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[/] [openrisc/] [trunk/] [or1ksim/] [peripheral/] [ps2kbd.c] - Rev 224
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/* ps2kbd.c -- Very simple (and limited) PS/2 keyboard simulation Copyright (C) 2002 Marko Mlinar, markom@opencores.org Copyright (C) 2008 Embecosm Limited Contributor Jeremy Bennett <jeremy.bennett@embecosm.com> This file is part of Or1ksim, the OpenRISC 1000 Architectural Simulator. 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 3 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 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, see <http://www.gnu.org/licenses/>. */ /* This program is commented throughout in a fashion suitable for processing with Doxygen. */ /* Autoconf and/or portability configuration */ #include "config.h" #include "port.h" /* System includes */ #include <stdlib.h> #include <stdio.h> /* Package includes */ #include "arch.h" #include "pic.h" #include "sim-config.h" #include "abstract.h" #include "sched.h" #include "toplevel-support.h" #include "sim-cmd.h" /* Device registers */ #define KBD_CTRL 4 #define KBD_DATA 0 #define KBD_SPACE 8 /* Keyboard commands */ #define KBD_KCMD_RST 0xFF #define KBD_KCMD_DK 0xF5 #define KBD_KCMD_EK 0xF4 #define KBD_KCMD_ECHO 0xFF #define KBD_KCMD_SRL 0xED /* Keyboard responses */ #define KBD_KRESP_RSTOK 0xAA #define KBD_KRESP_ECHO 0xEE #define KBD_KRESP_ACK 0xFA /* Controller commands */ #define KBD_CCMD_RCB 0x20 #define KBD_CCMD_WCB 0x60 #define KBD_CCMD_ST1 0xAA #define KBD_CCMD_ST2 0xAB #define KBD_CCMD_DKI 0xAD #define KBD_CCMD_EKI 0xAE /* Status register bits */ #define KBD_STATUS_OBF 0x01 #define KBD_STATUS_IBF 0x02 #define KBD_STATUS_SYS 0x04 #define KBD_STATUS_A2 0x08 #define KBD_STATUS_INH 0x10 #define KBD_STATUS_MOBF 0x20 #define KBD_STATUS_TO 0x40 #define KBD_STATUS_PERR 0x80 /* Command byte register bits */ #define KBD_CCMDBYTE_INT 0x01 #define KBD_CCMDBYTE_INT2 0x02 #define KBD_CCMDBYTE_SYS 0x04 #define KBD_CCMDBYTE_EN 0x10 #define KBD_CCMDBYTE_EN2 0x20 #define KBD_CCMDBYTE_XLAT 0x40 /* Length of internal scan code fifo */ #define KBD_MAX_BUF 0x100 /* Keyboard is checked every KBD_SLOWDOWN cycle */ #define KBD_BAUD_RATE 1200 /* ASCII to scan code conversion table */ const static struct { /* Whether shift must be pressed */ unsigned char shift; /* Scan code to be generated */ unsigned char code; } scan_table[128] = { /* 0 - 15 */ { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x0E}, { 0, 0x0F}, { 0, 0x1C}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, /* 16 - 31 */ { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x01}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, { 0, 0x00}, /* 32 - 47 */ { 0, 0x39}, { 1, 0x02}, { 1, 0x28}, { 1, 0x04}, { 1, 0x05}, { 1, 0x06}, { 1, 0x08}, { 0, 0x28}, { 1, 0x0A}, { 1, 0x0B}, { 1, 0x09}, { 1, 0x0D}, { 0, 0x33}, { 0, 0x0C}, { 0, 0x34}, { 0, 0x35}, /* 48 - 63 */ { 0, 0x0B}, { 0, 0x02}, { 0, 0x03}, { 0, 0x04}, { 0, 0x05}, { 0, 0x06}, { 0, 0x07}, { 0, 0x08}, { 0, 0x09}, { 0, 0x0A}, { 1, 0x27}, { 0, 0x27}, { 1, 0x33}, { 0, 0x0D}, { 1, 0x34}, { 1, 0x35}, /* 64 - 79 */ { 1, 0x03}, { 1, 0x1E}, { 1, 0x30}, { 1, 0x2E}, { 1, 0x20}, { 1, 0x12}, { 1, 0x21}, { 1, 0x22}, { 1, 0x23}, { 1, 0x17}, { 1, 0x24}, { 1, 0x25}, { 1, 0x26}, { 1, 0x32}, { 1, 0x31}, { 1, 0x18}, /* 80 - 95 */ { 1, 0x19}, { 1, 0x10}, { 1, 0x13}, { 1, 0x1F}, { 1, 0x14}, { 1, 0x16}, { 1, 0x2F}, { 1, 0x11}, { 1, 0x2D}, { 1, 0x15}, { 1, 0x2C}, { 0, 0x1A}, { 0, 0x2B}, { 0, 0x1B}, { 1, 0x07}, { 1, 0x0C}, /* 96 - 111 */ { 0, 0x29}, { 0, 0x1E}, { 0, 0x30}, { 0, 0x2E}, { 0, 0x20}, { 0, 0x12}, { 0, 0x21}, { 0, 0x22}, { 0, 0x23}, { 0, 0x17}, { 0, 0x24}, { 0, 0x25}, { 0, 0x26}, { 0, 0x32}, { 0, 0x31}, { 0, 0x18}, /* 112 - 127 */ { 0, 0x19}, { 0, 0x10}, { 0, 0x13}, { 0, 0x1F}, { 0, 0x14}, { 0, 0x16}, { 0, 0x2F}, { 0, 0x11}, { 0, 0x2D}, { 0, 0x15}, { 0, 0x2C}, { 1, 0x1A}, { 1, 0x2B}, { 1, 0x1B}, { 1, 0x29}, { 0, 0x00} }; struct kbd_state { /* Temporary buffer to store incoming scan codes */ uint8_t buf[KBD_MAX_BUF]; /* Number of scan codes in buffer */ unsigned long buf_count; unsigned long buf_head; unsigned long buf_tail; /* Input stream */ FILE *rxfs; /* Controller Command (write into 0x64) */ int ccmd; /* Keyboard Command (write into 0x60) */ uint8_t kcmd; /* Controller Command Byte */ uint8_t ccmdbyte; /* Keyboard response pending */ unsigned long kresp; /* Keyboard slowdown factor */ long slowdown; /* Cofiguration */ int enabled; int irq; oraddr_t baseaddr; char *rxfile; }; static void kbd_put (struct kbd_state *kbd, unsigned char c) { if (kbd->buf_count >= KBD_MAX_BUF) { fprintf (stderr, "WARNING: Keyboard buffer overflow.\n"); } else { kbd->buf[kbd->buf_head] = c; kbd->buf_head = (kbd->buf_head + 1) % KBD_MAX_BUF; kbd->buf_count++; } } /* Decodes ascii code c into multiple scan codes, placed into buf, length is returned */ static void scan_decode (struct kbd_state *kbd, unsigned char c) { /* Do not handle special characters and extended ascii */ if (c >= 128 || !scan_table[c].code) return; /* Make shift? */ if (scan_table[c].shift) kbd_put (kbd, 0x2a); /* Make char */ kbd_put (kbd, scan_table[c].code); /* Break char */ kbd_put (kbd, scan_table[c].code | 0x80); /* Break shift? */ if (scan_table[c].shift) kbd_put (kbd, 0xaa); } /* Write a register */ static void kbd_write8 (oraddr_t addr, uint8_t value, void *dat) { struct kbd_state *kbd = dat; switch (addr) { case KBD_CTRL: kbd->ccmd = value & 0xff; if (kbd->ccmd == KBD_CCMD_RCB) kbd->kresp = 0x1; if (kbd->ccmd == KBD_CCMD_ST1) kbd->kresp = 0x1; if (kbd->ccmd == KBD_CCMD_ST2) kbd->kresp = 0x1; if (kbd->ccmd == KBD_CCMD_DKI) { clear_interrupt (kbd->irq); kbd->ccmdbyte |= KBD_CCMDBYTE_EN; } if (kbd->ccmd == KBD_CCMD_EKI) kbd->ccmdbyte &= ~KBD_CCMDBYTE_EN; if (config.sim.verbose) PRINTF ("kbd_write8(%" PRIxADDR ") %02x\n", addr, value); break; case KBD_DATA: if (kbd->ccmd == KBD_CCMD_WCB) { kbd->ccmdbyte = value & 0xff; kbd->ccmd = 0x00; } else kbd->kcmd = value & 0xff; if (kbd->kcmd == KBD_KCMD_DK) kbd->ccmdbyte |= KBD_CCMDBYTE_EN; if (kbd->kcmd == KBD_KCMD_EK) kbd->ccmdbyte &= ~KBD_CCMDBYTE_EN; kbd->kresp = 0x1; kbd->ccmd = 0x00; if (config.sim.verbose) PRINTF ("kbd_write8(%" PRIxADDR ") %02x\n", addr, value); break; default: fprintf (stderr, "Write out of keyboard space (0x%" PRIxADDR ")!\n", addr); break; } } /* Read a register */ static uint8_t kbd_read8 (oraddr_t addr, void *dat) { struct kbd_state *kbd = dat; switch (addr) { case KBD_CTRL: { unsigned long c = 0x0; if (kbd->kresp || kbd->buf_count) c |= KBD_STATUS_OBF; c |= kbd->ccmdbyte & KBD_CCMDBYTE_SYS; c |= KBD_STATUS_INH; if (config.sim.verbose) PRINTF ("kbd_read8(%" PRIxADDR ") %lx\n", addr, c); return c; } case KBD_DATA: clear_interrupt (kbd->irq); if (kbd->ccmd) { unsigned long rc = 0; if (kbd->ccmd == KBD_CCMD_RCB) rc = kbd->ccmdbyte; if (kbd->ccmd == KBD_CCMD_ST1) rc = 0x55; if (kbd->ccmd == KBD_CCMD_ST2) rc = 0x00; kbd->ccmd = 0x00; kbd->kresp = 0x0; if (config.sim.verbose) PRINTF ("kbd_read8(%" PRIxADDR ") %lx\n", addr, rc); return rc; } else if (kbd->kresp) { unsigned long rc; if (kbd->kresp == 0x2) { kbd->kresp = 0x0; rc = KBD_KRESP_RSTOK; } else if (kbd->kcmd == KBD_KCMD_RST) { kbd->kresp = 0x2; rc = KBD_KRESP_ACK; } else if (kbd->kcmd == KBD_KCMD_ECHO) { kbd->kresp = 0x0; rc = KBD_KRESP_ECHO; } else { kbd->kresp = 0x0; rc = KBD_KRESP_ACK; } kbd->kcmd = 0x00; if (config.sim.verbose) PRINTF ("kbd_read8(%" PRIxADDR ") %lx\n", addr, rc); return rc; } else if (kbd->buf_count) { unsigned long c = kbd->buf[kbd->buf_tail]; kbd->buf_tail = (kbd->buf_tail + 1) % KBD_MAX_BUF; kbd->buf_count--; kbd->kresp = 0x0; if (config.sim.verbose) PRINTF ("kbd_read8(%" PRIxADDR ") %lx\n", addr, c); return c; } kbd->kresp = 0x0; if (config.sim.verbose) PRINTF ("kbd_read8(%" PRIxADDR ") fifo empty\n", addr); return 0; default: fprintf (stderr, "Read out of keyboard space (0x%" PRIxADDR ")!\n", addr); return 0; } } /* Simulation hook. Must be called every couple of clock cycles to simulate incomming data. */ static void kbd_job (void *dat) { struct kbd_state *kbd = dat; int c; int kbd_int = 0; /* Check if there is something waiting, and decode it into kdb_buf */ if ((c = fgetc (kbd->rxfs)) != EOF) { scan_decode (kbd, c); } kbd_int = kbd->kresp || kbd->buf_count ? kbd->ccmdbyte & KBD_CCMDBYTE_INT : 0; /* if (config.sim.verbose && kbd_int) PRINTF("Keyboard Interrupt.... kbd_kresp %lx kbd_buf_count %lx \n", kbd->kresp, kbd->buf_count); */ if (kbd_int) report_interrupt (kbd->irq); SCHED_ADD (kbd_job, dat, kbd->slowdown); } /* Reset all (simulated) ps2 controlers/keyboards */ static void kbd_reset (void *dat) { struct kbd_state *kbd = dat; long int system_kfreq = (long) ((1000000000.0 / (double) config.sim.clkcycle_ps)); system_kfreq = (system_kfreq < 1) ? 1 : system_kfreq; kbd->buf_count = 0; kbd->buf_head = 0; kbd->buf_tail = 0; kbd->kresp = 0x0; kbd->ccmdbyte = 0x65; /* We reset into default normal operation. */ if (!(kbd->rxfs = fopen (kbd->rxfile, "r")) && !(kbd->rxfs = fopen (kbd->rxfile, "r+"))) { /* Bug 1723 fixed: Clearer message */ fprintf (stderr, "Warning: PS2 keyboard unable to open RX file stream.\n"); return; } kbd->slowdown = (long) ((system_kfreq * 1000.0) / KBD_BAUD_RATE); if (kbd->slowdown <= 0) kbd->slowdown = 1; SCHED_ADD (kbd_job, dat, kbd->slowdown); } static void kbd_info (void *dat) { struct kbd_state *kbd = dat; PRINTF ("kbd_kcmd: %x\n", kbd->kcmd); PRINTF ("kbd_ccmd: %x\n", kbd->ccmd); PRINTF ("kbd_ccmdbyte: %x\n", kbd->ccmdbyte); PRINTF ("kbd_kresp: %lx\n", kbd->kresp); PRINTF ("kbd_buf_count: %lx\n", kbd->buf_count); } /*----------------------------------------------------[ KBD Configuration ]---*/ static void kbd_enabled (union param_val val, void *dat) { struct kbd_state *kbd = dat; kbd->enabled = val.int_val; } static void kbd_baseaddr (union param_val val, void *dat) { struct kbd_state *kbd = dat; kbd->baseaddr = val.addr_val; } static void kbd_irq (union param_val val, void *dat) { struct kbd_state *kbd = dat; kbd->irq = val.int_val; } /*---------------------------------------------------------------------------*/ /*!Set the keyboard input file Free any previously allocated value. @param[in] val The value to use @param[in] dat The config data structure */ /*---------------------------------------------------------------------------*/ static void kbd_rxfile (union param_val val, void *dat) { struct kbd_state *kbd = dat; if (NULL != kbd->rxfile) { free (kbd->rxfile); kbd->rxfile = NULL; } if (!(kbd->rxfile = strdup (val.str_val))) { fprintf (stderr, "Peripheral KBD: Run out of memory\n"); exit (-1); } } /* kbd_rxfile() */ /*---------------------------------------------------------------------------*/ /*!Initialize a new keyboard configuration ALL parameters are set explicitly to default values. */ /*---------------------------------------------------------------------------*/ static void * kbd_sec_start () { struct kbd_state *new = malloc (sizeof (struct kbd_state)); if (!new) { fprintf (stderr, "Peripheral KBD: Run out of memory\n"); exit (-1); } new->enabled = 1; new->baseaddr = 0; new->irq = 0; new->rxfile = strdup ("kbd_in"); new->buf_count = 0; new->buf_head = 0; new->buf_tail = 0; new->rxfs = NULL; return new; } /* kbd_sec_start() */ static void kbd_sec_end (void *dat) { struct kbd_state *kbd = dat; struct mem_ops ops; if (!kbd->enabled) { free (kbd->rxfile); free (kbd); return; } memset (&ops, 0, sizeof (struct mem_ops)); ops.readfunc8 = kbd_read8; ops.writefunc8 = kbd_write8; ops.read_dat8 = dat; ops.write_dat8 = dat; /* FIXME: Correct delay? */ ops.delayr = 2; ops.delayw = 2; reg_mem_area (kbd->baseaddr, KBD_SPACE, 0, &ops); reg_sim_reset (kbd_reset, dat); reg_sim_stat (kbd_info, dat); } void reg_kbd_sec () { struct config_section *sec = reg_config_sec ("kbd", kbd_sec_start, kbd_sec_end); reg_config_param (sec, "baseaddr", PARAMT_ADDR, kbd_baseaddr); reg_config_param (sec, "enabled", PARAMT_INT, kbd_enabled); reg_config_param (sec, "irq", PARAMT_INT, kbd_irq); reg_config_param (sec, "rxfile", PARAMT_STR, kbd_rxfile); }