/*******************************************************************************
Copyright(C) Jonas 'Sortie' Termansen 2012, 2013, 2014, 2015, 2016.
This file is part of Sortix.
Sortix 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 3 of the License, or (at your option) any later
version.
Sortix 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
Sortix. If not, see .
logterminal.cpp
A simple terminal that writes to the kernel log.
*******************************************************************************/
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
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#include
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#include
#include
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#include
#include
#include
#include "logterminal.h"
#define CONTROL(x) (((x) - 64) & 127)
#define M_CONTROL(x) (128 + CONTROL(x))
namespace Sortix {
static const unsigned int SUPPORTED_TERMMODES = TERMMODE_KBKEY
| TERMMODE_UNICODE
| TERMMODE_SIGNAL
| TERMMODE_UTF8
| TERMMODE_LINEBUFFER
| TERMMODE_ECHO
| TERMMODE_NONBLOCK
| TERMMODE_TERMIOS
| TERMMODE_DISABLE;
static const int MODIFIER_ALT = 1 << 0;
static const int MODIFIER_LSHIFT = 1 << 1;
static const int MODIFIER_RSHIFT = 1 << 2;
static const int MODIFIER_LCONTROL = 1 << 3;
static const int MODIFIER_RCONTROL = 1 << 4;
static const int SEQUENCE_1IFMOD = 1 << 0;
static const int SEQUENCE_OSHORT = 1 << 1;
struct kbkey_sequence
{
const char* sequence;
int kbkey;
int flags;
};
static const struct kbkey_sequence kbkey_sequences[] =
{
{ "\e[A", KBKEY_UP, SEQUENCE_1IFMOD },
{ "\e[B", KBKEY_DOWN, SEQUENCE_1IFMOD},
{ "\e[C", KBKEY_RIGHT, SEQUENCE_1IFMOD },
{ "\e[D", KBKEY_LEFT, SEQUENCE_1IFMOD },
{ "\e[F", KBKEY_END, SEQUENCE_1IFMOD },
{ "\e[H", KBKEY_HOME, SEQUENCE_1IFMOD },
{ "\e[2~", KBKEY_INSERT, 0 },
{ "\e[3~", KBKEY_DELETE, 0 },
{ "\e[5~", KBKEY_PGUP, 0 },
{ "\e[6~", KBKEY_PGDOWN, 0 },
{ "\e[1P", KBKEY_F1, SEQUENCE_OSHORT },
{ "\e[1Q", KBKEY_F2, SEQUENCE_OSHORT },
{ "\e[1R", KBKEY_F3, SEQUENCE_OSHORT },
{ "\e[1S", KBKEY_F4, SEQUENCE_OSHORT },
{ "\e[15~", KBKEY_F5, 0 },
{ "\e[17~", KBKEY_F6, 0 },
{ "\e[18~", KBKEY_F7, 0 },
{ "\e[19~", KBKEY_F8, 0 },
{ "\e[20~", KBKEY_F9, 0 },
{ "\e[21~", KBKEY_F10, 0 },
{ "\e[23~", KBKEY_F11, 0 },
{ "\e[24~", KBKEY_F12, 0 },
};
static inline bool IsByteUnescaped(unsigned char byte)
{
return (32 <= byte && byte != 127) ||
byte == '\t' || byte == '\n' || byte == '\r';
}
static inline bool IsUTF8Continuation(unsigned char byte)
{
return (byte & 0b11000000) == 0b10000000;
}
static inline const struct kbkey_sequence* LookupKeystrokeSequence(int kbkey)
{
size_t count = sizeof(kbkey_sequences) / sizeof(kbkey_sequences[0]);
for ( size_t i = 0; i < count; i++ )
if ( kbkey_sequences[i].kbkey == kbkey )
return &kbkey_sequences[i];
return NULL;
}
LogTerminal::LogTerminal(dev_t dev, mode_t mode, uid_t owner, gid_t group,
Keyboard* keyboard, KeyboardLayoutExecutor* kblayout)
{
inode_type = INODE_TYPE_TTY;
this->dev = dev;
this->ino = (ino_t) this;
this->type = S_IFCHR;
this->stat_mode = (mode & S_SETABLE) | this->type;
this->stat_uid = owner;
this->stat_gid = group;
this->keyboard = keyboard;
this->kblayout = kblayout;
this->modifiers = 0;
memset(&tio, 0, sizeof(tio));
tio.c_iflag = BRKINT | ICRNL | IXANY | IXON;
tio.c_oflag = OPOST;
tio.c_cflag = CS8 /*| CREAD*/ | HUPCL; // CREAD unset for boot security.
tio.c_lflag = ECHO | ECHOE | ECHOK | ICANON | IEXTEN | ISIG;
tio.c_cc[VEOF] = CONTROL('D');
tio.c_cc[VEOL] = M_CONTROL('?');
tio.c_cc[VERASE] = CONTROL('?');
tio.c_cc[VINTR] = CONTROL('C');
tio.c_cc[VKILL] = CONTROL('U');
tio.c_cc[VMIN] = 1;
tio.c_cc[VQUIT] = CONTROL('\\');
tio.c_cc[VSTART] = CONTROL('Q');
tio.c_cc[VSTOP] = CONTROL('S');
tio.c_cc[VSUSP] = CONTROL('Z');
tio.c_cc[VTIME] = 0;
tio.c_cc[VWERASE] = CONTROL('W');
tio.c_ispeed = B38400;
tio.c_ospeed = B38400;
this->termlock = KTHREAD_MUTEX_INITIALIZER;
this->datacond = KTHREAD_COND_INITIALIZER;
this->numeofs = 0;
this->foreground_pgid = 0;
keyboard->SetOwner(this, NULL);
}
LogTerminal::~LogTerminal()
{
delete keyboard;
delete kblayout;
}
int LogTerminal::settermmode(ioctx_t* /*ctx*/, unsigned int termmode)
{
ScopedLock lock(&termlock);
if ( !RequireForeground(SIGTTOU) )
return errno = EINTR, -1;
if ( termmode & ~SUPPORTED_TERMMODES )
return errno = EINVAL, -1;
tcflag_t old_cflag = tio.c_cflag;
tcflag_t new_cflag = old_cflag;
tcflag_t old_lflag = tio.c_lflag;
tcflag_t new_lflag = old_lflag;
if ( termmode & TERMMODE_KBKEY )
new_lflag |= ISORTIX_KBKEY;
else
new_lflag &= ~ISORTIX_KBKEY;
if ( !(termmode & TERMMODE_UNICODE) )
new_lflag |= ISORTIX_CHARS_DISABLE;
else
new_lflag &= ~ISORTIX_CHARS_DISABLE;
if ( termmode & TERMMODE_SIGNAL )
new_lflag |= ISIG;
else
new_lflag &= ~ISIG;
if ( !(termmode & TERMMODE_UTF8) )
new_lflag |= ISORTIX_32BIT;
else
new_lflag &= ~ISORTIX_32BIT;
if ( termmode & TERMMODE_LINEBUFFER )
new_lflag |= ICANON;
else
new_lflag &= ~ICANON;
if ( termmode & TERMMODE_ECHO )
new_lflag |= ECHO | ECHOE;
else
new_lflag &= ~(ECHO | ECHOE);
if ( termmode & TERMMODE_NONBLOCK )
new_lflag |= ISORTIX_NONBLOCK;
else
new_lflag &= ~ISORTIX_NONBLOCK;
if ( !(termmode & TERMMODE_TERMIOS) )
new_lflag |= ISORTIX_TERMMODE;
else
new_lflag &= ~ISORTIX_TERMMODE;
if ( !(termmode & TERMMODE_DISABLE) )
new_cflag |= CREAD;
else
new_cflag &= ~CREAD;
bool oldnoutf8 = old_lflag & ISORTIX_32BIT;
bool newnoutf8 = new_lflag & ISORTIX_32BIT;
if ( oldnoutf8 != newnoutf8 )
memset(&read_ps, 0, sizeof(read_ps));
tio.c_cflag = new_cflag;
tio.c_lflag = new_lflag;
if ( !(tio.c_lflag & ICANON) )
CommitLineBuffer();
return 0;
}
int LogTerminal::gettermmode(ioctx_t* ctx, unsigned int* mode)
{
ScopedLock lock(&termlock);
unsigned int termmode = 0;
if ( tio.c_lflag & ISORTIX_KBKEY )
termmode |= TERMMODE_KBKEY;
if ( !(tio.c_lflag & ISORTIX_CHARS_DISABLE) )
termmode |= TERMMODE_UNICODE;
if ( tio.c_lflag & ISIG )
termmode |= TERMMODE_SIGNAL;
if ( !(tio.c_lflag & ISORTIX_32BIT) )
termmode |= TERMMODE_UTF8;
if ( tio.c_lflag & ICANON )
termmode |= TERMMODE_LINEBUFFER;
if ( tio.c_lflag & (ECHO | ECHOE) )
termmode |= TERMMODE_ECHO;
if ( tio.c_lflag & ISORTIX_NONBLOCK )
termmode |= TERMMODE_NONBLOCK;
if ( !(tio.c_lflag & ISORTIX_TERMMODE) )
termmode |= TERMMODE_TERMIOS;
if ( !(tio.c_cflag & CREAD) )
termmode |= TERMMODE_DISABLE;
if ( !ctx->copy_to_dest(mode, &termmode, sizeof(termmode)) )
return -1;
return 0;
}
int LogTerminal::tcgetwincurpos(ioctx_t* ctx, struct wincurpos* wcp)
{
ScopedLock lock(&termlock);
struct wincurpos retwcp;
memset(&retwcp, 0, sizeof(retwcp));
size_t cursor_column, cursor_row;
Log::GetCursor(&cursor_column, &cursor_row);
retwcp.wcp_col = cursor_column;
retwcp.wcp_row = cursor_row;
if ( !ctx->copy_to_dest(wcp, &retwcp, sizeof(retwcp)) )
return -1;
return 0;
}
int LogTerminal::tcgetwinsize(ioctx_t* ctx, struct winsize* ws)
{
ScopedLock lock(&termlock);
struct winsize retws;
memset(&retws, 0, sizeof(retws));
retws.ws_col = Log::Width();
retws.ws_row = Log::Height();
if ( !ctx->copy_to_dest(ws, &retws, sizeof(retws)) )
return -1;
return 0;
}
int LogTerminal::tcsetpgrp(ioctx_t* /*ctx*/, pid_t pgid)
{
ScopedLock lock(&termlock);
if ( !RequireForeground(SIGTTOU) )
return errno = EINTR, -1;
if ( pgid <= 0 )
return errno = ESRCH, -1;
Process* process = CurrentProcess()->GetPTable()->Get(pgid);
if ( !process )
return errno = ESRCH, -1;
kthread_mutex_lock(&process->groupparentlock);
bool is_process_group = process->group == process;
kthread_mutex_unlock(&process->groupparentlock);
if ( !is_process_group )
return errno = EINVAL, -1;
foreground_pgid = pgid;
return 0;
}
pid_t LogTerminal::tcgetpgrp(ioctx_t* /*ctx*/)
{
ScopedLock lock(&termlock);
return foreground_pgid;
}
int LogTerminal::sync(ioctx_t* /*ctx*/)
{
ScopedLock lock(&termlock);
return Log::Sync() ? 0 : -1;
}
void LogTerminal::OnKeystroke(Keyboard* kb, void* /*user*/)
{
ScopedLock lock(&termlock);
while ( kb->HasPending() )
{
int kbkey = kb->Read();
if ( kbkey == KBKEY_LALT )
modifiers |= MODIFIER_ALT;
else if ( kbkey == -KBKEY_LALT )
modifiers &= ~MODIFIER_ALT;
else if ( kbkey == KBKEY_LSHIFT )
modifiers |= MODIFIER_LSHIFT;
else if ( kbkey == -KBKEY_LSHIFT )
modifiers &= ~MODIFIER_LSHIFT;
else if ( kbkey == KBKEY_RSHIFT )
modifiers |= MODIFIER_RSHIFT;
else if ( kbkey == -KBKEY_RSHIFT )
modifiers &= ~MODIFIER_RSHIFT;
else if ( kbkey == KBKEY_LCTRL )
modifiers |= MODIFIER_LCONTROL;
else if ( kbkey == -KBKEY_LCTRL )
modifiers &= ~MODIFIER_LCONTROL;
else if ( kbkey == KBKEY_RCTRL )
modifiers |= MODIFIER_RCONTROL;
else if ( kbkey == -KBKEY_RCTRL )
modifiers &= ~MODIFIER_RCONTROL;
uint32_t unicode = kblayout->Translate(kbkey);
if ( !(tio.c_cflag & CREAD) )
continue;
ProcessKeystroke(kbkey);
if ( !unicode )
continue;
if ( unicode == '\n' )
unicode = '\r';
bool control = modifiers & (MODIFIER_LCONTROL | MODIFIER_RCONTROL);
if ( !(tio.c_cflag & ISORTIX_TERMMODE) && unicode == '\b' )
unicode = 127;
if ( control && unicode == L' ' )
ProcessByte(0, unicode);
else if ( control && (L'`' <= unicode && unicode <= L'}') )
ProcessByte(unicode - L'`', unicode);
else if ( control && (L'@' <= unicode && unicode <= L'_') )
ProcessByte(unicode - L'@', unicode);
else if ( control && unicode == L'?' )
ProcessByte(127, unicode);
else
ProcessUnicode(unicode);
}
}
void LogTerminal::ProcessKeystroke(int kbkey)
{
if ( tio.c_lflag & ISORTIX_32BIT )
{
if ( tio.c_lflag & ISORTIX_KBKEY )
{
uint32_t unikbkey = KBKEY_ENCODE(kbkey);
if ( !linebuffer.Push(unikbkey) )
return;
if ( !(tio.c_lflag & ICANON) )
CommitLineBuffer();
}
return;
}
if ( kbkey < 0 )
return;
const struct kbkey_sequence* seq = LookupKeystrokeSequence(kbkey);
if ( !seq )
return;
const char* str = seq->sequence;
size_t len = strlen(str);
int mods = 0;
if ( modifiers & (MODIFIER_LSHIFT | MODIFIER_RSHIFT) )
mods |= 1;
if ( modifiers & MODIFIER_ALT )
mods |= 2;
if ( modifiers & (MODIFIER_LCONTROL | MODIFIER_RCONTROL) )
mods |= 4;
if ( (seq->flags & SEQUENCE_OSHORT) && mods == 0 )
{
ProcessByte('\e');
ProcessByte('O');
ProcessByte((unsigned char) str[len-1]);
return;
}
for ( size_t i = 0; i < len - 1; i++ )
ProcessByte((unsigned char) str[i]);
if ( seq->flags & SEQUENCE_1IFMOD && mods != 0 )
ProcessByte('1');
if ( mods )
{
ProcessByte(';');
ProcessByte('1' + mods);
}
ProcessByte(str[len-1]);
}
void LogTerminal::ProcessString(const char* string)
{
for ( size_t i = 0; string[i]; i++ )
ProcessByte((unsigned char) string[i]);
}
void LogTerminal::ProcessUnicode(uint32_t unicode)
{
mbstate_t ps;
memset(&ps, 0, sizeof(ps));
char mb[MB_CUR_MAX];
size_t amount = wcrtomb(mb, unicode, &ps);
for ( size_t i = 0; amount != (size_t) -1 && i < amount; i++ )
ProcessByte((unsigned char) mb[i]);
}
bool LogTerminal::CheckHandledByte(tcflag_t lflags,
unsigned char key,
unsigned char byte)
{
return (tio.c_lflag & lflags) == lflags && key && key == byte;
}
void LogTerminal::ProcessByte(unsigned char byte, uint32_t control_unicode)
{
if ( byte == '\r' && tio.c_iflag & IGNCR )
return;
if ( byte == '\r' && tio.c_iflag & ICRNL )
byte = '\n';
else if ( byte == '\n' && tio.c_iflag & INLCR )
byte = '\r';
// TODO: tio.c_cc[VEOL]
// TODO: tio.c_cc[VSTART]
// TODO: tio.c_cc[VSTOP]
// TODO: tio.c_cc[VSUSP]
if ( CheckHandledByte(ISIG, tio.c_cc[VQUIT], byte) )
{
while ( linebuffer.CanBackspace() )
linebuffer.Backspace();
if ( Process* process = CurrentProcess()->GetPTable()->Get(foreground_pgid) )
process->DeliverGroupSignal(SIGQUIT);
return;
}
if ( CheckHandledByte(ISIG, tio.c_cc[VINTR], byte) )
{
while ( linebuffer.CanBackspace() )
linebuffer.Backspace();
if ( Process* process = CurrentProcess()->GetPTable()->Get(foreground_pgid) )
process->DeliverGroupSignal(SIGINT);
return;
}
if ( CheckHandledByte(ISIG | ICANON, tio.c_cc[VEOF], byte) )
{
if ( !linebuffer.CanPop() )
{
numeofs++;
kthread_cond_broadcast(&datacond);
poll_channel.Signal(POLLIN | POLLRDNORM);
}
return;
}
if ( CheckHandledByte(ISIG, tio.c_cc[VQUIT], byte) )
{
while ( linebuffer.CanBackspace() )
linebuffer.Backspace();
if ( Process* process = CurrentProcess()->GetPTable()->Get(foreground_pgid) )
process->DeliverGroupSignal(SIGQUIT);
return;
}
if ( CheckHandledByte(ICANON, tio.c_cc[VERASE], byte) ||
CheckHandledByte(ICANON | ISORTIX_TERMMODE, '\b', byte) )
{
while ( linebuffer.CanBackspace() )
{
uint32_t delchar = linebuffer.Backspace();
if ( 256 <= delchar )
continue;
if ( IsUTF8Continuation(delchar) )
continue;
if ( tio.c_lflag & ECHOE )
{
// TODO: Handle tab specially. (Is that even possible without
// knowing cursor position?).
Log::Print("\b \b");
if ( !IsByteUnescaped(delchar) )
Log::Print("\b \b");
}
break;
}
return;
}
if ( CheckHandledByte(ICANON, tio.c_cc[VWERASE], byte) )
{
bool had_non_whitespace = false;
while ( linebuffer.CanBackspace() )
{
uint32_t delchar = linebuffer.WouldBackspace();
if ( 256 <= delchar )
continue;
if ( IsUTF8Continuation(delchar) )
continue;
if ( delchar == L' ' || delchar == L'\t' || delchar == L'\n' )
{
if ( had_non_whitespace )
break;
}
else
had_non_whitespace = true;
linebuffer.Backspace();
if ( tio.c_lflag & ECHOE )
{
Log::Print("\b \b");
if ( !IsByteUnescaped(delchar) )
Log::Print("\b \b");
}
}
return;
}
if ( CheckHandledByte(ICANON, tio.c_cc[VKILL], byte) )
{
while ( linebuffer.CanBackspace() )
{
uint32_t delchar = linebuffer.Backspace();
if ( 256 <= delchar )
continue;
if ( IsUTF8Continuation(delchar) )
continue;
if ( tio.c_lflag & ECHOE )
{
Log::Print("\b \b");
if ( !IsByteUnescaped(delchar) )
Log::Print("\b \b");
}
}
return;
}
if ( CheckHandledByte(ICANON | ISORTIX_TERMMODE, CONTROL('L'), byte) )
{
while ( linebuffer.CanBackspace() )
linebuffer.Backspace();
ProcessUnicode(KBKEY_ENCODE(KBKEY_ENTER));
ProcessByte('\n');
ProcessUnicode(KBKEY_ENCODE(-KBKEY_ENTER));
Log::PrintF("\e[H\e[2J");
return;
}
if ( tio.c_lflag & ISORTIX_CHARS_DISABLE )
return;
if ( control_unicode &&
!(tio.c_lflag & (ICANON | ISIG)) &&
tio.c_lflag & ISORTIX_KBKEY )
{
ProcessUnicode(control_unicode);
return;
}
if ( !linebuffer.Push(byte) )
return;
if ( tio.c_lflag & ECHO )
{
if ( IsByteUnescaped(byte) )
Log::PrintData(&byte, 1);
else
Log::PrintF("^%c", CONTROL(byte));
}
if ( !(tio.c_lflag & ICANON) || byte == '\n' )
CommitLineBuffer();
}
void LogTerminal::CommitLineBuffer()
{
linebuffer.Commit();
if ( linebuffer.CanPop() || numeofs )
{
kthread_cond_broadcast(&datacond);
poll_channel.Signal(POLLIN | POLLRDNORM);
}
}
ssize_t LogTerminal::read(ioctx_t* ctx, uint8_t* userbuf, size_t count)
{
ScopedLockSignal lock(&termlock);
if ( !lock.IsAcquired() )
return errno = EINTR, -1;
if ( !RequireForeground(SIGTTIN) )
return errno = EINTR, -1;
size_t sofar = 0;
size_t left = count;
bool nonblocking = tio.c_lflag & ISORTIX_NONBLOCK ||
ctx->dflags & O_NONBLOCK;
while ( left )
{
while ( !(linebuffer.CanPop() || numeofs) )
{
if ( sofar )
return sofar;
if ( nonblocking )
return errno = EWOULDBLOCK, -1;
if ( !kthread_cond_wait_signal(&datacond, &termlock) )
return errno = EINTR, -1;
if ( !RequireForeground(SIGTTIN) )
return errno = EINTR, -1;
}
if ( numeofs )
{
if ( sofar )
return sofar;
return numeofs--, 0;
}
uint32_t codepoint = linebuffer.Peek();
if ( tio.c_lflag & ISORTIX_32BIT )
{
if ( left < sizeof(codepoint) )
return sofar;
linebuffer.Pop();
if ( 256 <= codepoint && !(tio.c_lflag & ISORTIX_KBKEY) )
continue;
if ( codepoint < 256 && tio.c_lflag & ISORTIX_CHARS_DISABLE )
continue;
if ( codepoint < 256 )
{
char c = codepoint;
wchar_t wc;
size_t amount = mbrtowc(&wc, &c, 1, &read_ps);
if ( amount == (size_t) -2 )
continue;
if ( amount == (size_t) -1 )
{
memset(&read_ps, 0, sizeof(read_ps));
wc = 0xFFFD; /* REPLACEMENT CHARACTER */
}
codepoint = wc;
}
if ( !ctx->copy_to_dest(userbuf + sofar, &codepoint,
sizeof(codepoint)) )
return sofar ? sofar : -1;
left -= sizeof(codepoint);
sofar += sizeof(codepoint);
continue;
}
if ( 256 <= codepoint )
{
linebuffer.Pop();
continue;
}
unsigned char c = codepoint;
if ( !ctx->copy_to_dest(userbuf + sofar, &c, 1) )
return sofar ? sofar : -1;
linebuffer.Pop();
left -= 1;
sofar += 1;
if ( tio.c_lflag & ICANON && c == '\n' )
break;
}
return sofar;
}
ssize_t LogTerminal::write(ioctx_t* ctx, const uint8_t* io_buffer, size_t count)
{
ScopedLockSignal lock(&termlock);
if ( tio.c_lflag & TOSTOP && !RequireForeground(SIGTTOU) )
return errno = EINTR, -1;
// TODO: Add support for ioctx to the kernel log.
const size_t BUFFER_SIZE = 64UL;
char buffer[BUFFER_SIZE];
size_t sofar = 0;
while ( sofar < count )
{
size_t amount = count - sofar;
if ( BUFFER_SIZE < amount )
amount = BUFFER_SIZE;
if ( !ctx->copy_from_src(buffer, io_buffer + sofar, amount) )
return -1;
Log::PrintData(buffer, amount);
sofar += amount;
if ( sofar < count )
{
kthread_mutex_unlock(&termlock);
kthread_yield();
kthread_mutex_lock(&termlock);
if ( Signal::IsPending() )
return sofar;
}
}
return (ssize_t) sofar;
}
short LogTerminal::PollEventStatus()
{
short status = 0;
if ( linebuffer.CanPop() || numeofs )
status |= POLLIN | POLLRDNORM;
if ( true /* can always write */ )
status |= POLLOUT | POLLWRNORM;
return status;
}
int LogTerminal::poll(ioctx_t* /*ctx*/, PollNode* node)
{
ScopedLockSignal lock(&termlock);
short ret_status = PollEventStatus() & node->events;
if ( ret_status )
{
node->master->revents |= ret_status;
return 0;
}
poll_channel.Register(node);
return errno = EAGAIN, -1;
}
ssize_t LogTerminal::tcgetblob(ioctx_t* ctx, const char* name, void* buffer, size_t count)
{
if ( !name )
{
static const char index[] = "kblayout\0";
size_t index_size = sizeof(index) - 1;
if ( buffer && count < index_size )
return errno = ERANGE, -1;
if ( buffer && !ctx->copy_to_dest(buffer, &index, index_size) )
return -1;
return (ssize_t) index_size;
}
else if ( !strcmp(name, "kblayout") )
{
ScopedLockSignal lock(&termlock);
const uint8_t* data;
size_t size;
if ( !kblayout->Download(&data, &size) )
return -1;
if ( buffer && count < size )
return errno = ERANGE, -1;
if ( buffer && !ctx->copy_to_dest(buffer, data, size) )
return -1;
return (ssize_t) size;
}
else
return errno = ENOENT, -1;
}
ssize_t LogTerminal::tcsetblob(ioctx_t* ctx, const char* name, const void* buffer, size_t count)
{
if ( !name )
return errno = EPERM, -1;
else if ( !strcmp(name, "kblayout") )
{
uint8_t* data = new uint8_t[count];
if ( !data )
return -1;
if ( !ctx->copy_from_src(data, buffer, count) )
return -1;
ScopedLockSignal lock(&termlock);
if ( !kblayout->Upload(data, count) )
return -1;
delete[] data;
return (ssize_t) count;
}
else
return errno = ENOENT, -1;
}
int LogTerminal::tcdrain(ioctx_t* /*ctx*/)
{
ScopedLockSignal lock(&termlock);
if ( !RequireForeground(SIGTTOU) )
return errno = EINTR, -1;
return 0;
}
int LogTerminal::tcflow(ioctx_t* /*ctx*/, int action)
{
ScopedLockSignal lock(&termlock);
if ( !RequireForeground(SIGTTOU) )
return errno = EINTR, -1;
switch ( action )
{
case TCOOFF: break; // TODO: Suspend output.
case TCOON: break; // TODO: Resume suspended output.
case TCIOFF: break; // TODO: Transmit STOP character.
case TCION: break; // TODO: Transmit START character.
default: return errno = EINVAL -1;
}
return 0;
}
int LogTerminal::tcflush(ioctx_t* /*ctx*/, int queue_selector)
{
if ( queue_selector & ~TCIOFLUSH )
return errno = EINVAL, -1;
ScopedLockSignal lock(&termlock);
if ( !RequireForeground(SIGTTOU) )
return errno = EINTR, -1;
if ( queue_selector & TCIFLUSH )
linebuffer.Flush();
return 0;
}
int LogTerminal::tcgetattr(ioctx_t* ctx, struct termios* io_tio)
{
ScopedLockSignal lock(&termlock);
if ( !ctx->copy_to_dest(io_tio, &tio, sizeof(tio)) )
return -1;
return 0;
}
pid_t LogTerminal::tcgetsid(ioctx_t* /*ctx*/)
{
// TODO: Implement sessions.
return 1;
}
int LogTerminal::tcsendbreak(ioctx_t* /*ctx*/, int /*duration*/)
{
ScopedLockSignal lock(&termlock);
if ( !RequireForeground(SIGTTOU) )
return errno = EINTR, -1;
return 0;
}
int LogTerminal::tcsetattr(ioctx_t* ctx, int actions, const struct termios* io_tio)
{
ScopedLockSignal lock(&termlock);
if ( !RequireForeground(SIGTTOU) )
return errno = EINTR, -1;
switch ( actions )
{
case TCSANOW: break;
case TCSADRAIN: break;
case TCSAFLUSH: linebuffer.Flush(); break;
default: return errno = EINVAL, -1;
}
if ( !ctx->copy_from_src(&tio, io_tio, sizeof(tio)) )
return -1;
// TODO: Potentially take action here if something changed.
return 0;
}
bool LogTerminal::RequireForeground(int sig)
{
Thread* thread = CurrentThread();
Process* process = thread->process;
ScopedLock group_lock(&process->groupparentlock);
if ( process->group->pid == foreground_pgid )
return true;
if ( sigismember(&thread->signal_mask, sig) )
return true;
ScopedLock signal_lock(&process->signal_lock);
if ( process->signal_actions[sig].sa_handler == SIG_IGN )
return true;
signal_lock.Reset();
group_lock.Reset();
process->group->DeliverGroupSignal(sig);
return false;
}
} // namespace Sortix