/* * Copyright (c) 2000 Apple Computer, Inc. All rights reserved. * * @APPLE_LICENSE_HEADER_START@ * * The contents of this file constitute Original Code as defined in and * are subject to the Apple Public Source License Version 1.1 (the * "License"). You may not use this file except in compliance with the * License. Please obtain a copy of the License at * http://www.apple.com/publicsource and read it before using this file. * * This Original Code and all software distributed under the License are * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the * License for the specific language governing rights and limitations * under the License. * * @APPLE_LICENSE_HEADER_END@ */ /* * @OSF_COPYRIGHT@ */ /* * @APPLE_FREE_COPYRIGHT@ */ #include <mach_kdb.h> #include <platforms.h> #include <serial_console_default.h> #include <kern/spl.h> #include <machine/machparam.h> /* spl definitions */ #include <types.h> #include <console/video_console.h> #include <ppc/misc_protos.h> #include <ppc/serial_io.h> #include <kern/cpu_number.h> #include <ppc/Firmware.h> #include <ppc/proc_reg.h> #include <pexpert/pexpert.h> /* * A machine MUST have a console. In our case * things are a little complicated by the graphic * display: people expect it to be their "console", * but we'd like to be able to live without it. * This is not to be confused with the "rconsole" thing: * that just duplicates the console I/O to * another place (for debugging/logging purposes). */ const int console_unit = 0; const int console_chan_default = CONSOLE_PORT; #define console_chan (console_chan_default) /* ^ cpu_number()) */ #define OPS(putc, getc, nosplputc, nosplgetc) putc, getc const struct console_ops { int (*putc)(int, int, int); int (*getc)(int, int, boolean_t, boolean_t); } cons_ops[] = { #define SCC_CONS_OPS 0 {OPS(scc_putc, scc_getc, no_spl_scputc, no_spl_scgetc)}, #define VC_CONS_OPS 1 {OPS(vcputc, vcgetc, no_spl_vcputc, no_spl_vcgetc)}, }; #define NCONSOPS (sizeof cons_ops / sizeof cons_ops[0]) #if SERIAL_CONSOLE_DEFAULT #define CONS_OPS SCC_CONS_OPS #define CONS_NAME "com" #else #define CONS_OPS VC_CONS_OPS #define CONS_NAME "vc" #endif #define MP_SAFE_CONSOLE 1 /* Set this to 1 to allow more than 1 processor to print at once */ #if MP_SAFE_CONSOLE struct ppcbfr { /* Controls multiple processor output */ unsigned int pos; /* Current position in buffer */ unsigned int noprompt; /* Set if we skip the prompt */ unsigned int echo; /* Control character echoing */ char buffer[256]; /* Fairly big buffer */ }; typedef struct ppcbfr ppcbfr; ppcbfr cbfr[NCPUS]; /* Get one of these for each processor */ volatile unsigned int cbfpend; /* A buffer is pending output */ volatile unsigned int sconowner=-1; /* Mark who's actually writing */ #endif unsigned int cons_ops_index = CONS_OPS; unsigned int killprint = 0; unsigned int debcnputc = 0; extern unsigned int mappingdeb0; extern int debugger_holdoff[NCPUS]; extern int debugger_cpu; static void _cnputc(char c) { cons_ops[cons_ops_index].putc(console_unit, console_chan, c); } void cnputcusr(char c) { /* Echo input character directly */ unsigned int cpu; cpu = cpu_number(); hw_atomic_add(&debugger_holdoff[cpu], 1); /* Don't allow debugger entry just now (this is a HACK) */ _cnputc( c); /* Echo the character */ if(c=='\n') _cnputc( '\r'); /* Add a return if we had a new line */ hw_atomic_sub(&debugger_holdoff[cpu], 1); /* Don't allow debugger entry just now (this is a HACK) */ return; } void cnputc(char c) { unsigned int oldpend, i, cpu, ourbit, sccpu; spl_t s; #if MP_SAFE_CONSOLE /* * Handle multiple CPU console output. * Note: this thing has gotten god-awful complicated. We need a better way. */ if(killprint) { return; /* If printing is disabled, bail... */ } cpu = cpu_number(); hw_atomic_add(&debugger_holdoff[cpu], 1); /* Don't allow debugger entry just now (this is a HACK) */ ourbit = 1 << cpu; /* Make a mask for just us */ if(debugger_cpu != -1) { /* Are we in the debugger with empty buffers? */ while(sconowner != cpu) { /* Anyone but us? */ hw_compare_and_store(-1, cpu, (unsigned int *)&sconowner); /* Try to mark it for us if idle */ } _cnputc( c); /* Yeah, just write it */ if(c=='\n') /* Did we just write a new line? */ _cnputc( '\r'); /* Yeah, just add a return */ sconowner=-1; /* Mark it idle */ hw_atomic_sub(&debugger_holdoff[cpu], 1); /* Don't allow debugger entry just now (this is a HACK) */ return; /* Leave... */ } s=splhigh(); /* Don't bother me */ while(ourbit&cbfpend); /* We aren't "double buffered," so we'll just wait until the buffers are written */ isync(); /* Just in case we had to wait */ if(c) { /* If the character is not null */ cbfr[cpu].buffer[cbfr[cpu].pos]=c; /* Fill in the buffer for our CPU */ cbfr[cpu].pos++; /* Up the count */ if(cbfr[cpu].pos > 253) { /* Is the buffer full? */ cbfr[cpu].buffer[254]='\n'; /* Yeah, set the second to last as a LF */ cbfr[cpu].buffer[255]='\r'; /* And the last to a CR */ cbfr[cpu].pos=256; /* Push the buffer to the end */ c='\r'; /* Set character to a CR */ } } if(c == '\n') { /* Are we finishing a line? */ cbfr[cpu].buffer[cbfr[cpu].pos]='\r'; /* And the last to a CR */ cbfr[cpu].pos++; /* Up the count */ c='\r'; /* Set character to a CR */ } #if 1 if(cbfr[cpu].echo == 1) { /* Did we hit an escape last time? */ if(c == 'K') { /* Is it a partial clear? */ cbfr[cpu].echo = 2; /* Yes, enter echo mode */ } else cbfr[cpu].echo = 0; /* Otherwise reset escape */ } else if(cbfr[cpu].echo == 0) { /* Not in escape sequence, see if we should enter */ cbfr[cpu].echo = 1; /* Set that we are in escape sequence */ } #endif if((c == 0x00) || (c == '\r') || (cbfr[cpu].echo == 2)) { /* Try to push out all buffers if we see CR or null */ while(1) { /* Loop until we see who's doing this */ oldpend=cbfpend; /* Get the currentest pending buffer flags */ if(hw_compare_and_store(oldpend, oldpend|ourbit, (unsigned int *)&cbfpend)) /* Swap ours on if no change */ break; /* Bail the loop if it worked */ } if(!hw_compare_and_store(-1, cpu, (unsigned int *)&sconowner)) { /* See if someone else has this, and take it if not */ debugger_holdoff[cpu] = 0; /* Allow debugger entry (this is a HACK) */ splx(s); /* Let's take some 'rupts now */ return; /* We leave here, 'cause another processor is already writing the buffers */ } while(1) { /* Loop to dump out all of the finished buffers */ oldpend=cbfpend; /* Get the most current finished buffers */ for(sccpu=0; sccpu<NCPUS; sccpu++) { /* Cycle through all CPUs buffers */ if(oldpend&(1<<sccpu)) { /* Does this guy have a buffer to do? */ #if 0 if(!cbfr[sccpu].noprompt) { /* Don't prompt if there was not CR before */ _cnputc( '{'); /* Mark CPU number */ _cnputc( '0'+sccpu); /* Mark CPU number */ _cnputc( '.'); /* (TEST/DEBUG) */ _cnputc( '0'+cpu); /* (TEST/DEBUG) */ _cnputc( '}'); /* Mark CPU number */ _cnputc( ' '); /* Mark CPU number */ } #endif for(i=0; i<cbfr[sccpu].pos; i++) { /* Do the whole buffer */ _cnputc( cbfr[sccpu].buffer[i]); /* Write it */ } if(cbfr[sccpu].buffer[cbfr[sccpu].pos-1]!='\r') { /* Was the last character a return? */ cbfr[sccpu].noprompt = 1; /* Remember not to prompt */ } else { /* Last was a return */ cbfr[sccpu].noprompt = 0; /* Otherwise remember to prompt */ cbfr[sccpu].echo = 0; /* And clear echo */ } cbfr[sccpu].pos=0; /* Reset the buffer pointer */ while(!hw_compare_and_store(cbfpend, cbfpend&~(1<<sccpu), (unsigned int *)&cbfpend)); /* Swap it off */ } } sconowner=-1; /* Set the writer to idle */ sync(); /* Insure that everything's done */ if(hw_compare_and_store(0, 0, (unsigned int *)&cbfpend)) break; /* If there are no new buffers, we are done... */ if(!hw_compare_and_store(-1, cpu, (unsigned int *)&sconowner)) break; /* If this isn't idle anymore, we're done */ } } hw_atomic_sub(&debugger_holdoff[cpu], 1); /* Don't allow debugger entry just now (this is a HACK) */ splx(s); /* Let's take some 'rupts now */ #else /* MP_SAFE_CONSOLE */ _cnputc( c); if (c == '\n') _cnputc('\r'); #endif /* MP_SAFE_CONSOLE */ } int cngetc() { return cons_ops[cons_ops_index].getc(console_unit, console_chan, TRUE, FALSE); } int cnmaygetc() { return cons_ops[cons_ops_index].getc(console_unit, console_chan, FALSE, FALSE); } boolean_t console_is_serial() { return cons_ops_index == SCC_CONS_OPS; } int switch_to_video_console() { int old_cons_ops = cons_ops_index; cons_ops_index = VC_CONS_OPS; return old_cons_ops; } int switch_to_serial_console() { int old_cons_ops = cons_ops_index; cons_ops_index = SCC_CONS_OPS; return old_cons_ops; } /* The switch_to_{video,serial,kgdb}_console functions return a cookie that can be used to restore the console to whatever it was before, in the same way that splwhatever() and splx() work. */ void switch_to_old_console(int old_console) { static boolean_t squawked; unsigned int ops = old_console; if (ops >= NCONSOPS && !squawked) { squawked = TRUE; printf("switch_to_old_console: unknown ops %d\n", ops); } else cons_ops_index = ops; } int vcgetc(int l, int u, boolean_t wait, boolean_t raw) { char c; if( 0 == (*PE_poll_input)( 0, &c)) return( c); else return( 0); }