabilities __PR((SCSI *scgp)); extern int verify __PR((SCSI *scgp, long start, int count, long *bad_block)); #endif /* * scsi_cdr.c */ #ifdef _SCG_SCSITRANSP_H extern void print_capabilities_mmc4 __PR((SCSI *scgp)); #endif /* * scsi_mmc.c */ /* * Definitions for the return value of get_mediatype() */ #define MT_NONE 0 /* Unknown or unsupported */ #define MT_CD 1 /* CD type media */ #define MT_DVD 2 /* DVD type media */ #define MT_BD 3 /* Blu Ray type media */ #define MT_HDDVD 4 /* HD-DVD type media */ #ifdef _SCG_SCSITRANSP_H extern int get_configuration __PR((SCSI *scgp, caddr_t bp, int cnt, int st_feature, int rt)); extern int get_curprofile __PR((SCSI *scgp)); extern int has_profile __PR((SCSI *scgp, int profile)); extern int print_profiles __PR((SCSI *scgp)); extern int get_proflist __PR((SCSI *scgp, BOOL *wp, BOOL *cdp, BOOL *dvdp, BOOL *dvdplusp, BOOL *ddcdp)); extern int get_wproflist __PR((SCSI *scgp, BOOL *cdp, BOOL *dvdp, BOOL *dvdplusp, BOOL *ddcdp)); extern int get_mediatype __PR((SCSI *scgp)); #endif /* _SCG_SCSITRANSP_H */ extern int get_singlespeed __PR((int mt)); extern float get_secsps __PR((int mt)); extern char *get_mclassname __PR((int mt)); extern int get_blf __PR((int mt)); #ifdef _SCG_SCSITRANSP_H extern int print_features __PR((SCSI *scgp)); extern int check_writemodes_mmc __PR((SCSI *scgp, cdr_t *dp)); extern int scsi_get_perf_maxspeed __PR((SCSI *scgp, Ulong *readp, Ulong *writep, Ulong *endp)); extern int scsi_get_perf_curspeed __PR((SCSI *scgp, Ulong *readp, Ulong *writep, Ulong *endp)); extern int speed_select_mdvd __PR((SCSI *scgp, int readspeed, int writespeed)); extern void print_format_capacities __PR((SCSI *scgp)); extern int get_format_capacities __PR((SCSI *scgp, caddr_t bp, int cnt)); extern int read_format_capacities __PR((SCSI *scgp, caddr_t bp, int cnt)); #endif /* _SCG_SCSITRANSP_H */ #ifdef _SCSIMMC_H extern void przone __PR((struct rzone_info *rp)); #endif /* _SCSIMMC_H */ #ifdef _SCG_SCSITRANSP_H #ifdef _SCSIMMC_H extern int get_diskinfo __PR((SCSI *scgp, struct disk_info *dip, int cnt)); extern char *get_ses_type __PR((int ses_type)); extern void print_diskinfo __PR((struct disk_info *dip, BOOL is_cd)); #endif extern int prdiskstatus __PR((SCSI *scgp, cdr_t *dp, BOOL is_cd)); extern int sessstatus __PR((SCSI *scgp, BOOL is_cd, long *offp, long *nwap)); extern void print_performance_mmc __PR((SCSI *scgp)); #endif /* _SCG_SCSITRANSP_H */ /* * scsi_mmc4.c */ #ifdef _SCG_SCSITRANSP_H extern int get_supported_cdrw_media_types __PR((SCSI *scgp)); #endif /* * cdr_drv.c */ #ifdef _SCG_SCSITRANSP_H #ifdef _SCG_SCSIREG_H extern cdr_t *drive_identify __PR((SCSI *scgp, cdr_t *, struct scsi_inquiry *ip)); #else extern cdr_t *drive_identify __PR((SCSI *scgp, cdr_t *, void *ip)); #endif extern int drive_attach __PR((SCSI *scgp, cdr_t *)); #endif extern int attach_unknown __PR((void)); #ifdef _SCG_SCSITRANSP_H extern int blank_dummy __PR((SCSI *scgp, cdr_t *, long addr, int blanktype)); extern int blank_simul __PR((SCSI *scgp, cdr_t *, long addr, int blanktype)); EXPORT int format_dummy __PR((SCSI *scgp, cdr_t *, int fmtflags)); extern int drive_getdisktype __PR((SCSI *scgp, cdr_t *dp)); extern int cmd_ill __PR((SCSI *scgp)); extern int cmd_dummy __PR((SCSI *scgp, cdr_t *)); extern int no_sendcue __PR((SCSI *scgp, cdr_t *, track_t *trackp)); extern int no_diskstatus __PR((SCSI *scgp, cdr_t *)); extern int buf_dummy __PR((SCSI *scgp, long *sp, long *fp)); #endif extern BOOL set_cdrcmds __PR((char *name, cdr_t **dpp)); #ifdef _SCG_SCSITRANSP_H extern cdr_t *get_cdrcmds __PR((SCSI *scgp)); #endif /* * drv_mmc.c */ #ifdef _SCG_SCSITRANSP_H extern void mmc_opthelp __PR((SCSI *scgp, cdr_t *dp, int excode)); #endif extern char *hasdrvopt __PR((char *optstr, char *optname)); extern char *hasdrvoptx __PR((char *optstr, char *optname, int flag)); #ifdef _SCG_SCSITRANSP_H extern struct ricoh_mode_page_30 * get_justlink_ricoh __PR((SCSI *scgp, Uchar *mode)); #endif /* * isosize.c */ extern Llong isosize __PR((int f)); extern Llong bisosize __PR((char *bp, int len)); /* * audiosize.c */ extern BOOL is_auname __PR((const char *name)); extern off_t ausize __PR((int f)); extern BOOL is_wavname __PR((const char *name)); extern off_t wavsize __PR((int f)); /* * auinfo.c */ extern BOOL auinfosize __PR((char *name, track_t *trackp)); extern BOOL auinfhidden __PR((char *name, int track, track_t *trackp)); extern void auinfo __PR((char *name, int track, track_t *trackp)); #ifdef CDTEXT_H extern textptr_t *gettextptr __PR((int track, track_t *trackp)); #endif extern void setmcn __PR((char *mcn, track_t *trackp)); extern void setisrc __PR((char *isrc, track_t *trackp)); extern void setindex __PR((char *tindex, track_t *trackp)); /* * diskid.c */ extern void pr_manufacturer __PR((msf_t *mp, BOOL rw, BOOL audio)); extern int manufacturer_id __PR((msf_t *mp)); extern long disk_rcap __PR((msf_t *mp, long maxblock, BOOL rw, BOOL audio)); /*--------------------------------------------------------------------------*/ /* Test only */ /*--------------------------------------------------------------------------*/ #ifdef _SCSIMMC_H /*extern int do_cue __PR((track_t *trackp, struct mmc_cue **cuep));*/ #else /*extern int do_cue __PR((track_t *trackp, void *cuep));*/ #endif /* * subchan.c */ extern int do_leadin __PR((track_t *trackp)); #ifdef _SCG_SCSITRANSP_H extern int write_leadin __PR((SCSI *scgp, cdr_t *dp, track_t *trackp, int leadinstart)); extern int write_leadout __PR((SCSI *scgp, cdr_t *dp, track_t *trackp)); #endif extern void fillsubch __PR((track_t *trackp, Uchar *sp, int secno, int nsecs)); extern void filltpoint __PR((Uchar *sub, int ctrl_adr, int point, msf_t *mp)); extern void fillttime __PR((Uchar *sub, msf_t *mp)); extern void qpto96 __PR((Uchar *sub, Uchar *subq, int dop)); extern void addrw __PR((Uchar *sub, Uchar *subrwptr)); extern void qwto16 __PR((Uchar *subq, Uchar *subptr)); extern void subrecodesecs __PR((track_t *trackp, Uchar *bp, int address, int nsecs)); /* * sector.c */ extern int encspeed __PR((BOOL be_verbose)); extern void encsectors __PR((track_t *trackp, Uchar *bp, int address, int nsecs)); extern void scrsectors __PR((track_t *trackp, Uchar *bp, int address, int nsecs)); extern void encodesector __PR((Uchar *sp, int sectype, int address)); extern void fillsector __PR((Uchar *sp, int sectype, int address)); /* * clone.c */ extern void clone_toc __PR((track_t *trackp)); extern void clone_tracktype __PR((track_t *trackp)); /* * cdtext.c */ extern BOOL checktextfile __PR((char *fname)); extern void packtext __PR((int tracks, track_t *trackp)); #ifdef _SCG_SCSITRANSP_H extern int write_cdtext __PR((SCSI *scgp, cdr_t *dp, long startsec)); #endif /* * cue.c */ extern int parsecue __PR((char *cuefname, track_t trackp[])); #ifdef EOF /* stdio.h has been included */ extern void fparsecue __PR((FILE *f, track_t trackp[])); #endif /* * vendor.c */ /* * priv.c */ #ifdef CDDA2WAV extern void priv_init __PR((void)); extern void priv_on __PR((void)); extern void priv_off __PR((void)); #endif #if defined(CDRECORD) || defined(READCD) extern void priv_drop __PR((void)); extern BOOL priv_from_priv __PR((void)); #endif extern BOOL priv_eff_priv __PR((int pname)); #ifdef HAVE_SOLARIS_PPRIV extern void do_pfexec __PR((int ac, char *av[], ...)); #endif