#if 0 /* * pcmcia.c * * PCMCIA support routines for etherboot - generic stuff * * This code has partly be taken from the linux kernel sources, .../drivers/pcmcia/ * Started & put together by * Anselm Martin Hoffmeister * Stockholm Projekt Computer-Service * Sankt Augustin / Bonn, Germany * * Distributed under GPL2 */ /* * * * ****************************** * PLEASE DO NOT YET WORK ON THIS * ****************************** * * I'm still fixing it up on every end, so we most probably would interfere * at some point. If there's anything obvious or better, not-so-obvious, * please contact me by e-mail: anselm (AT) hoffmeister (DOT) be *THANKS* */ FILE_LICENCE ( GPL2_ONLY ); #include #include #include #define CODE_STATUS "alpha" #define CODE_VERSION "0.1.3" #include #include int sockets; /* AHTODO: Phase this out! */ u_int pccsocks; struct pccsock_t pccsock[MAXPCCSOCKS]; int inited = -1; struct pcc_config_t pccconfig[MAXPCCCONFIGS]; struct driver_interact_t driver[] = { #ifdef SUPPORT_I82365 { I82365, i82365_interfacer, "Intel_82365" }, #endif }; #define NUM_DRIVERS (sizeof(driver)/(sizeof(struct driver_interact_t))) void sleepticks(int numticks ) { u_int tmo; for (tmo = currticks()+numticks; currticks() < tmo; ) { } return; } static void pcmcia_init_all(void) { u_int i, j, k, l, m, n, ui, configs = 0; u_int multicard[8]; u_char *uc, upc; if ( PDEBUG > 0 ) printf("Initializing PCMCIA subsystem (code-status: " CODE_STATUS ", Version " CODE_VERSION ")\n"); if ( PDEBUG > 2 ) { printf ( "Supporting %d driver(s): ", NUM_DRIVERS ); for ( i = 0; i < NUM_DRIVERS; ++i ) { printf ( "[%s] ", driver[i].name ); } printf ( "\n" ); } pccsocks = 0; sockets = 0; // Init all drivers in the driver[] array: for ( i = 0; i < NUM_DRIVERS; ++i ) { driver[i].f(INIT,0,i,0,0); // init needs no params. It uses pccsocks and pccsock[]. // Only i tells it which driver_id itself is. } for ( i = 0; i < pccsocks; ++i ) { printf ( "Socket %d: ", i ); if ( pccsock[i].status != HASCARD ) { printf ( "is %s: skipping\n", pccsock[i].status == EMPTY? "empty":"[status unknown]" ); continue; } if ( 0 != driver[pccsock[i].drivernum].f(MAPATTRMEM,pccsock[i].internalid,MAP_ATTRMEM_TO, MAP_ATTRMEM_LEN,0 ) ) { printf ("PCMCIA controller failed to map attribute memory.\n**** SEVERE ERROR CONDITION. Skipping controller.\n" ); if ( PDEBUG > 2 ) { printf ( "\n" ); getchar(); } continue; } // parse configuration information uc = ioremap ( MAP_ATTRMEM_TO, MAP_ATTRMEM_LEN ); pccsock[i].stringoffset = pccsock[i].configoffset = pccsock[i].stringlength = 0; pccsock[i].type = 0xff; for ( l = 0; l < 8; ++l ) multicard[l] = 0; sleepticks(2); for ( l = ui = 0; ui < 0x800; ui += uc[(2*ui)+2] + 2 ) { if ( uc[(2*ui)] == 0xff ) { break; } // This loop is complete rubbish AFAICS. // But without it, my test system won't come up. // It's too bad to develop on broken hardware // - Anselm } sleepticks(2); configs = 0; inited = -1; for ( l = ui = 0; ui < 0x800; ui += uc[(2*ui)+2] + 2 ) { if ( uc[(2*ui)] == 0xff ) break; else if ( uc[2*ui] == 0x15 ) { for ( k = 2 * ( ui + 2 ); ( uc[k] <= ' ' ) && ( k < ( 2 * ( uc[2*(ui+1)] + ui + 2 ) ) ) ; k += 2 ) { ; } pccsock[i].stringoffset = k; pccsock[i].stringlength = ( 2 * ( ui + 2 + uc[(2*ui)+2] ) - k ) / 2; } else if ( uc[2*ui] == 0x21 ) { pccsock[i].type = uc[(2*ui)+4]; } else if ( uc[2*ui] == 0x1a ) { // Configuration map printf ( "\nConfig map 0x1a found [" ); for ( k = 0; k < uc[2*(ui+1)]; ++k ) { printf ( "%02x ", uc[2*(ui+k+2)] ); } printf ( "]\nHighest config available is %d\n", uc[2*(ui+3)] ); m = uc[2*(ui+2)]; pccsock[i].configoffset = 0; for ( j = 0; j <= (m & 3); ++j ) { pccsock[i].configoffset += uc[2*(ui+4+j)] << (8*j); } pccsock[i].rmask0 = 0; for ( j = 0; j <= ( ( ( m & 0x3c ) >> 2 ) & 3 ); ++j ) { pccsock[i].rmask0 += uc[2*(ui+5+(m&3)+j)] << (8*j); } j = pccsock[i].rmask0; printf ( "Config offset is %x, card has regs: < %s%s%s%s%s>\n", pccsock[i].configoffset, j & 1 ? "COR ":"", j & 2 ? "CCSR ":"", j & 4 ? "PRR ":"", j & 8 ? "SCR ":"", j & 16? "ESR ":"" ); printf ( "COR + CCSR contents (si/du) %x %x/%x %x\n", uc[pccsock[i].configoffset+0], uc[pccsock[i].configoffset+2],uc[pccsock[i].configoffset*2],uc[(pccsock[i].configoffset*2)+2] ); printf ( " " ); } else if ( uc[2*ui] == 0x1b ) { // Configuration data entry //printf ( "Config data 0x1b found [\n" );getchar(); for ( k = 0; k < uc[2*(ui+1)]; ++k ) { // printf ( "%02x ", uc[2*(ui+k+2)] ); } // Parse this tuple into pccconfig[configs] // printf ( "]\n" ); if ( configs == MAXPCCCONFIGS ) continue; k = 2*ui+4; pccconfig[configs].index = uc[k] & 0x3f; if ( uc[k] & 0x80 ) { // printf ( "Special config, unsupp. for now\n" ); continue; } k+=2; // printf ( "Features: %2x\n", uc[k] ); if ( uc[k] & 0x7 ) { // printf ( "Cannot work with Vcc/Timing configs right now\n" ); continue; } pccconfig[configs].iowin = pccconfig[configs].iolen = 0; if ( 0 != ( uc[k] & 0x8 ) ) { k+=2; // printf ( "Reading IO config: " ); if ( 0 == ( uc[k] & 0x80 ) ) { // printf ( "Cannot work with auto/io config\n" ); continue; } k+=2; if ( 0 != ( uc[k] & 0x0f ) ) { // printf ( "Don't support more than 1 iowin right now\n" ); continue; } j = (uc[k] & 0x30) >> 4; m = (uc[k] & 0xc0) >> 6; if ( 3 == j ) ++j; if ( 3 == m ) ++m; k += 2; pccconfig[configs].iowin = 0; pccconfig[configs].iolen = 1; for ( n = 0; n < j; ++n, k+=2 ) { pccconfig[configs].iowin += uc[k] << (n*8); } for ( n = 0; n < m; ++n, k+=2 ) { pccconfig[configs].iolen += uc[k] << (n*8); } // printf ( "io %x len %d (%d)\n", pccconfig[configs].iowin, pccconfig[configs].iolen,configs ); } for ( j = 0; j < (uc[k] & 3); ++j ) { // pccconfig[configs].iowin += (uc[k+(2*j)+2]) << (8*j); } ++configs; } } if ( pccsock[i].stringoffset > 0 ) { // If no identifier, it's not a valid CIS (as of documentation...) printf ( "[" ); for ( k = 0; ( k < pccsock[i].stringlength ) && ( k < 64 ); ++k ) { j = uc[pccsock[i].stringoffset + 2 * k]; printf ( "%c", (j>=' '? j:' ' ) ); } printf ("]\n is type %d (", pccsock[i].type ); switch ( pccsock[i].type ) { case 0x00: printf ( "MULTI" ); break; case 0x01: printf ( "Memory" ); break; case 0x02: printf ( "Serial" ); break; case 0x03: printf ( "Parallel" ); break; case 0x04: printf ( "Fixed" ); break; case 0x05: printf ( "Video" ); break; case 0x06: printf ( "Network" ); break; case 0x07: printf ( "AIMS" ); break; case 0x08: printf ( "SCSI" ); break; case 0x106: // Special / homebrew to say "Multi/network" printf ( "MULTI, with Network" ); break; // AHTODO find a card for this default: printf ( "UNSUPPORTED/UNKNOWN" ); } printf ( ") with %d possible configuration(s)\n", configs ); // Now set dependency: If it's Network or multi->network, accept if ( (inited <= 0 ) && (6 == (0xff & pccsock[i].type) ) && (0 < configs ) ) { printf ( "activating this device with ioport %x-%x (config #%d)\n", pccconfig[0].iowin, pccconfig[0].iowin+pccconfig[0].iolen-1, pccconfig[0].index ); inited = i; // And unmap attrmem ourselves! printf ( "Activating config..." ); if ( m=driver[pccsock[i].drivernum].f(SELECTCONFIG,pccsock[i].internalid,pccconfig[0].index,0,&pccconfig[0]) ) { printf ("Failure(%d)!",m); inited = -1; driver[pccsock[i].drivernum].f(UNMAPATTRMEM,pccsock[i].internalid,0,0,0); } printf ( "done!\n" ); continue; } } else { printf ( "unsupported - no identifier string found in CIS\n" ); } // unmap the PCMCIA device if ( i != inited ) { if ( 0 != driver[pccsock[i].drivernum].f(UNMAPATTRMEM,pccsock[i].internalid,0,0,0) ) { printf ("PCMCIA controller failed to unmap attribute memory.\n**** SEVERE ERROR CONDITION ****\n" ); if ( PDEBUG > 2 ) { printf ( "\n" ); getchar(); } continue; } } } if ( PDEBUG > 2 ) { printf ( "\n" ); getchar(); } } static void pcmcia_shutdown_all(void) { int i; //if ( PDEBUG > 2 ) {printf("\n" ); getchar(); } for ( i = 0; i < pccsocks; ++i ) { driver[pccsock[i].drivernum].f(SHUTDOWN,pccsock[i].internalid,0,0,0); } printf("Shutdown of PCMCIA subsystem completed"); } #endif