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FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/ichwd/@/amd64/compile/hs32/modules/usr/src/sys/modules/nullfs/@/sys/cdio.h |
/* * 16 Feb 93 Julian Elischer (julian@dialix.oz.au) * * $FreeBSD: release/9.1.0/sys/sys/cdio.h 141031 2005-01-30 08:12:37Z sobomax $ */ /* <1> Fixed a conflict with ioctl usage. There were two different functions using code #25. Made file formatting consistent. Added two new ioctl codes: door closing and audio pitch playback. Added a STEREO union called STEREO. 5-Mar-95 Frank Durda IV bsdmail@nemesis.lonestar.org <2> Added a new ioctl that allows you to find out what capabilities a drive has and what commands it will accept. This allows a user application to only offer controls (buttons, sliders, etc) for functions that drive can actually do. Things it can't do can disappear or be greyed-out (like some other system). If the driver doesn't respond to this call, well, handle it the way you used to do it. 2-Apr-95 Frank Durda IV bsdmail@nemesis.lonestar.org */ /* Shared between kernel & process */ #ifndef _SYS_CDIO_H_ #define _SYS_CDIO_H_ #ifndef _KERNEL #include <sys/types.h> #endif #include <sys/ioccom.h> union msf_lba { struct { unsigned char unused; unsigned char minute; unsigned char second; unsigned char frame; } msf; int lba; /* network byte order */ u_char addr[4]; }; struct cd_toc_entry { #if BYTE_ORDER == LITTLE_ENDIAN u_int :8; u_int control:4; u_int addr_type:4; #else u_int :8; u_int addr_type:4; u_int control:4; #endif u_char track; u_int :8; union msf_lba addr; }; struct cd_sub_channel_header { u_int :8; u_char audio_status; #define CD_AS_AUDIO_INVALID 0x00 #define CD_AS_PLAY_IN_PROGRESS 0x11 #define CD_AS_PLAY_PAUSED 0x12 #define CD_AS_PLAY_COMPLETED 0x13 #define CD_AS_PLAY_ERROR 0x14 #define CD_AS_NO_STATUS 0x15 u_char data_len[2]; }; struct cd_sub_channel_position_data { u_char data_format; u_int control:4; u_int addr_type:4; u_char track_number; u_char index_number; union msf_lba absaddr; union msf_lba reladdr; }; struct cd_sub_channel_media_catalog { u_char data_format; u_int :8; u_int :8; u_int :8; u_int :7; u_int mc_valid:1; u_char mc_number[15]; }; struct cd_sub_channel_track_info { u_char data_format; u_int :8; u_char track_number; u_int :8; u_int :7; u_int ti_valid:1; u_char ti_number[15]; }; struct cd_sub_channel_info { struct cd_sub_channel_header header; union { struct cd_sub_channel_position_data position; struct cd_sub_channel_media_catalog media_catalog; struct cd_sub_channel_track_info track_info; } what; }; /***************************************************************\ * Ioctls for the CD drive * \***************************************************************/ struct ioc_play_track { u_char start_track; u_char start_index; u_char end_track; u_char end_index; }; #define CDIOCPLAYTRACKS _IOW('c',1,struct ioc_play_track) struct ioc_play_blocks { int blk; int len; }; #define CDIOCPLAYBLOCKS _IOW('c',2,struct ioc_play_blocks) struct ioc_read_subchannel { u_char address_format; #define CD_LBA_FORMAT 1 #define CD_MSF_FORMAT 2 u_char data_format; #define CD_SUBQ_DATA 0 #define CD_CURRENT_POSITION 1 #define CD_MEDIA_CATALOG 2 #define CD_TRACK_INFO 3 u_char track; int data_len; struct cd_sub_channel_info *data; }; #define CDIOCREADSUBCHANNEL _IOWR('c', 3 , struct ioc_read_subchannel ) struct ioc_toc_header { u_short len; u_char starting_track; u_char ending_track; }; #define CDIOREADTOCHEADER _IOR('c',4,struct ioc_toc_header) struct ioc_read_toc_entry { u_char address_format; u_char starting_track; u_short data_len; struct cd_toc_entry *data; }; #define CDIOREADTOCENTRYS _IOWR('c',5,struct ioc_read_toc_entry) struct ioc_read_toc_single_entry { u_char address_format; u_char track; struct cd_toc_entry entry; }; #define CDIOREADTOCENTRY _IOWR('c',6,struct ioc_read_toc_single_entry) struct ioc_patch { u_char patch[4]; /* one for each channel */ }; #define CDIOCSETPATCH _IOW('c',9,struct ioc_patch) struct ioc_vol { u_char vol[4]; /* one for each channel */ }; #define CDIOCGETVOL _IOR('c',10,struct ioc_vol) #define CDIOCSETVOL _IOW('c',11,struct ioc_vol) #define CDIOCSETMONO _IO('c',12) #define CDIOCSETSTERIO _IO('c',13) #define CDIOCSETSTEREO _IO('c',13) #define CDIOCSETMUTE _IO('c',14) #define CDIOCSETLEFT _IO('c',15) #define CDIOCSETRIGHT _IO('c',16) #define CDIOCSETDEBUG _IO('c',17) #define CDIOCCLRDEBUG _IO('c',18) #define CDIOCPAUSE _IO('c',19) #define CDIOCRESUME _IO('c',20) #define CDIOCRESET _IO('c',21) #define CDIOCSTART _IO('c',22) #define CDIOCSTOP _IO('c',23) #define CDIOCEJECT _IO('c',24) struct ioc_play_msf { u_char start_m; u_char start_s; u_char start_f; u_char end_m; u_char end_s; u_char end_f; }; #define CDIOCPLAYMSF _IOW('c',25,struct ioc_play_msf) #define CDIOCALLOW _IO('c',26) #define CDIOCPREVENT _IO('c',27) /*<1>For drives that support it, this*/ /*<1>causes the drive to close its door*/ /*<1>and make the media (if any) ready*/ #define CDIOCCLOSE _IO('c',28) /*<1>*/ struct ioc_pitch { /*<1>For drives that support it, this*/ /*<1>call instructs the drive to play the*/ short speed; /*<1>audio at a faster or slower-than-normal*/ }; /*<1>rate. -32767 to -1 is slower, 0==normal,*/ /*<1>and 1 to 32767 is faster. LSB bits are*/ /*<1>discarded first by drives with less res.*/ #define CDIOCPITCH _IOW('c',29,struct ioc_pitch) /*<1>*/ struct ioc_capability { /*<2>*/ u_long play_function; /*<2>*/ #define CDDOPLAYTRK 0x00000001 /*<2>Can Play tracks/index*/ #define CDDOPLAYMSF 0x00000002 /*<2>Can Play msf to msf*/ #define CDDOPLAYBLOCKS 0x00000004 /*<2>Can Play range of blocks*/ #define CDDOPAUSE 0x00000100 /*<2>Output can be paused*/ #define CDDORESUME 0x00000200 /*<2>Output can be resumed*/ #define CDDORESET 0x00000400 /*<2>Drive can be completely reset*/ #define CDDOSTART 0x00000800 /*<2>Audio can be started*/ #define CDDOSTOP 0x00001000 /*<2>Audio can be stopped*/ #define CDDOPITCH 0x00002000 /*<2>Audio pitch */ u_long routing_function; /*<2>*/ #define CDREADVOLUME 0x00000001 /*<2>Volume settings can be read*/ #define CDSETVOLUME 0x00000002 /*<2>Volume settings can be set*/ #define CDSETMONO 0x00000100 /*<2>Output can be set to mono*/ #define CDSETSTEREO 0x00000200 /*<2>Output can be set to stereo (def)*/ #define CDSETLEFT 0x00000400 /*<2>Output can be set to left only*/ #define CDSETRIGHT 0x00000800 /*<2>Output can be set to right only*/ #define CDSETMUTE 0x00001000 /*<2>Output can be muted*/ #define CDSETPATCH 0x00008000 /*<2>Direct routing control allowed*/ u_long special_function; /*<2>*/ #define CDDOEJECT 0x00000001 /*<2>The tray can be opened*/ #define CDDOCLOSE 0x00000002 /*<2>The tray can be closed*/ #define CDDOLOCK 0x00000004 /*<2>The tray can be locked*/ #define CDREADHEADER 0x00000100 /*<2>Can read Table of Contents*/ #define CDREADENTRIES 0x00000200 /*<2>Can read TOC Entries*/ #define CDREADSUBQ 0x00000200 /*<2>Can read Subchannel info*/ #define CDREADRW 0x00000400 /*<2>Can read subcodes R-W*/ #define CDHASDEBUG 0x00004000 /*<2>The tray has dynamic debugging*/ }; /*<2>*/ #define CDIOCCAPABILITY _IOR('c',30,struct ioc_capability) /*<2>*/ /* * Special version of CDIOCREADSUBCHANNEL which assumes that * ioc_read_subchannel->data points to the kernel memory. For * use in compatibility layers. */ #define CDIOCREADSUBCHANNEL_SYSSPACE _IOWR('c', 31, struct ioc_read_subchannel) #endif /* !_SYS_CDIO_H_ */