/* * Copyright (C) 2008 Michael Brown . * * 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 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 GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. */ FILE_LICENCE ( GPL2_OR_LATER ); #include #include #include #include #include #include #include #include #include #include #define ATTR_BOLD 0x08 #define ATTR_FCOL_MASK 0x07 #define ATTR_FCOL_BLACK 0x00 #define ATTR_FCOL_BLUE 0x01 #define ATTR_FCOL_GREEN 0x02 #define ATTR_FCOL_CYAN 0x03 #define ATTR_FCOL_RED 0x04 #define ATTR_FCOL_MAGENTA 0x05 #define ATTR_FCOL_YELLOW 0x06 #define ATTR_FCOL_WHITE 0x07 #define ATTR_BCOL_MASK 0x70 #define ATTR_BCOL_BLACK 0x00 #define ATTR_BCOL_BLUE 0x10 #define ATTR_BCOL_GREEN 0x20 #define ATTR_BCOL_CYAN 0x30 #define ATTR_BCOL_RED 0x40 #define ATTR_BCOL_MAGENTA 0x50 #define ATTR_BCOL_YELLOW 0x60 #define ATTR_BCOL_WHITE 0x70 #define ATTR_DEFAULT ATTR_FCOL_WHITE /* Set default console usage if applicable */ #if ! ( defined ( CONSOLE_EFI ) && CONSOLE_EXPLICIT ( CONSOLE_EFI ) ) #undef CONSOLE_EFI #define CONSOLE_EFI ( CONSOLE_USAGE_ALL & ~CONSOLE_USAGE_LOG ) #endif /** Current character attribute */ static unsigned int efi_attr = ATTR_DEFAULT; /** Console control protocol */ static EFI_CONSOLE_CONTROL_PROTOCOL *conctrl; EFI_REQUEST_PROTOCOL ( EFI_CONSOLE_CONTROL_PROTOCOL, &conctrl ); /** * Handle ANSI CUP (cursor position) * * @v ctx ANSI escape sequence context * @v count Parameter count * @v params[0] Row (1 is top) * @v params[1] Column (1 is left) */ static void efi_handle_cup ( struct ansiesc_context *ctx __unused, unsigned int count __unused, int params[] ) { EFI_SIMPLE_TEXT_OUTPUT_PROTOCOL *conout = efi_systab->ConOut; int cx = ( params[1] - 1 ); int cy = ( params[0] - 1 ); if ( cx < 0 ) cx = 0; if ( cy < 0 ) cy = 0; conout->SetCursorPosition ( conout, cx, cy ); } /** * Handle ANSI ED (erase in page) * * @v ctx ANSI escape sequence context * @v count Parameter count * @v params[0] Region to erase */ static void efi_handle_ed ( struct ansiesc_context *ctx __unused, unsigned int count __unused, int params[] __unused ) { EFI_SIMPLE_TEXT_OUTPUT_PROTOCOL *conout = efi_systab->ConOut; /* We assume that we always clear the whole screen */ assert ( params[0] == ANSIESC_ED_ALL ); conout->ClearScreen ( conout ); } /** * Handle ANSI SGR (set graphics rendition) * * @v ctx ANSI escape sequence context * @v count Parameter count * @v params List of graphic rendition aspects */ static void efi_handle_sgr ( struct ansiesc_context *ctx __unused, unsigned int count, int params[] ) { EFI_SIMPLE_TEXT_OUTPUT_PROTOCOL *conout = efi_systab->ConOut; static const uint8_t efi_attr_fcols[10] = { ATTR_FCOL_BLACK, ATTR_FCOL_RED, ATTR_FCOL_GREEN, ATTR_FCOL_YELLOW, ATTR_FCOL_BLUE, ATTR_FCOL_MAGENTA, ATTR_FCOL_CYAN, ATTR_FCOL_WHITE, ATTR_FCOL_WHITE, ATTR_FCOL_WHITE /* defaults */ }; static const uint8_t efi_attr_bcols[10] = { ATTR_BCOL_BLACK, ATTR_BCOL_RED, ATTR_BCOL_GREEN, ATTR_BCOL_YELLOW, ATTR_BCOL_BLUE, ATTR_BCOL_MAGENTA, ATTR_BCOL_CYAN, ATTR_BCOL_WHITE, ATTR_BCOL_BLACK, ATTR_BCOL_BLACK /* defaults */ }; unsigned int i; int aspect; for ( i = 0 ; i < count ; i++ ) { aspect = params[i]; if ( aspect == 0 ) { efi_attr = ATTR_DEFAULT; } else if ( aspect == 1 ) { efi_attr |= ATTR_BOLD; } else if ( aspect == 22 ) { efi_attr &= ~ATTR_BOLD; } else if ( ( aspect >= 30 ) && ( aspect <= 39 ) ) { efi_attr &= ~ATTR_FCOL_MASK; efi_attr |= efi_attr_fcols[ aspect - 30 ]; } else if ( ( aspect >= 40 ) && ( aspect <= 49 ) ) { efi_attr &= ~ATTR_BCOL_MASK; efi_attr |= efi_attr_bcols[ aspect - 40 ]; } } conout->SetAttribute ( conout, efi_attr ); } /** * Handle ANSI DECTCEM set (show cursor) * * @v ctx ANSI escape sequence context * @v count Parameter count * @v params List of graphic rendition aspects */ static void efi_handle_dectcem_set ( struct ansiesc_context *ctx __unused, unsigned int count __unused, int params[] __unused ) { EFI_SIMPLE_TEXT_OUTPUT_PROTOCOL *conout = efi_systab->ConOut; conout->EnableCursor ( conout, TRUE ); } /** * Handle ANSI DECTCEM reset (hide cursor) * * @v ctx ANSI escape sequence context * @v count Parameter count * @v params List of graphic rendition aspects */ static void efi_handle_dectcem_reset ( struct ansiesc_context *ctx __unused, unsigned int count __unused, int params[] __unused ) { EFI_SIMPLE_TEXT_OUTPUT_PROTOCOL *conout = efi_systab->ConOut; conout->EnableCursor ( conout, FALSE ); } /** EFI console ANSI escape sequence handlers */ static struct ansiesc_handler efi_ansiesc_handlers[] = { { ANSIESC_CUP, efi_handle_cup }, { ANSIESC_ED, efi_handle_ed }, { ANSIESC_SGR, efi_handle_sgr }, { ANSIESC_DECTCEM_SET, efi_handle_dectcem_set }, { ANSIESC_DECTCEM_RESET, efi_handle_dectcem_reset }, { 0, NULL } }; /** EFI console ANSI escape sequence context */ static struct ansiesc_context efi_ansiesc_ctx = { .handlers = efi_ansiesc_handlers, }; /** * Print a character to EFI console * * @v character Character to be printed */ static void efi_putchar ( int character ) { EFI_SIMPLE_TEXT_OUTPUT_PROTOCOL *conout = efi_systab->ConOut; wchar_t wstr[] = { character, 0 }; /* Intercept ANSI escape sequences */ character = ansiesc_process ( &efi_ansiesc_ctx, character ); if ( character < 0 ) return; conout->OutputString ( conout, wstr ); } /** * Pointer to current ANSI output sequence * * While we are in the middle of returning an ANSI sequence for a * special key, this will point to the next character to return. When * not in the middle of such a sequence, this will point to a NUL * (note: not "will be NULL"). */ static const char *ansi_input = ""; /** Mapping from EFI scan codes to ANSI escape sequences */ static const char *ansi_sequences[] = { [SCAN_UP] = "[A", [SCAN_DOWN] = "[B", [SCAN_RIGHT] = "[C", [SCAN_LEFT] = "[D", [SCAN_HOME] = "[H", [SCAN_END] = "[F", [SCAN_INSERT] = "[2~", /* EFI translates an incoming backspace via the serial console * into a SCAN_DELETE. There's not much we can do about this. */ [SCAN_DELETE] = "[3~", [SCAN_PAGE_UP] = "[5~", [SCAN_PAGE_DOWN] = "[6~", [SCAN_F5] = "[15~", [SCAN_F6] = "[17~", [SCAN_F7] = "[18~", [SCAN_F8] = "[19~", [SCAN_F9] = "[20~", [SCAN_F10] = "[21~", [SCAN_F11] = "[23~", [SCAN_F12] = "[24~", /* EFI translates some (but not all) incoming escape sequences * via the serial console into equivalent scancodes. When it * doesn't recognise a sequence, it helpfully(!) translates * the initial ESC and passes the remainder through verbatim. * Treating SCAN_ESC as equivalent to an empty escape sequence * works around this bug. */ [SCAN_ESC] = "", }; /** * Get ANSI escape sequence corresponding to EFI scancode * * @v scancode EFI scancode * @ret ansi_seq ANSI escape sequence, if any, otherwise NULL */ static const char * scancode_to_ansi_seq ( unsigned int scancode ) { if ( scancode < ( sizeof ( ansi_sequences ) / sizeof ( ansi_sequences[0] ) ) ) { return ansi_sequences[scancode]; } return NULL; } /** * Get character from EFI console * * @ret character Character read from console */ static int efi_getchar ( void ) { EFI_SIMPLE_TEXT_INPUT_PROTOCOL *conin = efi_systab->ConIn; const char *ansi_seq; EFI_INPUT_KEY key; EFI_STATUS efirc; int rc; /* If we are mid-sequence, pass out the next byte */ if ( *ansi_input ) return *(ansi_input++); /* Read key from real EFI console */ if ( ( efirc = conin->ReadKeyStroke ( conin, &key ) ) != 0 ) { rc = -EEFI ( efirc ); DBG ( "EFI could not read keystroke: %s\n", strerror ( rc ) ); return 0; } DBG2 ( "EFI read key stroke with unicode %04x scancode %04x\n", key.UnicodeChar, key.ScanCode ); /* If key has a Unicode representation, return it */ if ( key.UnicodeChar ) return key.UnicodeChar; /* Otherwise, check for a special key that we know about */ if ( ( ansi_seq = scancode_to_ansi_seq ( key.ScanCode ) ) ) { /* Start of escape sequence: return ESC (0x1b) */ ansi_input = ansi_seq; return 0x1b; } return 0; } /** * Check for character ready to read from EFI console * * @ret True Character available to read * @ret False No character available to read */ static int efi_iskey ( void ) { EFI_BOOT_SERVICES *bs = efi_systab->BootServices; EFI_SIMPLE_TEXT_INPUT_PROTOCOL *conin = efi_systab->ConIn; EFI_STATUS efirc; /* If we are mid-sequence, we are always ready */ if ( *ansi_input ) return 1; /* Check to see if the WaitForKey event has fired */ if ( ( efirc = bs->CheckEvent ( conin->WaitForKey ) ) == 0 ) return 1; return 0; } /** EFI console driver */ struct console_driver efi_console __console_driver = { .putchar = efi_putchar, .getchar = efi_getchar, .iskey = efi_iskey, .usage = CONSOLE_EFI, }; /** * Initialise EFI console * */ static void efi_console_init ( void ) { EFI_CONSOLE_CONTROL_SCREEN_MODE mode; /* On some older EFI 1.10 implementations, we must use the * (now obsolete) EFI_CONSOLE_CONTROL_PROTOCOL to switch the * console into text mode. */ if ( conctrl ) { conctrl->GetMode ( conctrl, &mode, NULL, NULL ); if ( mode != EfiConsoleControlScreenText ) { conctrl->SetMode ( conctrl, EfiConsoleControlScreenText ); } } } /** * EFI console initialisation function */ struct init_fn efi_console_init_fn __init_fn ( INIT_EARLY ) = { .initialise = efi_console_init, };