/* Console Callback Routines. Copyright (C) 2011 Richard Henderson This file is part of QEMU PALcode. This program 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 2 of the License or (at your option) any later version. This program 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 text of the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; see the file COPYING. If not see . */ #include "hwrpb.h" #include "protos.h" #include "console.h" #include "uart.h" /* All routines use the high bit to signal error. */ #define ERR 0x8000000000000000ul unsigned long crb_getc(long unit) { /* Multiple consoles not yet supported. */ if (unit != 0) return ERR; return uart_getchar(COM1); } unsigned long crb_process_keycode(long unit, long keycode, long again) { /* This routine might be needed for real keyboards, and mostly for internationalization stuff. */ /* Return Failure: routine not supported. */ return 0xc000000000000000ul; } unsigned long crb_puts(long unit, const char *buf, unsigned long length) { unsigned int orig_length = length; /* Multiple consoles not yet supported. */ if (unit != 0) return ERR; for (; length != 0; --length, ++buf) uart_putchar_raw(COM1, (unsigned char)*buf); /* Bits <31:0> of the return value are the number of bytes written. To me that implies that the input value must be 32-bit, but v2 of the ARM doesn't explicitly say. */ return orig_length; } unsigned long crb_reset_term(long unit) { /* Multiple consoles not yet supported. */ if (unit != 0) return ERR; uart_init_line(COM1, 9600); return 0; } static unsigned long crb_set_term_ctl(long unit, long ctb) { /* ??? The contents of the CTB do not seem to be defined anywhere. How, therefore, can the user set new contents? */ return ERR; } static unsigned long crb_set_term_int(long unit, long mask) { /* We do no buffering, therefore we don't need to support interrupts. */ if (unit != 0 || (mask & 0x22) != 0) return ERR; return 0; } unsigned long crb_open(const char *devstr, unsigned long length) { /* FIXME */ return ERR; } unsigned long crb_close(long channel) { /* FIXME */ return 0; } static unsigned long crb_ioctl(long channel) { /* We do not, nor will not, support virtual tapes. */ return ERR; } unsigned long crb_read(long channel, unsigned long length, char *buf, unsigned long block) { /* FIXME */ return ERR; } unsigned long crb_write(long channel, unsigned long length, const char *buf, unsigned long block) { /* FIXME */ return ERR; } unsigned long crb_get_env(unsigned long id, char *buf, unsigned long length) { /* FIXME */ return 0xc000000000000000ul; } unsigned long crb_set_env(unsigned long id, const char *buf, unsigned long length) { /* FIXME */ return 0xc000000000000000ul; } static unsigned long crb_reset_env(unsigned long id, char *buf, unsigned long length) { /* FIXME */ return 0xc000000000000000ul; } static unsigned long crb_save_env(void) { /* FIXME */ return 0xc000000000000000ul; } static unsigned long crb_pswitch(long action, long cpu_id) { /* Why would we ever need to support switching primary processor? */ return ERR; } static unsigned long __attribute__((used)) int_crb_dispatch(long select, long a1, long a2, long a3, long a4) { switch (select) { case CRB_GETC: return crb_getc(a1); case CRB_PUTS: return crb_puts(a1, (const char *)a2, a3); case CRB_RESET_TERM: return crb_reset_term(a1); case CRB_SET_TERM_INT: return crb_set_term_int(a1, a2); case CRB_SET_TERM_CTL: return crb_set_term_ctl(a1, a2); case CRB_PROCESS_KEYCODE: return crb_process_keycode(a1, a2, a3); case CRB_OPEN: return crb_open((const char*)a1, a2); case CRB_CLOSE: return crb_close(a1); case CRB_IOCTL: return crb_ioctl(a1); case CRB_READ: return crb_read(a1, a2, (char *)a3, a4); case CRB_WRITE: return crb_write(a1, a2, (const char *)a3, a4); case CRB_SET_ENV: return crb_set_env(a1, (const char *)a2, a3); case CRB_RESET_ENV: return crb_reset_env(a1, (char *)a2, a3); case CRB_GET_ENV: return crb_get_env(a1, (char *)a2, a3); case CRB_SAVE_ENV: return crb_save_env(); case CRB_PSWITCH: return crb_pswitch(a1, a2); } return ERR; } static unsigned long __attribute__((used)) int_crb_fixup(unsigned long vptptr, unsigned long hwrpb) { /* Given that this console is written to use the KSEG, and not be mapped into any page-table address space, it doesn't seem like we need to do anything at all here. */ return 0; } /* The CRB DISPATCH and FIXUP functions are defined to use the VMS calling convention. This has several effects: (1) The set of call-saved registers is different. (2) $27 contains the procdesc_struct, not the called function. Map between the two calling conventions here. */ asm(".macro VMStoUNIX name\n" " .globl \\name\n" " .ent \\name\n" "\\name:\n" " .frame $sp, 64, $26, 0\n" " subq $sp, 64, $sp\n" " stq $26, 0($sp)\n" " stq $2, 8($sp)\n" " stq $3, 16($sp)\n" " stq $4, 24($sp)\n" " stq $5, 32($sp)\n" " stq $6, 40($sp)\n" " stq $7, 48($sp)\n" " stq $8, 56($sp)\n" " .mask 0x40001fc, 0\n" " .prologue 2\n" " br $gp, .+4\n" " ldgp $gp, 0($gp)\n" " bsr $26, int_\\name !samegp\n" " ldq $26, 0($sp)\n" " ldq $2, 8($sp)\n" " ldq $3, 16($sp)\n" " ldq $4, 24($sp)\n" " ldq $5, 32($sp)\n" " ldq $6, 40($sp)\n" " ldq $7, 48($sp)\n" " ldq $8, 56($sp)\n" " addq $sp, 64, $sp\n" " ret\n" " .end \\name\n" ".endm\n" " VMStoUNIX crb_dispatch\n" " VMStoUNIX crb_fixup\n" );