Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/sound/driver/solo/@/compat/svr4/ |
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/sound/driver/solo/@/compat/svr4/svr4_termios.c |
/*- * Copyright (c) 1998 Mark Newton * Copyright (c) 1994 Christos Zoulas * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/compat/svr4/svr4_termios.c 199882 2009-11-28 16:30:06Z ed $"); #include <sys/param.h> #include <sys/proc.h> #include <sys/systm.h> #include <sys/file.h> #include <sys/filedesc.h> #include <sys/tty.h> #include <sys/sysproto.h> #include <compat/svr4/svr4.h> #include <compat/svr4/svr4_util.h> #include <compat/svr4/svr4_ioctl.h> #include <compat/svr4/svr4_termios.h> #ifndef __CONCAT3 # if __STDC__ # define __CONCAT3(a,b,c) a ## b ## c # else # define __CONCAT3(a,b,c) a/**/b/**/c # endif #endif static u_long bsd_to_svr4_speed(u_long, u_long); static u_long svr4_to_bsd_speed(u_long, u_long); static void svr4_to_bsd_termios(const struct svr4_termios *, struct termios *, int); static void bsd_to_svr4_termios(const struct termios *, struct svr4_termios *); static void svr4_termio_to_termios(const struct svr4_termio *, struct svr4_termios *); static void svr4_termios_to_termio(const struct svr4_termios *, struct svr4_termio *); #ifdef DEBUG_SVR4 static void print_svr4_termios(const struct svr4_termios *); static void print_bsd_termios(const struct termios *); #endif /* DEBUG_SVR4 */ #define undefined_char(a,b) /**/ #define undefined_flag1(f,a,b) /**/ #define undefined_flag2(f,a,b,c1,t1,c2,t2) /**/ #define undefined_flag4(f,a,b,c1,t1,c2,t2,c3,t3,c4,t4) /**/ #define svr4_to_bsd_char(a,b) \ if (new || __CONCAT3(SVR4_,a,b) < SVR4_NCC) { \ if (st->c_cc[__CONCAT3(SVR4_,a,b)] == SVR4_POSIX_VDISABLE) \ bt->c_cc[__CONCAT(a,b)] = _POSIX_VDISABLE; \ else \ bt->c_cc[__CONCAT(a,b)] = st->c_cc[__CONCAT3(SVR4_,a,b)]; \ } #define svr4_to_bsd_flag1(f,a,b) \ if (new || __CONCAT3(SVR4_,a,b) < 0200000) { \ if (st->f & __CONCAT3(SVR4_,a,b)) \ bt->f |= __CONCAT(a,b); \ else \ bt->f &= ~__CONCAT(a,b); \ } #define svr4_to_bsd_flag2(f,a,b,c1,t1,c2,t2) \ if (new || __CONCAT3(SVR4_,a,b) < 0200000) { \ bt->f &= ~__CONCAT(a,b); \ switch (st->f & __CONCAT3(SVR4_,a,b)) { \ case __CONCAT3(SVR4_,c1,t1): bt->f |= __CONCAT(c1,t1); break; \ case __CONCAT3(SVR4_,c2,t2): bt->f |= __CONCAT(c2,t2); break; \ } \ } #define svr4_to_bsd_flag4(f,a,b,c1,t1,c2,t2,c3,t3,c4,t4) \ if (new || __CONCAT3(SVR4_,a,b) < 0200000) { \ bt->f &= ~__CONCAT(a,b); \ switch (st->f & __CONCAT3(SVR4_,a,b)) { \ case __CONCAT3(SVR4_,c1,t1): bt->f |= __CONCAT(c1,t1); break; \ case __CONCAT3(SVR4_,c2,t2): bt->f |= __CONCAT(c2,t2); break; \ case __CONCAT3(SVR4_,c3,t3): bt->f |= __CONCAT(c3,t3); break; \ case __CONCAT3(SVR4_,c4,t4): bt->f |= __CONCAT(c4,t4); break; \ } \ } #define bsd_to_svr4_char(a,b) \ if (bt->c_cc[__CONCAT(a,b)] == _POSIX_VDISABLE) \ st->c_cc[__CONCAT3(SVR4_,a,b)] = SVR4_POSIX_VDISABLE; \ else \ st->c_cc[__CONCAT3(SVR4_,a,b)] = bt->c_cc[__CONCAT(a,b)] #define bsd_to_svr4_flag1(f,a,b) \ if (bt->f & __CONCAT(a,b)) \ st->f |= __CONCAT3(SVR4_,a,b); \ else \ st->f &= ~__CONCAT3(SVR4_,a,b) #define bsd_to_svr4_flag2(f,a,b,c1,t1,c2,t2) \ st->f &= ~__CONCAT(a,b); \ switch (bt->f & __CONCAT(a,b)) { \ case __CONCAT(c1,t1): st->f |= __CONCAT3(SVR4_,c1,t1); break; \ case __CONCAT(c2,t2): st->f |= __CONCAT3(SVR4_,c2,t2); break; \ } #define bsd_to_svr4_flag4(f,a,b,c1,t1,c2,t2,c3,t3,c4,t4) \ st->f &= ~__CONCAT(a,b); \ switch (bt->f & __CONCAT(a,b)) { \ case __CONCAT(c1,t1): st->f |= __CONCAT3(SVR4_,c1,t1); break; \ case __CONCAT(c2,t2): st->f |= __CONCAT3(SVR4_,c2,t2); break; \ case __CONCAT(c3,t3): st->f |= __CONCAT3(SVR4_,c3,t3); break; \ case __CONCAT(c4,t4): st->f |= __CONCAT3(SVR4_,c4,t4); break; \ } #ifdef DEBUG_SVR4 static void print_svr4_termios(st) const struct svr4_termios *st; { int i; DPRINTF(("SVR4\niflag=%lo oflag=%lo cflag=%lo lflag=%lo\n", st->c_iflag, st->c_oflag, st->c_cflag, st->c_lflag)); DPRINTF(("cc: ")); for (i = 0; i < SVR4_NCCS; i++) DPRINTF(("%o ", st->c_cc[i])); DPRINTF(("\n")); } static void print_bsd_termios(bt) const struct termios *bt; { int i; uprintf("BSD\niflag=%o oflag=%o cflag=%o lflag=%o\n", bt->c_iflag, bt->c_oflag, bt->c_cflag, bt->c_lflag); uprintf("cc: "); for (i = 0; i < NCCS; i++) uprintf("%o ", bt->c_cc[i]); uprintf("\n"); } #endif /* DEBUG_SVR4 */ static u_long bsd_to_svr4_speed(sp, mask) u_long sp; u_long mask; { switch (sp) { #undef getval #define getval(a,b) case __CONCAT(a,b): sp = __CONCAT3(SVR4_,a,b) getval(B,0); getval(B,50); getval(B,75); getval(B,110); getval(B,134); getval(B,150); getval(B,200); getval(B,300); getval(B,600); getval(B,1200); getval(B,1800); getval(B,2400); getval(B,4800); getval(B,9600); getval(B,19200); getval(B,38400); getval(B,57600); getval(B,115200); default: sp = SVR4_B9600; /* XXX */ } while ((mask & 1) == 0) { mask >>= 1; sp <<= 1; } return sp; } static u_long svr4_to_bsd_speed(sp, mask) u_long sp; u_long mask; { while ((mask & 1) == 0) { mask >>= 1; sp >>= 1; } switch (sp & mask) { #undef getval #define getval(a,b) case __CONCAT3(SVR4_,a,b): return __CONCAT(a,b) getval(B,0); getval(B,50); getval(B,75); getval(B,110); getval(B,134); getval(B,150); getval(B,200); getval(B,300); getval(B,600); getval(B,1200); getval(B,1800); getval(B,2400); getval(B,4800); getval(B,9600); getval(B,19200); getval(B,38400); getval(B,57600); getval(B,115200); default: return B9600; /* XXX */ } } static void svr4_to_bsd_termios(st, bt, new) const struct svr4_termios *st; struct termios *bt; int new; { /* control characters */ /* * We process VMIN and VTIME first, * because they are shared with VEOF and VEOL */ svr4_to_bsd_char(V,MIN); svr4_to_bsd_char(V,TIME); svr4_to_bsd_char(V,INTR); svr4_to_bsd_char(V,QUIT); svr4_to_bsd_char(V,ERASE); svr4_to_bsd_char(V,KILL); svr4_to_bsd_char(V,EOF); svr4_to_bsd_char(V,EOL); svr4_to_bsd_char(V,EOL2); undefined_char(V,SWTCH); svr4_to_bsd_char(V,START); svr4_to_bsd_char(V,STOP); svr4_to_bsd_char(V,SUSP); svr4_to_bsd_char(V,DSUSP); svr4_to_bsd_char(V,REPRINT); svr4_to_bsd_char(V,DISCARD); svr4_to_bsd_char(V,WERASE); svr4_to_bsd_char(V,LNEXT); /* Input modes */ svr4_to_bsd_flag1(c_iflag,I,GNBRK); svr4_to_bsd_flag1(c_iflag,B,RKINT); svr4_to_bsd_flag1(c_iflag,I,GNPAR); svr4_to_bsd_flag1(c_iflag,P,ARMRK); svr4_to_bsd_flag1(c_iflag,I,NPCK); svr4_to_bsd_flag1(c_iflag,I,STRIP); svr4_to_bsd_flag1(c_iflag,I,NLCR); svr4_to_bsd_flag1(c_iflag,I,GNCR); svr4_to_bsd_flag1(c_iflag,I,CRNL); undefined_flag1(c_iflag,I,UCLC); svr4_to_bsd_flag1(c_iflag,I,XON); svr4_to_bsd_flag1(c_iflag,I,XANY); svr4_to_bsd_flag1(c_iflag,I,XOFF); svr4_to_bsd_flag1(c_iflag,I,MAXBEL); undefined_flag1(c_iflag,D,OSMODE); /* Output modes */ svr4_to_bsd_flag1(c_oflag,O,POST); undefined_flag1(c_oflag,O,LCUC); svr4_to_bsd_flag1(c_oflag,O,NLCR); undefined_flag1(c_oflag,O,CRNL); undefined_flag1(c_oflag,O,NOCR); undefined_flag1(c_oflag,O,NLRET); undefined_flag1(c_oflag,O,FILL); undefined_flag1(c_oflag,O,FDEL); undefined_flag2(c_oflag,N,LDLY,N,L0,N,L1); undefined_flag4(c_oflag,C,RDLY,C,R0,C,R1,C,R2,C,R3); undefined_flag4(c_oflag,T,ABDLY,T,AB0,T,AB1,T,AB2,T,AB3); undefined_flag2(c_oflag,B,SDLY,B,S0,B,S1); undefined_flag2(c_oflag,V,TDLY,V,T0,V,T1); undefined_flag2(c_oflag,F,FDLY,F,F0,F,F1); undefined_flag1(c_oflag,P,AGEOUT); undefined_flag1(c_oflag,W,RAP); /* Control modes */ bt->c_ospeed = svr4_to_bsd_speed(st->c_cflag, SVR4_CBAUD); svr4_to_bsd_flag4(c_cflag,C,SIZE,C,S5,C,S6,C,S7,C,S8) svr4_to_bsd_flag1(c_cflag,C,STOPB); svr4_to_bsd_flag1(c_cflag,C,READ); svr4_to_bsd_flag1(c_cflag,P,ARENB); svr4_to_bsd_flag1(c_cflag,P,ARODD); svr4_to_bsd_flag1(c_cflag,H,UPCL); svr4_to_bsd_flag1(c_cflag,C,LOCAL); undefined_flag1(c_cflag,R,CV1EN); undefined_flag1(c_cflag,X,MT1EN); undefined_flag1(c_cflag,L,OBLK); undefined_flag1(c_cflag,X,CLUDE); bt->c_ispeed = svr4_to_bsd_speed(st->c_cflag, SVR4_CIBAUD); undefined_flag1(c_cflag,P,AREXT); /* line discipline modes */ svr4_to_bsd_flag1(c_lflag,I,SIG); svr4_to_bsd_flag1(c_lflag,I,CANON); undefined_flag1(c_lflag,X,CASE); svr4_to_bsd_flag1(c_lflag,E,CHO); svr4_to_bsd_flag1(c_lflag,E,CHOE); svr4_to_bsd_flag1(c_lflag,E,CHOK); svr4_to_bsd_flag1(c_lflag,E,CHONL); svr4_to_bsd_flag1(c_lflag,N,OFLSH); svr4_to_bsd_flag1(c_lflag,T,OSTOP); svr4_to_bsd_flag1(c_lflag,E,CHOCTL); svr4_to_bsd_flag1(c_lflag,E,CHOPRT); svr4_to_bsd_flag1(c_lflag,E,CHOKE); undefined_flag1(c_lflag,D,EFECHO); svr4_to_bsd_flag1(c_lflag,F,LUSHO); svr4_to_bsd_flag1(c_lflag,P,ENDIN); svr4_to_bsd_flag1(c_lflag,I,EXTEN); } static void bsd_to_svr4_termios(bt, st) const struct termios *bt; struct svr4_termios *st; { /* control characters */ /* * We process VMIN and VTIME first, * because they are shared with VEOF and VEOL */ bsd_to_svr4_char(V,MIN); bsd_to_svr4_char(V,TIME); bsd_to_svr4_char(V,INTR); bsd_to_svr4_char(V,QUIT); bsd_to_svr4_char(V,ERASE); bsd_to_svr4_char(V,KILL); bsd_to_svr4_char(V,EOF); bsd_to_svr4_char(V,EOL); bsd_to_svr4_char(V,EOL2); undefined_char(V,SWTCH); bsd_to_svr4_char(V,START); bsd_to_svr4_char(V,STOP); bsd_to_svr4_char(V,SUSP); bsd_to_svr4_char(V,DSUSP); bsd_to_svr4_char(V,REPRINT); bsd_to_svr4_char(V,DISCARD); bsd_to_svr4_char(V,WERASE); bsd_to_svr4_char(V,LNEXT); /* Input modes */ bsd_to_svr4_flag1(c_iflag,I,GNBRK); bsd_to_svr4_flag1(c_iflag,B,RKINT); bsd_to_svr4_flag1(c_iflag,I,GNPAR); bsd_to_svr4_flag1(c_iflag,P,ARMRK); bsd_to_svr4_flag1(c_iflag,I,NPCK); bsd_to_svr4_flag1(c_iflag,I,STRIP); bsd_to_svr4_flag1(c_iflag,I,NLCR); bsd_to_svr4_flag1(c_iflag,I,GNCR); bsd_to_svr4_flag1(c_iflag,I,CRNL); undefined_flag1(c_iflag,I,UCLC); bsd_to_svr4_flag1(c_iflag,I,XON); bsd_to_svr4_flag1(c_iflag,I,XANY); bsd_to_svr4_flag1(c_iflag,I,XOFF); bsd_to_svr4_flag1(c_iflag,I,MAXBEL); undefined_flag1(c_iflag,D,OSMODE); /* Output modes */ bsd_to_svr4_flag1(c_oflag,O,POST); undefined_flag1(c_oflag,O,LCUC); bsd_to_svr4_flag1(c_oflag,O,NLCR); undefined_flag1(c_oflag,O,CRNL); undefined_flag1(c_oflag,O,NOCR); undefined_flag1(c_oflag,O,NLRET); undefined_flag1(c_oflag,O,FILL); undefined_flag1(c_oflag,O,FDEL); undefined_flag2(c_oflag,N,LDLY,N,L0,N,L1); undefined_flag4(c_oflag,C,RDLY,C,R0,C,R1,C,R2,C,R3); undefined_flag4(c_oflag,T,ABDLY,T,AB0,T,AB1,T,AB2,T,AB3); undefined_flag2(c_oflag,B,SDLY,B,S0,B,S1); undefined_flag2(c_oflag,V,TDLY,V,T0,V,T1); undefined_flag2(c_oflag,F,FDLY,F,F0,F,F1); undefined_flag1(c_oflag,P,AGEOUT); undefined_flag1(c_oflag,W,RAP); /* Control modes */ st->c_cflag &= ~SVR4_CBAUD; st->c_cflag |= bsd_to_svr4_speed(bt->c_ospeed, SVR4_CBAUD); bsd_to_svr4_flag4(c_cflag,C,SIZE,C,S5,C,S6,C,S7,C,S8) bsd_to_svr4_flag1(c_cflag,C,STOPB); bsd_to_svr4_flag1(c_cflag,C,READ); bsd_to_svr4_flag1(c_cflag,P,ARENB); bsd_to_svr4_flag1(c_cflag,P,ARODD); bsd_to_svr4_flag1(c_cflag,H,UPCL); bsd_to_svr4_flag1(c_cflag,C,LOCAL); undefined_flag1(c_cflag,R,CV1EN); undefined_flag1(c_cflag,X,MT1EN); undefined_flag1(c_cflag,L,OBLK); undefined_flag1(c_cflag,X,CLUDE); st->c_cflag &= ~SVR4_CIBAUD; st->c_cflag |= bsd_to_svr4_speed(bt->c_ispeed, SVR4_CIBAUD); undefined_flag1(c_oflag,P,AREXT); /* line discipline modes */ bsd_to_svr4_flag1(c_lflag,I,SIG); bsd_to_svr4_flag1(c_lflag,I,CANON); undefined_flag1(c_lflag,X,CASE); bsd_to_svr4_flag1(c_lflag,E,CHO); bsd_to_svr4_flag1(c_lflag,E,CHOE); bsd_to_svr4_flag1(c_lflag,E,CHOK); bsd_to_svr4_flag1(c_lflag,E,CHONL); bsd_to_svr4_flag1(c_lflag,N,OFLSH); bsd_to_svr4_flag1(c_lflag,T,OSTOP); bsd_to_svr4_flag1(c_lflag,E,CHOCTL); bsd_to_svr4_flag1(c_lflag,E,CHOPRT); bsd_to_svr4_flag1(c_lflag,E,CHOKE); undefined_flag1(c_lflag,D,EFECHO); bsd_to_svr4_flag1(c_lflag,F,LUSHO); bsd_to_svr4_flag1(c_lflag,P,ENDIN); bsd_to_svr4_flag1(c_lflag,I,EXTEN); } static void svr4_termio_to_termios(t, ts) const struct svr4_termio *t; struct svr4_termios *ts; { int i; ts->c_iflag = (svr4_tcflag_t) t->c_iflag; ts->c_oflag = (svr4_tcflag_t) t->c_oflag; ts->c_cflag = (svr4_tcflag_t) t->c_cflag; ts->c_lflag = (svr4_tcflag_t) t->c_lflag; for (i = 0; i < SVR4_NCC; i++) ts->c_cc[i] = (svr4_cc_t) t->c_cc[i]; } static void svr4_termios_to_termio(ts, t) const struct svr4_termios *ts; struct svr4_termio *t; { int i; t->c_iflag = (u_short) ts->c_iflag; t->c_oflag = (u_short) ts->c_oflag; t->c_cflag = (u_short) ts->c_cflag; t->c_lflag = (u_short) ts->c_lflag; t->c_line = 0; /* XXX */ for (i = 0; i < SVR4_NCC; i++) t->c_cc[i] = (u_char) ts->c_cc[i]; } int svr4_term_ioctl(fp, td, retval, fd, cmd, data) struct file *fp; struct thread *td; register_t *retval; int fd; u_long cmd; caddr_t data; { struct termios bt; struct svr4_termios st; struct svr4_termio t; int error, new; *retval = 0; DPRINTF(("TERM ioctl %lx\n", cmd)); switch (cmd) { case SVR4_TCGETA: case SVR4_TCGETS: DPRINTF(("ioctl(TCGET%c);\n", cmd == SVR4_TCGETA ? 'A' : 'S')); if ((error = fo_ioctl(fp, TIOCGETA, (caddr_t) &bt, td->td_ucred, td)) != 0) return error; memset(&st, 0, sizeof(st)); bsd_to_svr4_termios(&bt, &st); #ifdef DEBUG_SVR4 print_bsd_termios(&bt); print_svr4_termios(&st); #endif /* DEBUG_SVR4 */ if (cmd == SVR4_TCGETA) { svr4_termios_to_termio(&st, &t); return copyout(&t, data, sizeof(t)); } else { return copyout(&st, data, sizeof(st)); } case SVR4_TCSETA: case SVR4_TCSETS: case SVR4_TCSETAW: case SVR4_TCSETSW: case SVR4_TCSETAF: case SVR4_TCSETSF: DPRINTF(("TCSET{A,S,AW,SW,AF,SF}\n")); /* get full BSD termios so we don't lose information */ if ((error = fo_ioctl(fp, TIOCGETA, (caddr_t) &bt, td->td_ucred, td)) != 0) return error; switch (cmd) { case SVR4_TCSETS: case SVR4_TCSETSW: case SVR4_TCSETSF: if ((error = copyin(data, &st, sizeof(st))) != 0) return error; new = 1; break; case SVR4_TCSETA: case SVR4_TCSETAW: case SVR4_TCSETAF: if ((error = copyin(data, &t, sizeof(t))) != 0) return error; svr4_termio_to_termios(&t, &st); new = 0; break; default: return EINVAL; } svr4_to_bsd_termios(&st, &bt, new); switch (cmd) { case SVR4_TCSETA: case SVR4_TCSETS: DPRINTF(("ioctl(TCSET[A|S]);\n")); cmd = TIOCSETA; break; case SVR4_TCSETAW: case SVR4_TCSETSW: DPRINTF(("ioctl(TCSET[A|S]W);\n")); cmd = TIOCSETAW; break; case SVR4_TCSETAF: case SVR4_TCSETSF: DPRINTF(("ioctl(TCSET[A|S]F);\n")); cmd = TIOCSETAF; break; } #ifdef DEBUG_SVR4 print_bsd_termios(&bt); print_svr4_termios(&st); #endif /* DEBUG_SVR4 */ return fo_ioctl(fp, cmd, (caddr_t) &bt, td->td_ucred, td); case SVR4_TIOCGWINSZ: DPRINTF(("TIOCGWINSZ\n")); { struct svr4_winsize ws; error = fo_ioctl(fp, TIOCGWINSZ, (caddr_t) &ws, td->td_ucred, td); if (error) return error; return copyout(&ws, data, sizeof(ws)); } case SVR4_TIOCSWINSZ: DPRINTF(("TIOCSWINSZ\n")); { struct svr4_winsize ws; if ((error = copyin(data, &ws, sizeof(ws))) != 0) return error; return fo_ioctl(fp, TIOCSWINSZ, (caddr_t) &ws, td->td_ucred, td); } default: DPRINTF(("teleport to STREAMS ioctls...\n")); return svr4_stream_ti_ioctl(fp, td, retval, fd, cmd, data); } }