version 1.1.1.1.2.10, 2011/10/17 09:28:19
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version 1.5, 2015/05/19 23:25:30
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Line 12 terms:
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Line 12 terms:
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All of the documentation and software included in the ELWIX and AITNET |
All of the documentation and software included in the ELWIX and AITNET |
Releases is copyrighted by ELWIX - Sofia/Bulgaria <info@elwix.org> |
Releases is copyrighted by ELWIX - Sofia/Bulgaria <info@elwix.org> |
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Copyright 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011 | Copyright 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2013 |
by Michael Pounov <misho@elwix.org>. All rights reserved. |
by Michael Pounov <misho@elwix.org>. All rights reserved. |
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Redistribution and use in source and binary forms, with or without |
Redistribution and use in source and binary forms, with or without |
Line 84 pktRx(sched_task_t *task)
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Line 84 pktRx(sched_task_t *task)
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FTRACE(3); |
FTRACE(3); |
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rlen = bpfLEN; |
rlen = bpfLEN; |
if (!(buf = malloc(rlen))) | if (!(buf = e_malloc(rlen))) |
goto end; |
goto end; |
else |
else |
memset(buf, 0, rlen); |
memset(buf, 0, rlen); |
Line 133 pktRx(sched_task_t *task)
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Line 133 pktRx(sched_task_t *task)
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proc->proc_rlen_[NET2FD] = rlen; |
proc->proc_rlen_[NET2FD] = rlen; |
memset(proc->proc_buf_[NET2FD], 0, proc->proc_blen); |
memset(proc->proc_buf_[NET2FD], 0, proc->proc_blen); |
memcpy(proc->proc_buf_[NET2FD], buf, proc->proc_rlen_[NET2FD]); |
memcpy(proc->proc_buf_[NET2FD], buf, proc->proc_rlen_[NET2FD]); |
schedWrite(TASK_ROOT(task), fdTx, proc, proc->proc_pty); | schedWrite(TASK_ROOT(task), fdTx, proc, proc->proc_pty, NULL, 0); |
end: |
end: |
free(buf); | e_free(buf); |
schedRead(TASK_ROOT(task), pktRx, NULL, proc ? proc->proc_sock : TASK_FD(task)); | schedRead(TASK_ROOT(task), pktRx, NULL, proc ? proc->proc_sock : TASK_FD(task), NULL, 0); |
return NULL; |
return NULL; |
} |
} |
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Line 144 void *
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Line 144 void *
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fdTx(sched_task_t *task) |
fdTx(sched_task_t *task) |
{ |
{ |
struct tagProc *proc; |
struct tagProc *proc; |
struct timeval tv = { 0 }; | struct timespec ts = { 0 }; |
int wlen; |
int wlen; |
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FTRACE(3); |
FTRACE(3); |
Line 159 fdTx(sched_task_t *task)
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Line 159 fdTx(sched_task_t *task)
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/* if Timeout defined, disarm timer */ |
/* if Timeout defined, disarm timer */ |
if (Timeout) |
if (Timeout) |
schedCancelby(TASK_ROOT(task), &TASK_ROOT(task)->root_timer, CRITERIA_CALL, TOfunc, NULL); | schedCancelby(TASK_ROOT(task), taskTIMER, CRITERIA_CALL, TOfunc, NULL); |
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wlen = write(TASK_FD(task), proc->proc_buf_[NET2FD], proc->proc_rlen_[NET2FD]); |
wlen = write(TASK_FD(task), proc->proc_buf_[NET2FD], proc->proc_rlen_[NET2FD]); |
switch (wlen) { |
switch (wlen) { |
Line 175 fdTx(sched_task_t *task)
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Line 175 fdTx(sched_task_t *task)
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/* if Timeout defined, go arm timer */ |
/* if Timeout defined, go arm timer */ |
if (Timeout) { |
if (Timeout) { |
tv.tv_sec = Timeout; | ts.tv_sec = Timeout; |
schedTimer(TASK_ROOT(task), TOfunc, proc, tv); | schedTimer(TASK_ROOT(task), TOfunc, proc, ts, NULL, 0); |
} |
} |
return NULL; |
return NULL; |
} |
} |
Line 185 void *
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Line 185 void *
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fdRx(sched_task_t *task) |
fdRx(sched_task_t *task) |
{ |
{ |
struct tagProc *proc; |
struct tagProc *proc; |
struct timeval tv = { 0 }; | struct timespec ts = { 0 }; |
int rlen; |
int rlen; |
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FTRACE(3); |
FTRACE(3); |
Line 198 fdRx(sched_task_t *task)
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Line 198 fdRx(sched_task_t *task)
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/* if Timeout defined, disarm timer */ |
/* if Timeout defined, disarm timer */ |
if (Timeout) |
if (Timeout) |
schedCancelby(TASK_ROOT(task), &TASK_ROOT(task)->root_timer, CRITERIA_CALL, TOfunc, NULL); | schedCancelby(TASK_ROOT(task), taskTIMER, CRITERIA_CALL, TOfunc, NULL); |
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memset(proc->proc_buf_[FD2NET], 0, proc->proc_blen); |
memset(proc->proc_buf_[FD2NET], 0, proc->proc_blen); |
rlen = read(TASK_FD(task), proc->proc_buf_[FD2NET], |
rlen = read(TASK_FD(task), proc->proc_buf_[FD2NET], |
Line 215 fdRx(sched_task_t *task)
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Line 215 fdRx(sched_task_t *task)
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} |
} |
VERB(3) LOG("Readed %d bytes - %s", rlen, proc->proc_buf_[FD2NET]); |
VERB(3) LOG("Readed %d bytes - %s", rlen, proc->proc_buf_[FD2NET]); |
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schedCallOnce(TASK_ROOT(task), pktTx, proc, proc->proc_sock); | schedCallOnce(TASK_ROOT(task), pktTx, proc, proc->proc_sock, NULL, 0); |
schedRead(TASK_ROOT(task), fdRx, proc, proc->proc_pty); | schedRead(TASK_ROOT(task), fdRx, proc, proc->proc_pty, NULL, 0); |
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/* if Timeout defined, go arm timer */ |
/* if Timeout defined, go arm timer */ |
if (Timeout) { |
if (Timeout) { |
tv.tv_sec = Timeout; | ts.tv_sec = Timeout; |
schedTimer(TASK_ROOT(task), TOfunc, proc, tv); | schedTimer(TASK_ROOT(task), TOfunc, proc, ts, NULL, 0); |
} |
} |
return NULL; |
return NULL; |
} |
} |
Line 230 int
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Line 230 int
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spawnLogin(sched_task_t *task, struct tagProc *proc) |
spawnLogin(sched_task_t *task, struct tagProc *proc) |
{ |
{ |
int flg; |
int flg; |
struct timeval tv = { 0 }; | struct timespec ts = { 0 }; |
char str[STRSIZ] = { 0 }; |
char str[STRSIZ] = { 0 }; |
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FTRACE(3); |
FTRACE(3); |
Line 245 spawnLogin(sched_task_t *task, struct tagProc *proc)
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Line 245 spawnLogin(sched_task_t *task, struct tagProc *proc)
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case 0: |
case 0: |
printf("anshd ELWIX remote management system (%s)\n\n", proc->proc_ttyname); |
printf("anshd ELWIX remote management system (%s)\n\n", proc->proc_ttyname); |
strlcpy(str, "-hansh@", sizeof str); |
strlcpy(str, "-hansh@", sizeof str); |
io_ether_ntoa((const struct io_ether_addr*) &proc->proc_ea, str + 7, 18); | e_ether_ntoa((const ether_addr_t*) &proc->proc_ea, str + 7, 18); |
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execl("/usr/bin/login", "login", str, NULL); |
execl("/usr/bin/login", "login", str, NULL); |
/* never reached */ |
/* never reached */ |
Line 255 spawnLogin(sched_task_t *task, struct tagProc *proc)
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Line 255 spawnLogin(sched_task_t *task, struct tagProc *proc)
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fcntl(proc->proc_pty, F_SETFL, flg | O_NONBLOCK); |
fcntl(proc->proc_pty, F_SETFL, flg | O_NONBLOCK); |
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VERB(3) LOG("Parent know child pid %d", proc->proc_pid); |
VERB(3) LOG("Parent know child pid %d", proc->proc_pid); |
schedRead(TASK_ROOT(task), fdRx, proc, proc->proc_pty); | schedRead(TASK_ROOT(task), fdRx, proc, proc->proc_pty, NULL, 0); |
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/* if Timeout defined, go arm timer */ |
/* if Timeout defined, go arm timer */ |
if (Timeout) { |
if (Timeout) { |
tv.tv_sec = Timeout; | ts.tv_sec = Timeout; |
schedTimer(TASK_ROOT(task), TOfunc, proc, tv); | schedTimer(TASK_ROOT(task), TOfunc, proc, ts, NULL, 0); |
} |
} |
break; |
break; |
} |
} |