/* * Creation Date: <2003/10/18 13:24:29 samuel> * Time-stamp: <2004/03/27 02:00:30 samuel> * * * * Misc device node methods * * Copyright (C) 2003, 2004 Samuel Rydh (samuel@ibrium.se) * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * version 2 * */ #include "config.h" #include "libopenbios/bindings.h" #include "libc/string.h" #include "mol/mol.h" #include "libopenbios/ofmem.h" #include "mol/prom.h" #include "osi_calls.h" #include "kbd_sh.h" /************************************************************************/ /* Power Management */ /************************************************************************/ DECLARE_NODE( powermgt, INSTALL_OPEN, 0, "/pci/pci-bridge/mac-io/power-mgt" ); /* ( -- ) */ static void set_hybernot_flag( void ) { } NODE_METHODS( powermgt ) = { { "set-hybernot-flag", set_hybernot_flag }, }; /************************************************************************/ /* RTAS (run-time abstraction services) */ /************************************************************************/ DECLARE_NODE( rtas, INSTALL_OPEN, 0, "+/rtas" ); /* ( physbase -- rtas_callback ) */ static void rtas_instantiate( void ) { int physbase = POP(); int s=0x1000, size = (int)of_rtas_end - (int)of_rtas_start; unsigned long virt; while( s < size ) s += 0x1000; virt = ofmem_claim_virt( 0, s, 0x1000 ); ofmem_map( physbase, virt, s, -1 ); memcpy( (char*)virt, of_rtas_start, size ); printk("RTAS instantiated at %08x\n", physbase ); flush_icache_range( (char*)virt, (char*)virt + size ); PUSH( physbase ); } NODE_METHODS( rtas ) = { { "instantiate", rtas_instantiate }, { "instantiate-rtas", rtas_instantiate }, }; /************************************************************************/ /* stdout */ /************************************************************************/ DECLARE_NODE( video_stdout, INSTALL_OPEN, 0, "Tdisplay" ); /* ( addr len -- actual ) */ static void stdout_write( void ) { int len = POP(); char *addr = (char*)POP(); /* printk( "%s", s ); */ console_draw_fstr(addr, len); PUSH( len ); } NODE_METHODS( video_stdout ) = { { "write", stdout_write }, }; /************************************************************************/ /* tty */ /************************************************************************/ DECLARE_NODE( tty, INSTALL_OPEN, 0, "+/mol/mol-tty" ); /* ( addr len -- actual ) */ static void tty_read( void ) { int ch, len = POP(); char *p = (char*)POP(); int ret=0; if( len > 0 ) { ret = 1; ch = OSI_TTYGetc(); if( ch >= 0 ) { *p = ch; } else { ret = 0; OSI_USleep(1); } } PUSH( ret ); } /* ( addr len -- actual ) */ static void tty_write( void ) { int i, len = POP(); char *p = (char*)POP(); for( i=0; i" /* 0x30 */ "\t <\b \e " /* 0x40 */ " . * + / - " /* 0x50 */ " =01234567 89 " /* 0x60 */ " " /* 0x70 */ " "; DECLARE_NODE( kbd, INSTALL_OPEN, sizeof(kbd_state_t), "/psuedo-hid/keyboard", "/mol/mol-keyboard", "/mol/keyboard" ); /* ( -- keymap ) (?) */ /* should return a pointer to an array with 32 bytes (256 bits) */ static void kbd_get_key_map( kbd_state_t *ks ) { /* printk("met_kbd_get_key_map\n"); */ /* keytable[5] = 0x40; */ PUSH( (int)ks->keytable ); } /* ( buf len --- actlen ) */ static void kbd_read( kbd_state_t *ks ) { int ret=0, len = POP(); char *p = (char*)POP(); int key; if( !p || !len ) { PUSH( -1 ); return; } if( ks->save_key ) { *p = ks->save_key; ks->save_key = 0; RET( 1 ); } OSI_USleep(1); /* be nice */ for( ; (key=OSI_GetAdbKey()) >= 0 ; ) { int code = (key & 0x7f); int down = !(key & 0x80); if( code == 0x36 /* ctrl */ ) { ks->cntrl = down; continue; } if( code == 0x38 /* shift */ || code == 0x7b) { ks->shift = down; continue; } if( code == 0x37 /* command */ ) { ks->meta = down; continue; } if( code == 0x3a /* alt */ ) { ks->alt = down; continue; } if( !down ) continue; ret = 1; if( ks->shift ) key = adb_shift_table[ key & 0x7f ]; else key = adb_ascii_table[ key & 0x7f ]; if( ks->meta ) { ks->save_key = key; key = 27; } else if( ks->cntrl ) { key = key - 'a' + 1; } *p = key; if( !*p ) *p = 'x'; break; } PUSH( ret ); } NODE_METHODS( kbd ) = { { "read", kbd_read }, { "get-key-map", kbd_get_key_map }, }; /************************************************************************/ /* client interface 'quiesce' */ /************************************************************************/ DECLARE_NODE( ciface, 0, 0, "/packages/client-iface" ); /* ( -- ) */ static void ciface_quiesce( unsigned long args[], unsigned long ret[] ) { #if 0 unsigned long msr; /* This seems to be the correct thing to do - but I'm not sure */ asm volatile("mfmsr %0" : "=r" (msr) : ); msr &= ~(MSR_IR | MSR_DR); asm volatile("mtmsr %0" :: "r" (msr) ); #endif printk("=============================================================\n\n"); prom_close(); OSI_KbdCntrl( kKbdCntrlSuspend ); } /* ( -- ms ) */ static void ciface_milliseconds( unsigned long args[], unsigned long ret[] ) { static unsigned long mticks=0, usecs=0; unsigned long t; asm volatile("mftb %0" : "=r" (t) : ); if( mticks ) usecs += OSI_MticksToUsecs( t-mticks ); mticks = t; PUSH( usecs/1000 ); } NODE_METHODS( ciface ) = { { "quiesce", ciface_quiesce }, { "milliseconds", ciface_milliseconds }, }; /************************************************************************/ /* MMU/memory methods */ /************************************************************************/ DECLARE_NODE( memory, INSTALL_OPEN, 0, "/memory" ); DECLARE_NODE( mmu, INSTALL_OPEN, 0, "/cpus/@0" ); DECLARE_NODE( mmu_ciface, 0, 0, "/packages/client-iface" ); /* ( phys size align --- base ) */ static void mem_claim( void ) { ucell align = POP(); ucell size = POP(); ucell phys = POP(); ucell ret = ofmem_claim_phys( phys, size, align ); if( ret == -1 ) { printk("MEM: claim failure\n"); throw( -13 ); return; } PUSH( ret ); } /* ( phys size --- ) */ static void mem_release( void ) { POP(); POP(); } /* ( phys size align --- base ) */ static void mmu_claim( void ) { ucell align = POP(); ucell size = POP(); ucell phys = POP(); ucell ret = ofmem_claim_virt( phys, size, align ); if( ret == -1 ) { printk("MMU: CLAIM failure\n"); throw( -13 ); return; } PUSH( ret ); } /* ( phys size --- ) */ static void mmu_release( void ) { POP(); POP(); } /* ( phys virt size mode -- [ret???] ) */ static void mmu_map( void ) { ucell mode = POP(); ucell size = POP(); ucell virt = POP(); ucell phys = POP(); ucell ret; /* printk("mmu_map: %x %x %x %x\n", phys, virt, size, mode ); */ ret = ofmem_map( phys, virt, size, mode ); if( ret ) { printk("MMU: map failure\n"); throw( -13 ); return; } } /* ( virt size -- ) */ static void mmu_unmap( void ) { POP(); POP(); } /* ( virt -- false | phys mode true ) */ static void mmu_translate( void ) { ucell mode; ucell virt = POP(); ucell phys = ofmem_translate( virt, &mode ); if( phys == -1 ) { PUSH( 0 ); } else { PUSH( phys ); PUSH( mode ); PUSH( -1 ); } } /* ( virt size align -- baseaddr|-1 ) */ static void ciface_claim( void ) { ucell align = POP(); ucell size = POP(); ucell virt = POP(); ucell ret = ofmem_claim( virt, size, align ); /* printk("ciface_claim: %08x %08x %x\n", virt, size, align ); */ PUSH( ret ); } /* ( virt size -- ) */ static void ciface_release( void ) { POP(); POP(); } NODE_METHODS( memory ) = { { "claim", mem_claim }, { "release", mem_release }, }; NODE_METHODS( mmu ) = { { "claim", mmu_claim }, { "release", mmu_release }, { "map", mmu_map }, { "unmap", mmu_unmap }, { "translate", mmu_translate }, }; NODE_METHODS( mmu_ciface ) = { { "cif-claim", ciface_claim }, { "cif-release", ciface_release }, }; /************************************************************************/ /* init */ /************************************************************************/ void node_methods_init( void ) { REGISTER_NODE( rtas ); REGISTER_NODE( powermgt ); REGISTER_NODE( kbd ); REGISTER_NODE( video_stdout ); REGISTER_NODE( ciface ); REGISTER_NODE( memory ); REGISTER_NODE( mmu ); REGISTER_NODE( mmu_ciface ); if( OSI_CallAvailable(OSI_TTY_GETC) ) REGISTER_NODE( tty ); OSI_KbdCntrl( kKbdCntrlActivate ); }