From 8d7115560d469f901d7d8ccb242d0b437e7394aa Mon Sep 17 00:00:00 2001 From: Stefan Reinauer Date: Fri, 30 Nov 2012 12:34:04 -0800 Subject: Rename devices -> device to match src/include/device Change-Id: I5d0e5b4361c34881a3b81347aac48738cb5b9af0 Signed-off-by: Stefan Reinauer Reviewed-on: http://review.coreboot.org/1960 Tested-by: build bot (Jenkins) Reviewed-by: David Hendricks --- src/devices/oprom/yabel/Makefile.inc | 9 - src/devices/oprom/yabel/biosemu.c | 395 -------------- src/devices/oprom/yabel/biosemu.h | 53 -- src/devices/oprom/yabel/compat/Makefile.inc | 1 - src/devices/oprom/yabel/compat/functions.c | 59 --- src/devices/oprom/yabel/compat/of.h | 55 -- src/devices/oprom/yabel/compat/rtas.h | 45 -- src/devices/oprom/yabel/compat/time.h | 18 - src/devices/oprom/yabel/debug.c | 54 -- src/devices/oprom/yabel/debug.h | 105 ---- src/devices/oprom/yabel/device.c | 471 ----------------- src/devices/oprom/yabel/device.h | 185 ------- src/devices/oprom/yabel/interrupt.c | 678 ------------------------ src/devices/oprom/yabel/interrupt.h | 21 - src/devices/oprom/yabel/io.c | 577 --------------------- src/devices/oprom/yabel/io.h | 30 -- src/devices/oprom/yabel/mem.c | 501 ------------------ src/devices/oprom/yabel/mem.h | 36 -- src/devices/oprom/yabel/pmm.c | 442 ---------------- src/devices/oprom/yabel/pmm.h | 46 -- src/devices/oprom/yabel/vbe.c | 774 ---------------------------- src/devices/oprom/yabel/vbe.h | 23 - 22 files changed, 4578 deletions(-) delete mode 100644 src/devices/oprom/yabel/Makefile.inc delete mode 100644 src/devices/oprom/yabel/biosemu.c delete mode 100644 src/devices/oprom/yabel/biosemu.h delete mode 100644 src/devices/oprom/yabel/compat/Makefile.inc delete mode 100644 src/devices/oprom/yabel/compat/functions.c delete mode 100644 src/devices/oprom/yabel/compat/of.h delete mode 100644 src/devices/oprom/yabel/compat/rtas.h delete mode 100644 src/devices/oprom/yabel/compat/time.h delete mode 100644 src/devices/oprom/yabel/debug.c delete mode 100644 src/devices/oprom/yabel/debug.h delete mode 100644 src/devices/oprom/yabel/device.c delete mode 100644 src/devices/oprom/yabel/device.h delete mode 100644 src/devices/oprom/yabel/interrupt.c delete mode 100644 src/devices/oprom/yabel/interrupt.h delete mode 100644 src/devices/oprom/yabel/io.c delete mode 100644 src/devices/oprom/yabel/io.h delete mode 100644 src/devices/oprom/yabel/mem.c delete mode 100644 src/devices/oprom/yabel/mem.h delete mode 100644 src/devices/oprom/yabel/pmm.c delete mode 100644 src/devices/oprom/yabel/pmm.h delete mode 100644 src/devices/oprom/yabel/vbe.c delete mode 100644 src/devices/oprom/yabel/vbe.h (limited to 'src/devices/oprom/yabel') diff --git a/src/devices/oprom/yabel/Makefile.inc b/src/devices/oprom/yabel/Makefile.inc deleted file mode 100644 index f05998cba5..0000000000 --- a/src/devices/oprom/yabel/Makefile.inc +++ /dev/null @@ -1,9 +0,0 @@ -ramstage-y += biosemu.c -ramstage-y += debug.c -ramstage-y += device.c -ramstage-y += interrupt.c -ramstage-y += io.c -ramstage-y += mem.c -ramstage-y += pmm.c -ramstage-y += vbe.c -subdirs-y += compat diff --git a/src/devices/oprom/yabel/biosemu.c b/src/devices/oprom/yabel/biosemu.c deleted file mode 100644 index 2a2ca312cb..0000000000 --- a/src/devices/oprom/yabel/biosemu.c +++ /dev/null @@ -1,395 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * Copyright (c) 2008, 2009 Pattrick Hueper - * Copyright (c) 2010 coresystems GmbH - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - -#include -#include - -#include "debug.h" - -#include -#include -#include "../x86emu/prim_ops.h" - -#include "biosemu.h" -#include "io.h" -#include "mem.h" -#include "interrupt.h" -#include "device.h" -#include "pmm.h" - -#include -#include "compat/rtas.h" - -static X86EMU_memFuncs my_mem_funcs = { - my_rdb, my_rdw, my_rdl, - my_wrb, my_wrw, my_wrl -}; - -static X86EMU_pioFuncs my_pio_funcs = { - my_inb, my_inw, my_inl, - my_outb, my_outw, my_outl -}; - -/* interrupt function override array (see biosemu.h) */ -yabel_handleIntFunc yabel_intFuncArray[256]; - -void -mainboard_interrupt_handlers(int interrupt, yabel_handleIntFunc func) -{ - yabel_intFuncArray[interrupt] = func; -} - -/* main entry into YABEL biosemu, arguments are: - * *biosmem = pointer to virtual memory - * biosmem_size = size of the virtual memory - * *dev = pointer to the device to be initialised - * rom_addr = address of the OptionROM to be executed, if this is = 0, YABEL - * will look for an ExpansionROM BAR and use the code from there. - */ -u32 -biosemu(u8 *biosmem, u32 biosmem_size, struct device * dev, unsigned long rom_addr) -{ - u8 *rom_image; - int i = 0; -#if CONFIG_X86EMU_DEBUG - debug_flags = 0; -#if CONFIG_X86EMU_DEBUG_JMP - debug_flags |= DEBUG_JMP; -#endif -#if CONFIG_X86EMU_DEBUG_TRACE - debug_flags |= DEBUG_TRACE_X86EMU; -#endif -#if CONFIG_X86EMU_DEBUG_PNP - debug_flags |= DEBUG_PNP; -#endif -#if CONFIG_X86EMU_DEBUG_DISK - debug_flags |= DEBUG_DISK; -#endif -#if CONFIG_X86EMU_DEBUG_PMM - debug_flags |= DEBUG_PMM; -#endif -#if CONFIG_X86EMU_DEBUG_VBE - debug_flags |= DEBUG_VBE; -#endif -#if CONFIG_X86EMU_DEBUG_INT10 - debug_flags |= DEBUG_PRINT_INT10; -#endif -#if CONFIG_X86EMU_DEBUG_INTERRUPTS - debug_flags |= DEBUG_INTR; -#endif -#if CONFIG_X86EMU_DEBUG_CHECK_VMEM_ACCESS - debug_flags |= DEBUG_CHECK_VMEM_ACCESS; -#endif -#if CONFIG_X86EMU_DEBUG_MEM - debug_flags |= DEBUG_MEM; -#endif -#if CONFIG_X86EMU_DEBUG_IO - debug_flags |= DEBUG_IO; -#endif - -#endif - if (biosmem_size < MIN_REQUIRED_VMEM_SIZE) { - printf("Error: Not enough virtual memory: %x, required: %x!\n", - biosmem_size, MIN_REQUIRED_VMEM_SIZE); - return -1; - } - if (biosemu_dev_init(dev) != 0) { - printf("Error initializing device!\n"); - return -1; - } - if (biosemu_dev_check_exprom(rom_addr) != 0) { - printf("Error: Device Expansion ROM invalid!\n"); - return -1; - } - biosemu_add_special_memory(0, 0x500); // IVT + BDA - biosemu_add_special_memory(OPTION_ROM_CODE_SEGMENT << 4, 0x10000); // option ROM - - rom_image = (u8 *) bios_device.img_addr; - DEBUG_PRINTF("executing rom_image from %p\n", rom_image); - DEBUG_PRINTF("biosmem at %p\n", biosmem); - - DEBUG_PRINTF("Image Size: %d\n", bios_device.img_size); - - // in case we jump somewhere unexpected, or execution is finished, - // fill the biosmem with hlt instructions (0xf4) - // But we have to be careful: If biosmem is 0x00000000 we're running - // in the lower 1MB and we must not wipe memory like that. - if (biosmem) { - DEBUG_PRINTF("Clearing biosmem\n"); - memset(biosmem, 0xf4, biosmem_size); - } - - X86EMU_setMemBase(biosmem, biosmem_size); - - DEBUG_PRINTF("membase set: %08x, size: %08x\n", (int) M.mem_base, - (int) M.mem_size); - - // copy expansion ROM image to segment OPTION_ROM_CODE_SEGMENT - // NOTE: this sometimes fails, some bytes are 0x00... so we compare - // after copying and do some retries... - u8 *mem_img = (u8*)(OPTION_ROM_CODE_SEGMENT << 4); - u8 copy_count = 0; - u8 cmp_result = 0; - do { -#if 0 - set_ci(); - memcpy(mem_img, rom_image, len); - clr_ci(); -#else - // memcpy fails... try copy byte-by-byte with set/clr_ci - u8 c; - for (i = 0; i < bios_device.img_size; i++) { - set_ci(); - c = *(rom_image + i); - if (c != *(rom_image + i)) { - clr_ci(); - printf("Copy failed at: %x/%x\n", i, - bios_device.img_size); - printf("rom_image(%x): %x, mem_img(%x): %x\n", - i, *(rom_image + i), i, *(mem_img + i)); - break; - } - clr_ci(); - my_wrb((u32)mem_img + i, c); - } -#endif - copy_count++; - set_ci(); - cmp_result = memcmp(mem_img, rom_image, bios_device.img_size); - clr_ci(); - } - while ((copy_count < 5) && (cmp_result != 0)); - if (cmp_result != 0) { - printf - ("\nCopying Expansion ROM Image to Memory failed after %d retries! (%x)\n", - copy_count, cmp_result); - dump(rom_image, 0x20); - dump(mem_img, 0x20); - return 0; - } - // setup default Interrupt Vectors - // some expansion ROMs seem to check for these addresses.. - // each handler is only an IRET (0xCF) instruction - // ROM BIOS Int 10 Handler F000:F065 - my_wrl(0x10 * 4, 0xf000f065); - my_wrb(0x000ff065, 0xcf); - // ROM BIOS Int 11 Handler F000:F84D - my_wrl(0x11 * 4, 0xf000f84d); - my_wrb(0x000ff84d, 0xcf); - // ROM BIOS Int 12 Handler F000:F841 - my_wrl(0x12 * 4, 0xf000f841); - my_wrb(0x000ff841, 0xcf); - // ROM BIOS Int 13 Handler F000:EC59 - my_wrl(0x13 * 4, 0xf000ec59); - my_wrb(0x000fec59, 0xcf); - // ROM BIOS Int 14 Handler F000:E739 - my_wrl(0x14 * 4, 0xf000e739); - my_wrb(0x000fe739, 0xcf); - // ROM BIOS Int 15 Handler F000:F859 - my_wrl(0x15 * 4, 0xf000f859); - my_wrb(0x000ff859, 0xcf); - // ROM BIOS Int 16 Handler F000:E82E - my_wrl(0x16 * 4, 0xf000e82e); - my_wrb(0x000fe82e, 0xcf); - // ROM BIOS Int 17 Handler F000:EFD2 - my_wrl(0x17 * 4, 0xf000efd2); - my_wrb(0x000fefd2, 0xcf); - // ROM BIOS Int 1A Handler F000:FE6E - my_wrl(0x1a * 4, 0xf000fe6e); - my_wrb(0x000ffe6e, 0xcf); - - // setup BIOS Data Area (0000:04xx, or 0040:00xx) - // we currently 0 this area, meaning "we dont have - // any hardware" :-) no serial/parallel ports, floppys, ... - memset(biosmem + 0x400, 0x0, 0x100); - - // at offset 13h in BDA is the memory size in kbytes - my_wrw(0x413, biosmem_size / 1024); - // at offset 0eh in BDA is the segment of the Extended BIOS Data Area - // see setup further down - my_wrw(0x40e, INITIAL_EBDA_SEGMENT); - // TODO: setup BDA Video Data ( offset 49h-66h) - // e.g. to store video mode, cursor position, ... - // in int10 (done) handler and VBE Functions - - // TODO: setup BDA Fixed Disk Data - // 74h: Fixed Disk Last Operation Status - // 75h: Fixed Disk Number of Disk Drives - - // TODO: check BDA for further needed data... - - //setup Extended BIOS Data Area - //we currently 0 this area - memset(biosmem + (INITIAL_EBDA_SEGMENT << 4), 0, INITIAL_EBDA_SIZE); - // at offset 0h in EBDA is the size of the EBDA in KB - my_wrw((INITIAL_EBDA_SEGMENT << 4) + 0x0, INITIAL_EBDA_SIZE / 1024); - //TODO: check for further needed EBDA data... - - // setup original ROM BIOS Area (F000:xxxx) - const char *date = "06/11/99"; - for (i = 0; date[i]; i++) - my_wrb(0xffff5 + i, date[i]); - // set up eisa ident string - const char *ident = "PCI_ISA"; - for (i = 0; ident[i]; i++) - my_wrb(0xfffd9 + i, ident[i]); - - // write system model id for IBM-AT - // according to "Ralf Browns Interrupt List" Int15 AH=C0 Table 515, - // model FC is the original AT and also used in all DOSEMU Versions. - my_wrb(0xFFFFE, 0xfc); - - //setup interrupt handler - X86EMU_intrFuncs intrFuncs[256]; - for (i = 0; i < 256; i++) - intrFuncs[i] = handleInterrupt; - X86EMU_setupIntrFuncs(intrFuncs); - X86EMU_setupPioFuncs(&my_pio_funcs); - X86EMU_setupMemFuncs(&my_mem_funcs); - - //setup PMM struct in BIOS_DATA_SEGMENT, offset 0x0 - u8 pmm_length = pmm_setup(BIOS_DATA_SEGMENT, 0x0); - if (pmm_length <= 0) { - printf ("\nYABEL: Warning: PMM Area could not be setup. PMM not available (%x)\n", - pmm_length); - return 0; - } else { - CHECK_DBG(DEBUG_PMM) { - /* test the PMM */ - pmm_test(); - /* and clean it again by calling pmm_setup... */ - pmm_length = pmm_setup(BIOS_DATA_SEGMENT, 0x0); - } - } - // setup the CPU - M.x86.R_AH = bios_device.bus; - M.x86.R_AL = bios_device.devfn; - M.x86.R_DX = 0x80; - M.x86.R_EIP = 3; - M.x86.R_CS = OPTION_ROM_CODE_SEGMENT; - - // Initialize stack and data segment - M.x86.R_SS = STACK_SEGMENT; - M.x86.R_SP = STACK_START_OFFSET; - M.x86.R_DS = DATA_SEGMENT; - - // push a HLT instruction and a pointer to it onto the stack - // any return will pop the pointer and jump to the HLT, thus - // exiting (more or less) cleanly - push_word(0xf4f4); // F4=HLT - push_word(M.x86.R_SS); - push_word(M.x86.R_SP + 2); - - CHECK_DBG(DEBUG_TRACE_X86EMU) { - X86EMU_trace_on(); -#if 0 - } else { - M.x86.debug |= DEBUG_SAVE_IP_CS_F; - M.x86.debug |= DEBUG_DECODE_F; - M.x86.debug |= DEBUG_DECODE_NOPRINT_F; -#endif - } - CHECK_DBG(DEBUG_JMP) { - M.x86.debug |= DEBUG_TRACEJMP_F; - M.x86.debug |= DEBUG_TRACEJMP_REGS_F; - M.x86.debug |= DEBUG_TRACECALL_F; - M.x86.debug |= DEBUG_TRACECALL_REGS_F; - } - - DEBUG_PRINTF("Executing Initialization Vector...\n"); - X86EMU_exec(); - DEBUG_PRINTF("done\n"); - - /* According to the PNP BIOS Spec, Option ROMs should upon exit, return - * some boot device status in AX (see PNP BIOS Spec Section 3.3 - */ - DEBUG_PRINTF_CS_IP("Option ROM Exit Status: %04x\n", M.x86.R_AX); -#if CONFIG_X86EMU_DEBUG - DEBUG_PRINTF("Exit Status Decode:\n"); - if (M.x86.R_AX & 0x100) { // bit 8 - DEBUG_PRINTF - (" IPL Device supporting INT 13h Block Device Format:\n"); - switch (((M.x86.R_AX >> 4) & 0x3)) { // bits 5:4 - case 0: - DEBUG_PRINTF(" No IPL Device attached\n"); - break; - case 1: - DEBUG_PRINTF(" IPL Device status unknown\n"); - break; - case 2: - DEBUG_PRINTF(" IPL Device attached\n"); - break; - case 3: - DEBUG_PRINTF(" IPL Device status RESERVED!!\n"); - break; - } - } - if (M.x86.R_AX & 0x80) { // bit 7 - DEBUG_PRINTF - (" Output Device supporting INT 10h Character Output:\n"); - switch (((M.x86.R_AX >> 4) & 0x3)) { // bits 5:4 - case 0: - DEBUG_PRINTF(" No Display Device attached\n"); - break; - case 1: - DEBUG_PRINTF(" Display Device status unknown\n"); - break; - case 2: - DEBUG_PRINTF(" Display Device attached\n"); - break; - case 3: - DEBUG_PRINTF(" Display Device status RESERVED!!\n"); - break; - } - } - if (M.x86.R_AX & 0x40) { // bit 6 - DEBUG_PRINTF - (" Input Device supporting INT 9h Character Input:\n"); - switch (((M.x86.R_AX >> 4) & 0x3)) { // bits 5:4 - case 0: - DEBUG_PRINTF(" No Input Device attached\n"); - break; - case 1: - DEBUG_PRINTF(" Input Device status unknown\n"); - break; - case 2: - DEBUG_PRINTF(" Input Device attached\n"); - break; - case 3: - DEBUG_PRINTF(" Input Device status RESERVED!!\n"); - break; - } - } -#endif - /* Check whether the stack is "clean" i.e. containing the HLT - * instruction we pushed before executing and pointing to the original - * stack address... indicating that the initialization probably was - * successful - */ - if ((pop_word() == 0xf4f4) && (M.x86.R_SS == STACK_SEGMENT) - && (M.x86.R_SP == STACK_START_OFFSET)) { - DEBUG_PRINTF("Stack is clean, initialization successfull!\n"); - } else { - printf("Stack unclean, initialization probably NOT COMPLETE!\n"); - DEBUG_PRINTF("SS:SP = %04x:%04x, expected: %04x:%04x\n", - M.x86.R_SS, M.x86.R_SP, STACK_SEGMENT, - STACK_START_OFFSET); - } - - // TODO: according to the BIOS Boot Spec initializations may be ended using INT18h and setting - // the status. - // We need to implement INT18 accordingly, pseudo code is in specsbbs101.pdf page 30 - // (also for Int19) - return 0; -} diff --git a/src/devices/oprom/yabel/biosemu.h b/src/devices/oprom/yabel/biosemu.h deleted file mode 100644 index 4f5c4aaa5b..0000000000 --- a/src/devices/oprom/yabel/biosemu.h +++ /dev/null @@ -1,53 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * Copyright (c) 2009 Pattrick Hueper - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - -#ifndef _BIOSEMU_BIOSEMU_H_ -#define _BIOSEMU_BIOSEMU_H_ - -#define MIN_REQUIRED_VMEM_SIZE 0x100000 // 1MB - -//define default segments for different components -#define STACK_SEGMENT 0x1000 //1000:xxxx -#define STACK_START_OFFSET 0xfffe - -#define DATA_SEGMENT 0x2000 -#define VBE_SEGMENT 0x3000 - -#define PMM_CONV_SEGMENT 0x4000 // 4000:xxxx is PMM conventional memory area, extended memory area - // will be anything beyound MIN_REQUIRED_MEMORY_SIZE -#define PNP_DATA_SEGMENT 0x5000 - -#define OPTION_ROM_CODE_SEGMENT 0xc000 - -#define BIOS_DATA_SEGMENT 0xF000 -// both EBDA values are _initial_ values, they may (and will be) changed at runtime by option ROMs!! -#define INITIAL_EBDA_SEGMENT 0xF600 // segment of the Extended BIOS Data Area -#define INITIAL_EBDA_SIZE 0x400 // size of the EBDA (at least 1KB!! since size is stored in KB!) - -#define PMM_INT_NUM 0xFC // we misuse INT FC for PMM functionality, at the PMM Entry Point - // Address, there will only be a call to this INT and a RETF -#define PNP_INT_NUM 0xFD - -/* array of funtion pointers to override generic interrupt handlers - * a YABEL caller can add functions to this array before calling YABEL - * if a interrupt occurs, YABEL checks wether a function is set in - * this array and only runs the generic interrupt handler code, if - * the function pointer is NULL */ -typedef int (* yabel_handleIntFunc)(void); -extern yabel_handleIntFunc yabel_intFuncArray[256]; -void mainboard_interrupt_handlers(int, yabel_handleIntFunc); - -struct device; - -u32 biosemu(u8 *biosmem, u32 biosmem_size, struct device *dev, unsigned long rom_addr); -#endif diff --git a/src/devices/oprom/yabel/compat/Makefile.inc b/src/devices/oprom/yabel/compat/Makefile.inc deleted file mode 100644 index 8121c8b461..0000000000 --- a/src/devices/oprom/yabel/compat/Makefile.inc +++ /dev/null @@ -1 +0,0 @@ -ramstage-y += functions.c diff --git a/src/devices/oprom/yabel/compat/functions.c b/src/devices/oprom/yabel/compat/functions.c deleted file mode 100644 index 542c81f315..0000000000 --- a/src/devices/oprom/yabel/compat/functions.c +++ /dev/null @@ -1,59 +0,0 @@ -/**************************************************************************** - * YABEL BIOS Emulator - * - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Copyright (c) 2008 Pattrick Hueper - ****************************************************************************/ - -/* this file contains functions provided by SLOF, that the current biosemu implementation needs - * they should go away inthe future... - */ - -#include -#include -#include -#include "../debug.h" -#include "../biosemu.h" -#include "../vbe.h" -#include "../compat/time.h" - -#define VMEM_SIZE (1024 * 1024) /* 1 MB */ - -#if !CONFIG_YABEL_DIRECTHW -#if CONFIG_YABEL_VIRTMEM_LOCATION -u8* vmem = (u8 *) CONFIG_YABEL_VIRTMEM_LOCATION; -#else -u8* vmem = (u8 *) (16*1024*1024); /* default to 16MB */ -#endif -#else -u8* vmem = NULL; -#endif - -void run_bios(struct device * dev, unsigned long addr) -{ - - biosemu(vmem, VMEM_SIZE, dev, addr); - -#if CONFIG_FRAMEBUFFER_SET_VESA_MODE - vbe_set_graphics(); -#endif -} - -unsigned long tb_freq = 0; - -u64 get_time(void) -{ - u64 act; - u32 eax, edx; - - __asm__ __volatile__( - "rdtsc" - : "=a"(eax), "=d"(edx) - : /* no inputs, no clobber */); - act = ((u64) edx << 32) | eax; - return act; -} diff --git a/src/devices/oprom/yabel/compat/of.h b/src/devices/oprom/yabel/compat/of.h deleted file mode 100644 index 6a00f7a316..0000000000 --- a/src/devices/oprom/yabel/compat/of.h +++ /dev/null @@ -1,55 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - - -#ifndef OF_H -#define OF_H -#define p32 int -#define p32cast (int) (unsigned long) (void*) - -#define phandle_t p32 -#define ihandle_t p32 - -typedef struct -{ - unsigned int serv; - int nargs; - int nrets; - unsigned int args[16]; -} of_arg_t; - - -phandle_t of_finddevice (const char *); -phandle_t of_peer (phandle_t); -phandle_t of_child (phandle_t); -phandle_t of_parent (phandle_t); -int of_getprop (phandle_t, const char *, void *, int); -void * of_call_method_3 (const char *, ihandle_t, int); - - -ihandle_t of_open (const char *); -void of_close(ihandle_t); -int of_read (ihandle_t , void*, int); -int of_write (ihandle_t, void*, int); -int of_seek (ihandle_t, int, int); - -void * of_claim(void *, unsigned int , unsigned int ); -void of_release(void *, unsigned int ); - -int of_yield(void); -void * of_set_callback(void *); - -int vpd_read(unsigned int , unsigned int , char *); -int vpd_write(unsigned int , unsigned int , char *); -int write_mm_log(char *, unsigned int , unsigned short ); - -#endif diff --git a/src/devices/oprom/yabel/compat/rtas.h b/src/devices/oprom/yabel/compat/rtas.h deleted file mode 100644 index 25cabf4d6a..0000000000 --- a/src/devices/oprom/yabel/compat/rtas.h +++ /dev/null @@ -1,45 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - - -#ifndef RTAS_H -#define RTAS_H - -#include "of.h" - -typedef struct dtime { - unsigned int year; - unsigned int month; - unsigned int day; - unsigned int hour; - unsigned int minute; - unsigned int second; - unsigned int nano; -} dtime; - -typedef void (*thread_t) (int); - -int rtas_token(const char *); -int rtas_call(int, int, int, int *, ...); -void rtas_init(void); -int rtas_pci_config_read (long long, int, int, int, int); -int rtas_pci_config_write (long long, int, int, int, int, int); -int rtas_set_time_of_day(dtime *); -int rtas_get_time_of_day(dtime *); -int rtas_ibm_update_flash_64(long long, long long); -int rtas_ibm_update_flash_64_and_reboot(long long, long long); -int rtas_system_reboot(void); -int rtas_start_cpu (int, thread_t, int); -int rtas_stop_self (void); -int rtas_ibm_manage_flash(int); - -#endif diff --git a/src/devices/oprom/yabel/compat/time.h b/src/devices/oprom/yabel/compat/time.h deleted file mode 100644 index 18dba3aa85..0000000000 --- a/src/devices/oprom/yabel/compat/time.h +++ /dev/null @@ -1,18 +0,0 @@ -/**************************************************************************** - * YABEL BIOS Emulator - * - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Copyright (c) 2008 Pattrick Hueper - ****************************************************************************/ - -#ifndef _BIOSEMU_COMPAT_TIME_H -#define _BIOSEMU_COMPAT_TIME_H - -/* TODO: check how this works in x86 */ -extern unsigned long tb_freq; -u64 get_time(void); -#endif diff --git a/src/devices/oprom/yabel/debug.c b/src/devices/oprom/yabel/debug.c deleted file mode 100644 index 7cda8af0b1..0000000000 --- a/src/devices/oprom/yabel/debug.c +++ /dev/null @@ -1,54 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * Copyright (c) 2008, 2009 Pattrick Hueper - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - -#include "debug.h" - -u32 debug_flags = 0; - -void -dump(u8 * addr, u32 len) -{ - printf("\n%s(%p, %x):\n", __func__, addr, len); - while (len) { - unsigned int tmpCnt = len; - unsigned char x; - if (tmpCnt > 8) - tmpCnt = 8; - printf("\n%p: ", addr); - // print hex - while (tmpCnt--) { - set_ci(); - x = *addr++; - clr_ci(); - printf("%02x ", x); - } - tmpCnt = len; - if (tmpCnt > 8) - tmpCnt = 8; - len -= tmpCnt; - //reset addr ptr to print ascii - addr = addr - tmpCnt; - // print ascii - while (tmpCnt--) { - set_ci(); - x = *addr++; - clr_ci(); - if ((x < 32) || (x >= 127)) { - //non-printable char - x = '.'; - } - printf("%c", x); - } - } - printf("\n"); -} diff --git a/src/devices/oprom/yabel/debug.h b/src/devices/oprom/yabel/debug.h deleted file mode 100644 index 9361553da7..0000000000 --- a/src/devices/oprom/yabel/debug.h +++ /dev/null @@ -1,105 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * Copyright (c) 2009 Pattrick Hueper - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ -#ifndef _BIOSEMU_DEBUG_H_ -#define _BIOSEMU_DEBUG_H_ - -#include - -extern u32 debug_flags; -// from x86emu...needed for debugging -extern void x86emu_dump_xregs(void); - -/* printf is not available in coreboot... use printk */ -#include -#include "x86emu/x86emu.h" -#define printf(x...) printk(BIOS_DEBUG, x) - -/* PH: empty versions of set/clr_ci - * TODO: remove! */ -static inline void clr_ci(void) {}; -static inline void set_ci(void) {}; - -/* debug_flags is a binary switch that allows you to select the following items - * to debug. 1=on 0=off. After you decide what you want to debug create the - * binary value, convert to hex and set the option. These options can be - * selected in Kconfig. - * - * |-DEBUG_JMP - print info about JMP and RETF opcodes from x86emu - * ||-DEBUG_TRACE_X86EMU - print _all_ opcodes that are executed by x86emu (WARNING: this will produce a LOT of output) - * |||-Currently unused - * ||||-Currently unused - * |||||-Currently unused - * ||||||-DEBUG_PNP - Print Plug And Play access made by option rom - * |||||||-DEBUG_DISK - Print Disk I/O related messages, currently unused - * ||||||||-DEBUG_PMM - Print messages related to POST Memory Manager (PMM) - * |||||||||-DEBUG_VBE - Print messages related to VESA BIOS Extension (VBE) functions - * ||||||||||-DEBUG_PRINT_INT10 - let INT10 (i.e. character output) calls print messages to Debug output - * |||||||||||-DEBUG_INTR - Print messages related to interrupt handling - * ||||||||||||-DEBUG_CHECK_VMEM_ACCESS - Print messages related to accesse to certain areas of the virtual Memory (e.g. BDA (BIOS Data Area) or Interrupt Vectors) - * |||||||||||||-DEBUG_MEM - Print memory access made by option rom (NOTE: this also includes accesses to fetch instructions) - * ||||||||||||||-DEBUG_IO - Print I/O access made by option rom - * 11000111111111 - Max Binary Value, Debug All (WARNING: - This could run for hours) - */ - -#define DEBUG_IO 0x1 -#define DEBUG_MEM 0x2 -// set this to print messages for certain virtual memory accesses (Interrupt Vectors, ...) -#define DEBUG_CHECK_VMEM_ACCESS 0x4 -#define DEBUG_INTR 0x8 -#define DEBUG_PRINT_INT10 0x10 // set to have the INT10 routine print characters -#define DEBUG_VBE 0x20 -#define DEBUG_PMM 0x40 -#define DEBUG_DISK 0x80 -#define DEBUG_PNP 0x100 - -#define DEBUG_TRACE_X86EMU 0x1000 -// set to enable tracing of JMPs in x86emu -#define DEBUG_JMP 0x2000 - -#if CONFIG_X86EMU_DEBUG - -#define CHECK_DBG(_flag) if (debug_flags & _flag) - -#define DEBUG_PRINTF(_x...) printf(_x); -// prints the CS:IP before the printout, NOTE: actually its CS:IP of the _next_ instruction -// to be executed, since the x86emu advances CS:IP _before_ actually executing an instruction -#define DEBUG_PRINTF_CS_IP(_x...) DEBUG_PRINTF("%x:%x ", M.x86.R_CS, M.x86.R_IP); DEBUG_PRINTF(_x); - -#define DEBUG_PRINTF_IO(_x...) CHECK_DBG(DEBUG_IO) { DEBUG_PRINTF_CS_IP(_x) } -#define DEBUG_PRINTF_MEM(_x...) CHECK_DBG(DEBUG_MEM) { DEBUG_PRINTF_CS_IP(_x) } -#define DEBUG_PRINTF_INTR(_x...) CHECK_DBG(DEBUG_INTR) { DEBUG_PRINTF_CS_IP(_x) } -#define DEBUG_PRINTF_VBE(_x...) CHECK_DBG(DEBUG_VBE) { DEBUG_PRINTF_CS_IP(_x) } -#define DEBUG_PRINTF_PMM(_x...) CHECK_DBG(DEBUG_PMM) { DEBUG_PRINTF_CS_IP(_x) } -#define DEBUG_PRINTF_DISK(_x...) CHECK_DBG(DEBUG_DISK) { DEBUG_PRINTF_CS_IP(_x) } -#define DEBUG_PRINTF_PNP(_x...) CHECK_DBG(DEBUG_PNP) { DEBUG_PRINTF_CS_IP(_x) } - -#else - -#define CHECK_DBG(_flag) if (0) - -#define DEBUG_PRINTF(_x...) -#define DEBUG_PRINTF_CS_IP(_x...) - -#define DEBUG_PRINTF_IO(_x...) -#define DEBUG_PRINTF_MEM(_x...) -#define DEBUG_PRINTF_INTR(_x...) -#define DEBUG_PRINTF_VBE(_x...) -#define DEBUG_PRINTF_PMM(_x...) -#define DEBUG_PRINTF_DISK(_x...) -#define DEBUG_PRINTF_PNP(_x...) - -#endif //DEBUG - -void dump(u8 * addr, u32 len); - -#endif diff --git a/src/devices/oprom/yabel/device.c b/src/devices/oprom/yabel/device.c deleted file mode 100644 index b09f50e4ac..0000000000 --- a/src/devices/oprom/yabel/device.c +++ /dev/null @@ -1,471 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * Copyright (c) 2008, 2009 Pattrick Hueper - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - - -#include "device.h" -#include "compat/rtas.h" -#include -#include "debug.h" - -#include -#include -#include -#include - -/* the device we are working with... */ -biosemu_device_t bios_device; -//max. 6 BARs and 1 Exp.ROM plus CfgSpace and 3 legacy ranges, plus 2 "special" memory ranges -translate_address_t translate_address_array[13]; -u8 taa_last_entry; - -typedef struct { - u8 info; - u8 bus; - u8 devfn; - u8 cfg_space_offset; - u64 address; - u64 size; -} __attribute__ ((__packed__)) assigned_address_t; - -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL -/* coreboot version */ - -static void -biosemu_dev_get_addr_info(void) -{ - int taa_index = 0; - struct resource *r; - u8 bus = bios_device.dev->bus->secondary; - u16 devfn = bios_device.dev->path.pci.devfn; - - bios_device.bus = bus; - bios_device.devfn = devfn; - - DEBUG_PRINTF("bus: %x, devfn: %x\n", bus, devfn); - for (r = bios_device.dev->resource_list; r; r = r->next) { - translate_address_array[taa_index].info = r->flags; - translate_address_array[taa_index].bus = bus; - translate_address_array[taa_index].devfn = devfn; - translate_address_array[taa_index].cfg_space_offset = - r->index; - translate_address_array[taa_index].address = r->base; - translate_address_array[taa_index].size = r->size; - /* dont translate addresses... all addresses are 1:1 */ - translate_address_array[taa_index].address_offset = 0; - taa_index++; - } - /* Expansion ROM */ - translate_address_array[taa_index].info = IORESOURCE_MEM | IORESOURCE_READONLY; - translate_address_array[taa_index].bus = bus; - translate_address_array[taa_index].devfn = devfn; - translate_address_array[taa_index].cfg_space_offset = 0x30; - translate_address_array[taa_index].address = bios_device.img_addr; - translate_address_array[taa_index].size = 0; /* TODO: do we need the size? */ - /* dont translate addresses... all addresses are 1:1 */ - translate_address_array[taa_index].address_offset = 0; - taa_index++; - /* legacy ranges if its a VGA card... */ - if ((bios_device.dev->class & 0xFF0000) == 0x030000) { - DEBUG_PRINTF("%s: VGA device found, adding legacy resources... \n", __func__); - /* I/O 0x3B0-0x3BB */ - translate_address_array[taa_index].info = IORESOURCE_FIXED | IORESOURCE_IO; - translate_address_array[taa_index].bus = bus; - translate_address_array[taa_index].devfn = devfn; - translate_address_array[taa_index].cfg_space_offset = 0; - translate_address_array[taa_index].address = 0x3b0; - translate_address_array[taa_index].size = 0xc; - /* dont translate addresses... all addresses are 1:1 */ - translate_address_array[taa_index].address_offset = 0; - taa_index++; - /* I/O 0x3C0-0x3DF */ - translate_address_array[taa_index].info = IORESOURCE_FIXED | IORESOURCE_IO; - translate_address_array[taa_index].bus = bus; - translate_address_array[taa_index].devfn = devfn; - translate_address_array[taa_index].cfg_space_offset = 0; - translate_address_array[taa_index].address = 0x3c0; - translate_address_array[taa_index].size = 0x20; - /* dont translate addresses... all addresses are 1:1 */ - translate_address_array[taa_index].address_offset = 0; - taa_index++; - /* Mem 0xA0000-0xBFFFF */ - translate_address_array[taa_index].info = IORESOURCE_FIXED | IORESOURCE_MEM; - translate_address_array[taa_index].bus = bus; - translate_address_array[taa_index].devfn = devfn; - translate_address_array[taa_index].cfg_space_offset = 0; - translate_address_array[taa_index].address = 0xa0000; - translate_address_array[taa_index].size = 0x20000; - /* dont translate addresses... all addresses are 1:1 */ - translate_address_array[taa_index].address_offset = 0; - taa_index++; - } - // store last entry index of translate_address_array - taa_last_entry = taa_index - 1; -#if CONFIG_X86EMU_DEBUG - //dump translate_address_array - printf("translate_address_array: \n"); - translate_address_t ta; - int i; - for (i = 0; i <= taa_last_entry; i++) { - ta = translate_address_array[i]; - printf - ("%d: info: %08lx bus: %02x devfn: %02x cfg_space_offset: %02x\n\taddr: %016llx\n\toffs: %016llx\n\tsize: %016llx\n", - i, ta.info, ta.bus, ta.devfn, ta.cfg_space_offset, - ta.address, ta.address_offset, ta.size); - } -#endif -} -#else -// use translate_address_dev and get_puid from net-snk's net_support.c -void translate_address_dev(u64 *, phandle_t); -u64 get_puid(phandle_t node); - - -// scan all adresses assigned to the device ("assigned-addresses" and "reg") -// store in translate_address_array for faster translation using dev_translate_address -void -biosemu_dev_get_addr_info(void) -{ - // get bus/dev/fn from assigned-addresses - int32_t len; - //max. 6 BARs and 1 Exp.ROM plus CfgSpace and 3 legacy ranges - assigned_address_t buf[11]; - len = - of_getprop(bios_device.phandle, "assigned-addresses", buf, - sizeof(buf)); - bios_device.bus = buf[0].bus; - bios_device.devfn = buf[0].devfn; - DEBUG_PRINTF("bus: %x, devfn: %x\n", bios_device.bus, - bios_device.devfn); - //store address translations for all assigned-addresses and regs in - //translate_address_array for faster translation later on... - int i = 0; - // index to insert data into translate_address_array - int taa_index = 0; - u64 address_offset; - for (i = 0; i < (len / sizeof(assigned_address_t)); i++, taa_index++) { - //copy all info stored in assigned-addresses - translate_address_array[taa_index].info = buf[i].info; - translate_address_array[taa_index].bus = buf[i].bus; - translate_address_array[taa_index].devfn = buf[i].devfn; - translate_address_array[taa_index].cfg_space_offset = - buf[i].cfg_space_offset; - translate_address_array[taa_index].address = buf[i].address; - translate_address_array[taa_index].size = buf[i].size; - // translate first address and store it as address_offset - address_offset = buf[i].address; - translate_address_dev(&address_offset, bios_device.phandle); - translate_address_array[taa_index].address_offset = - address_offset - buf[i].address; - } - //get "reg" property - len = of_getprop(bios_device.phandle, "reg", buf, sizeof(buf)); - for (i = 0; i < (len / sizeof(assigned_address_t)); i++) { - if ((buf[i].size == 0) || (buf[i].cfg_space_offset != 0)) { - // we dont care for ranges with size 0 and - // BARs and Expansion ROM must be in assigned-addresses... so in reg - // we only look for those without config space offset set... - // i.e. the legacy ranges - continue; - } - //copy all info stored in assigned-addresses - translate_address_array[taa_index].info = buf[i].info; - translate_address_array[taa_index].bus = buf[i].bus; - translate_address_array[taa_index].devfn = buf[i].devfn; - translate_address_array[taa_index].cfg_space_offset = - buf[i].cfg_space_offset; - translate_address_array[taa_index].address = buf[i].address; - translate_address_array[taa_index].size = buf[i].size; - // translate first address and store it as address_offset - address_offset = buf[i].address; - translate_address_dev(&address_offset, bios_device.phandle); - translate_address_array[taa_index].address_offset = - address_offset - buf[i].address; - taa_index++; - } - // store last entry index of translate_address_array - taa_last_entry = taa_index - 1; -#if CONFIG_X86EMU_DEBUG - //dump translate_address_array - printf("translate_address_array: \n"); - translate_address_t ta; - for (i = 0; i <= taa_last_entry; i++) { - ta = translate_address_array[i]; - printf - ("%d: %02x%02x%02x%02x\n\taddr: %016llx\n\toffs: %016llx\n\tsize: %016llx\n", - i, ta.info, ta.bus, ta.devfn, ta.cfg_space_offset, - ta.address, ta.address_offset, ta.size); - } -#endif -} -#endif - -// "special memory" is a hack to make some parts of memory fall through to real memory -// (ie. no translation). Necessary if option ROMs attempt DMA there, map registers or -// do similarily crazy things. -void -biosemu_add_special_memory(u32 start, u32 size) -{ - int taa_index = ++taa_last_entry; - translate_address_array[taa_index].info = IORESOURCE_FIXED | IORESOURCE_MEM; - translate_address_array[taa_index].bus = 0; - translate_address_array[taa_index].devfn = 0; - translate_address_array[taa_index].cfg_space_offset = 0; - translate_address_array[taa_index].address = start; - translate_address_array[taa_index].size = size; - /* dont translate addresses... all addresses are 1:1 */ - translate_address_array[taa_index].address_offset = 0; -} - -#if !CONFIG_PCI_OPTION_ROM_RUN_YABEL -// to simulate accesses to legacy VGA Memory (0xA0000-0xBFFFF) -// we look for the first prefetchable memory BAR, if no prefetchable BAR found, -// we use the first memory BAR -// dev_translate_addr will translate accesses to the legacy VGA Memory into the found vmem BAR -static void -biosemu_dev_find_vmem_addr(void) -{ - int i = 0; - translate_address_t ta; - s8 tai_np = -1, tai_p = -1; // translate_address_array index for non-prefetchable and prefetchable memory - //search backwards to find first entry - for (i = taa_last_entry; i >= 0; i--) { - ta = translate_address_array[i]; - if ((ta.cfg_space_offset >= 0x10) - && (ta.cfg_space_offset <= 0x24)) { - //only BARs - if ((ta.info & 0x03) >= 0x02) { - //32/64bit memory - tai_np = i; - if ((ta.info & 0x40) != 0) { - // prefetchable - tai_p = i; - } - } - } - } - if (tai_p != -1) { - ta = translate_address_array[tai_p]; - bios_device.vmem_addr = ta.address; - bios_device.vmem_size = ta.size; - DEBUG_PRINTF - ("%s: Found prefetchable Virtual Legacy Memory BAR: %llx, size: %llx\n", - __func__, bios_device.vmem_addr, - bios_device.vmem_size); - } else if (tai_np != -1) { - ta = translate_address_array[tai_np]; - bios_device.vmem_addr = ta.address; - bios_device.vmem_size = ta.size; - DEBUG_PRINTF - ("%s: Found non-prefetchable Virtual Legacy Memory BAR: %llx, size: %llx", - __func__, bios_device.vmem_addr, - bios_device.vmem_size); - } - // disable vmem - //bios_device.vmem_size = 0; -} - -void -biosemu_dev_get_puid(void) -{ - // get puid - bios_device.puid = get_puid(bios_device.phandle); - DEBUG_PRINTF("puid: 0x%llx\n", bios_device.puid); -} -#endif - -static void -biosemu_dev_get_device_vendor_id(void) -{ - - u32 pci_config_0; -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL - pci_config_0 = pci_read_config32(bios_device.dev, 0x0); -#else - pci_config_0 = - rtas_pci_config_read(bios_device.puid, 4, bios_device.bus, - bios_device.devfn, 0x0); -#endif - bios_device.pci_device_id = - (u16) ((pci_config_0 & 0xFFFF0000) >> 16); - bios_device.pci_vendor_id = (u16) (pci_config_0 & 0x0000FFFF); - DEBUG_PRINTF("PCI Device ID: %04x, PCI Vendor ID: %x\n", - bios_device.pci_device_id, bios_device.pci_vendor_id); -} - -/* Check whether the device has a valid Expansion ROM and search the PCI Data - * Structure and any Expansion ROM Header (using dev_scan_exp_header()) for - * needed information. If the rom_addr parameter is != 0, it is the address of - * the Expansion ROM image and will be used, if it is == 0, the Expansion ROM - * BAR address will be used. - */ -u8 -biosemu_dev_check_exprom(unsigned long rom_base_addr) -{ - int i = 0; - translate_address_t ta; - u16 pci_ds_offset; - pci_data_struct_t pci_ds; - if (rom_base_addr == 0) { - // check for ExpROM Address (Offset 30) in taa - for (i = 0; i <= taa_last_entry; i++) { - ta = translate_address_array[i]; - if (ta.cfg_space_offset == 0x30) { - //translated address - rom_base_addr = ta.address + ta.address_offset; - break; - } - } - } - /* In the ROM there could be multiple Expansion ROM Images... start - * searching them for an x86 image. - */ - do { - if (rom_base_addr == 0) { - printf("Error: no Expansion ROM address found!\n"); - return -1; - } - set_ci(); - u16 rom_signature = in16le((void *) rom_base_addr); - clr_ci(); - if (rom_signature != 0xaa55) { - printf - ("Error: invalid Expansion ROM signature: %02x!\n", - *((u16 *) rom_base_addr)); - return -1; - } - set_ci(); - // at offset 0x18 is the (16bit little-endian) pointer to the PCI Data Structure - pci_ds_offset = in16le((void *) (rom_base_addr + 0x18)); - //copy the PCI Data Structure - memcpy(&pci_ds, (void *) (rom_base_addr + pci_ds_offset), - sizeof(pci_ds)); - clr_ci(); -#if CONFIG_X86EMU_DEBUG - DEBUG_PRINTF("PCI Data Structure @%lx:\n", - rom_base_addr + pci_ds_offset); - dump((void *) &pci_ds, sizeof(pci_ds)); -#endif - if (strncmp((const char *) pci_ds.signature, "PCIR", 4) != 0) { - printf("Invalid PCI Data Structure found!\n"); - break; - } - //little-endian conversion - pci_ds.vendor_id = in16le(&pci_ds.vendor_id); - pci_ds.device_id = in16le(&pci_ds.device_id); - pci_ds.img_length = in16le(&pci_ds.img_length); - pci_ds.pci_ds_length = in16le(&pci_ds.pci_ds_length); -#ifdef DO_THIS_TEST_TWICE - if (pci_ds.vendor_id != bios_device.pci_vendor_id) { - printf - ("Image has invalid Vendor ID: %04x, expected: %04x\n", - pci_ds.vendor_id, bios_device.pci_vendor_id); - break; - } - if (pci_ds.device_id != bios_device.pci_device_id) { - printf - ("Image has invalid Device ID: %04x, expected: %04x\n", - pci_ds.device_id, bios_device.pci_device_id); - break; - } -#endif - DEBUG_PRINTF("Image Length: %d\n", pci_ds.img_length * 512); - DEBUG_PRINTF("Image Code Type: %d\n", pci_ds.code_type); - if (pci_ds.code_type == 0) { - //x86 image - //store image address and image length in bios_device struct - bios_device.img_addr = rom_base_addr; - bios_device.img_size = pci_ds.img_length * 512; - // we found the image, exit the loop - break; - } else { - // no x86 image, check next image (if any) - rom_base_addr += pci_ds.img_length * 512; - } - if ((pci_ds.indicator & 0x80) == 0x80) { - //last image found, exit the loop - DEBUG_PRINTF("Last PCI Expansion ROM Image found.\n"); - break; - } - } - while (bios_device.img_addr == 0); - // in case we did not find a valid x86 Expansion ROM Image - if (bios_device.img_addr == 0) { - printf("Error: no valid x86 Expansion ROM Image found!\n"); - return -1; - } - return 0; -} - -u8 -biosemu_dev_init(struct device * device) -{ - u8 rval = 0; - //init bios_device struct - DEBUG_PRINTF("%s\n", __func__); - memset(&bios_device, 0, sizeof(bios_device)); - -#if !CONFIG_PCI_OPTION_ROM_RUN_YABEL - bios_device.ihandle = of_open(device_name); - if (bios_device.ihandle == 0) { - DEBUG_PRINTF("%s is no valid device!\n", device_name); - return -1; - } - bios_device.phandle = of_finddevice(device_name); -#else - bios_device.dev = device; -#endif - biosemu_dev_get_addr_info(); -#if !CONFIG_PCI_OPTION_ROM_RUN_YABEL - biosemu_dev_find_vmem_addr(); - biosemu_dev_get_puid(); -#endif - biosemu_dev_get_device_vendor_id(); - return rval; -} - -// translate address function using translate_address_array assembled -// by dev_get_addr_info... MUCH faster than calling translate_address_dev -// and accessing client interface for every translation... -// returns: 0 if addr not found in translate_address_array, 1 if found. -u8 -biosemu_dev_translate_address(int type, unsigned long * addr) -{ - int i = 0; - translate_address_t ta; -#if !CONFIG_PCI_OPTION_ROM_RUN_YABEL - /* we dont need this hack for coreboot... we can access legacy areas */ - //check if it is an access to legacy VGA Mem... if it is, map the address - //to the vmem BAR and then translate it... - // (translation info provided by Ben Herrenschmidt) - // NOTE: the translation seems to only work for NVIDIA cards... but it is needed - // to make some NVIDIA cards work at all... - if ((bios_device.vmem_size > 0) - && ((*addr >= 0xA0000) && (*addr < 0xB8000))) { - *addr = (*addr - 0xA0000) * 4 + 2 + bios_device.vmem_addr; - } - if ((bios_device.vmem_size > 0) - && ((*addr >= 0xB8000) && (*addr < 0xC0000))) { - u8 shift = *addr & 1; - *addr &= 0xfffffffe; - *addr = (*addr - 0xB8000) * 4 + shift + bios_device.vmem_addr; - } -#endif - for (i = 0; i <= taa_last_entry; i++) { - ta = translate_address_array[i]; - if ((*addr >= ta.address) && (*addr <= (ta.address + ta.size)) && (ta.info & type)) { - *addr += ta.address_offset; - return 1; - } - } - return 0; -} diff --git a/src/devices/oprom/yabel/device.h b/src/devices/oprom/yabel/device.h deleted file mode 100644 index edee44d20e..0000000000 --- a/src/devices/oprom/yabel/device.h +++ /dev/null @@ -1,185 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * Copyright (c) 2008, 2009 Pattrick Hueper - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - -#ifndef DEVICE_LIB_H -#define DEVICE_LIB_H - -#include -#include -#include "compat/of.h" -#include "debug.h" - - -// a Expansion Header Struct as defined in Plug and Play BIOS Spec 1.0a Chapter 3.2 -typedef struct { - char signature[4]; // signature - u8 structure_revision; - u8 length; // in 16 byte blocks - u16 next_header_offset; // offset to next Expansion Header as 16bit little-endian value, as offset from the start of the Expansion ROM - u8 reserved; - u8 checksum; // the sum of all bytes of the Expansion Header must be 0 - u32 device_id; // PnP Device ID as 32bit little-endian value - u16 p_manufacturer_string; //16bit little-endian offset from start of Expansion ROM - u16 p_product_string; //16bit little-endian offset from start of Expansion ROM - u8 device_base_type; - u8 device_sub_type; - u8 device_if_type; - u8 device_indicators; - // the following vectors are all 16bit little-endian offsets from start of Expansion ROM - u16 bcv; // Boot Connection Vector - u16 dv; // Disconnect Vector - u16 bev; // Bootstrap Entry Vector - u16 reserved_2; - u16 sriv; // Static Resource Information Vector -} __attribute__ ((__packed__)) exp_header_struct_t; - -// a PCI Data Struct as defined in PCI 2.3 Spec Chapter 6.3.1.2 -typedef struct { - u8 signature[4]; // signature, the String "PCIR" - u16 vendor_id; - u16 device_id; - u16 reserved; - u16 pci_ds_length; // PCI Data Structure Length, 16bit little-endian value - u8 pci_ds_revision; - u8 class_code[3]; - u16 img_length; // length of the Exp.ROM Image, 16bit little-endian value in 512 bytes - u16 img_revision; - u8 code_type; - u8 indicator; - u16 reserved_2; -} __attribute__ ((__packed__)) pci_data_struct_t; - -typedef struct { - u8 bus; - u8 devfn; -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL - struct device* dev; -#else - u64 puid; - phandle_t phandle; - ihandle_t ihandle; -#endif - // store the address of the BAR that is used to simulate - // legacy VGA memory accesses - u64 vmem_addr; - u64 vmem_size; - // used to buffer I/O Accesses, that do not access the I/O Range of the device... - // 64k might be overkill, but we can buffer all I/O accesses... - u8 io_buffer[64 * 1024]; - u16 pci_vendor_id; - u16 pci_device_id; - // translated address of the "PC-Compatible" Expansion ROM Image for this device - unsigned long img_addr; - u32 img_size; // size of the Expansion ROM Image (read from the PCI Data Structure) -} biosemu_device_t; - -typedef struct { -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL - unsigned long info; -#else - u8 info; -#endif - u8 bus; - u8 devfn; - u8 cfg_space_offset; - u64 address; - u64 address_offset; - u64 size; -} __attribute__ ((__packed__)) translate_address_t; - -// array to store address translations for this -// device. Needed for faster address translation, so -// not every I/O or Memory Access needs to call translate_address_dev -// and access the device tree -// 6 BARs, 1 Exp. ROM, 1 Cfg.Space, and 3 Legacy, plus 2 "special" -// translations are supported... this should be enough for -// most devices... for VGA it is enough anyways... -extern translate_address_t translate_address_array[13]; - -// index of last translate_address_array entry -// set by get_dev_addr_info function -extern u8 taa_last_entry; - -// add 1:1 mapped memory regions to translation table -void biosemu_add_special_memory(u32 start, u32 size); - -/* the device we are working with... */ -extern biosemu_device_t bios_device; - -u8 biosemu_dev_init(struct device * device); -// NOTE: for dev_check_exprom to work, biosemu_dev_init MUST be called first! -u8 biosemu_dev_check_exprom(unsigned long rom_base_addr); - -u8 biosemu_dev_translate_address(int type, unsigned long * addr); - -/* endianness swap functions for 16 and 32 bit words - * copied from axon_pciconfig.c - */ -static inline void -out32le(void *addr, u32 val) -{ -#ifdef __i386 - *((u32*) addr) = cpu_to_le32(val); -#else - asm volatile ("stwbrx %0, 0, %1"::"r" (val), "r"(addr)); -#endif -} - -static inline u32 -in32le(void *addr) -{ - u32 val; -#ifdef __i386 - val = cpu_to_le32(*((u32 *) addr)); -#else - asm volatile ("lwbrx %0, 0, %1":"=r" (val):"r"(addr)); -#endif - return val; -} - -static inline void -out16le(void *addr, u16 val) -{ -#ifdef __i386 - *((u16*) addr) = cpu_to_le16(val); -#else - asm volatile ("sthbrx %0, 0, %1"::"r" (val), "r"(addr)); -#endif -} - -static inline u16 -in16le(void *addr) -{ - u16 val; -#ifdef __i386 - val = cpu_to_le16(*((u16*) addr)); -#else - asm volatile ("lhbrx %0, 0, %1":"=r" (val):"r"(addr)); -#endif - return val; -} - -/* debug function, dumps HID1 and HID4 to detect whether caches are on/off */ -static inline void -dumpHID(void) -{ - u64 hid; - //HID1 = 1009 - __asm__ __volatile__("mfspr %0, 1009":"=r"(hid)); - printf("HID1: %016llx\n", hid); - //HID4 = 1012 - __asm__ __volatile__("mfspr %0, 1012":"=r"(hid)); - printf("HID4: %016llx\n", hid); -} - -#endif diff --git a/src/devices/oprom/yabel/interrupt.c b/src/devices/oprom/yabel/interrupt.c deleted file mode 100644 index e5b4a3cff4..0000000000 --- a/src/devices/oprom/yabel/interrupt.c +++ /dev/null @@ -1,678 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * Copyright (c) 2008, 2009 Pattrick Hueper - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - -#include -#include "compat/rtas.h" - -#include "biosemu.h" -#include "mem.h" -#include "device.h" -#include "debug.h" -#include "pmm.h" -#include "interrupt.h" - -#include -#include "../x86emu/prim_ops.h" - -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL -#include -#include -#endif - - -//setup to run the code at the address, that the Interrupt Vector points to... -static void -setupInt(int intNum) -{ - DEBUG_PRINTF_INTR("%s(%x): executing interrupt handler @%08x\n", - __func__, intNum, my_rdl(intNum * 4)); - // push current R_FLG... will be popped by IRET - push_word((u16) M.x86.R_FLG); - CLEAR_FLAG(F_IF); - CLEAR_FLAG(F_TF); - // push current CS:IP to the stack, will be popped by IRET - push_word(M.x86.R_CS); - push_word(M.x86.R_IP); - // set CS:IP to the interrupt handler address... so the next executed instruction will - // be the interrupt handler - M.x86.R_CS = my_rdw(intNum * 4 + 2); - M.x86.R_IP = my_rdw(intNum * 4); -} - -// handle int10 (VGA BIOS Interrupt) -static void -handleInt10(void) -{ - // the data for INT10 is stored in BDA (0000:0400h) offset 49h-66h - // function number in AH - //DEBUG_PRINTF_CS_IP("%s:\n", __func__); - //x86emu_dump_xregs(); - //if ((M.x86.R_IP == 0x32c2) && (M.x86.R_SI == 0x1ce2)){ - //X86EMU_trace_on(); - //M.x86.debug &= ~DEBUG_DECODE_NOPRINT_F; - //} - switch (M.x86.R_AH) { - case 0x00: - // set video mode - // BDA offset 49h is current video mode - my_wrb(0x449, M.x86.R_AL); - if (M.x86.R_AL > 7) - M.x86.R_AL = 0x20; - else if (M.x86.R_AL == 6) - M.x86.R_AL = 0x3f; - else - M.x86.R_AL = 0x30; - break; - case 0x01: - // set cursor shape - // ignore - break; - case 0x02: - // set cursor position - // BH: pagenumber, DX: cursor_pos (DH:row, DL:col) - // BDA offset 50h-60h are 8 cursor position words for - // eight possible video pages - my_wrw(0x450 + (M.x86.R_BH * 2), M.x86.R_DX); - break; - case 0x03: - //get cursor position - // BH: pagenumber - // BDA offset 50h-60h are 8 cursor position words for - // eight possible video pages - M.x86.R_AX = 0; - M.x86.R_CH = 0; // start scan line ??? - M.x86.R_CL = 0; // end scan line ??? - M.x86.R_DX = my_rdw(0x450 + (M.x86.R_BH * 2)); - break; - case 0x05: - // set active page - // BDA offset 62h is current page number - my_wrb(0x462, M.x86.R_AL); - break; - case 0x06: - //scroll up windows - break; - case 0x07: - //scroll down windows - break; - case 0x08: - //read character and attribute at position - M.x86.R_AH = 0x07; // white-on-black - M.x86.R_AL = 0x20; // a space... - break; - case 0x09: - // write character and attribute - //AL: char, BH: page number, BL: attribute, CX: number of times to write - //BDA offset 62h is current page number - CHECK_DBG(DEBUG_PRINT_INT10) { - u32 i = 0; - if (M.x86.R_BH == my_rdb(0x462)) { - for (i = 0; i < M.x86.R_CX; i++) - printf("%c", M.x86.R_AL); - } - } - break; - case 0x0a: - // write character - //AL: char, BH: page number, BL: attribute, CX: number of times to write - //BDA offset 62h is current page number - CHECK_DBG(DEBUG_PRINT_INT10) { - u32 i = 0; - if (M.x86.R_BH == my_rdb(0x462)) { - for (i = 0; i < M.x86.R_CX; i++) - printf("%c", M.x86.R_AL); - } - } - break; - case 0x0e: - // teletype output: write character and advance cursor... - //AL: char, BH: page number, BL: attribute - //BDA offset 62h is current page number - CHECK_DBG(DEBUG_PRINT_INT10) { - // we ignore the pagenumber on this call... - //if (M.x86.R_BH == my_rdb(0x462)) - { - printf("%c", M.x86.R_AL); - // for debugging, to read all lines - //if (M.x86.R_AL == 0xd) // carriage return - // printf("\n"); - } - } - break; - case 0x0f: - // get video mode - // BDA offset 49h is current video mode - // BDA offset 62h is current page number - // BDA offset 4ah is columns on screen - M.x86.R_AH = 80; //number of character columns... we hardcode it to 80 - M.x86.R_AL = my_rdb(0x449); - M.x86.R_BH = my_rdb(0x462); - break; - default: - printf("%s(): unknown function (%x) for int10 handler.\n", - __func__, M.x86.R_AH); - DEBUG_PRINTF_INTR("AX=%04x BX=%04x CX=%04x DX=%04x\n", - M.x86.R_AX, M.x86.R_BX, M.x86.R_CX, - M.x86.R_DX); - HALT_SYS(); - break; - } -} - -// this table translates ASCII chars into their XT scan codes: -static u8 keycode_table[256] = { - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 0 - 7 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 8 - 15 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 16 - 23 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 24 - 31 - 0x39, 0x02, 0x28, 0x04, 0x05, 0x06, 0x08, 0x28, // 32 - 39 - 0x0a, 0x0b, 0x09, 0x2b, 0x33, 0x0d, 0x34, 0x35, // 40 - 47 - 0x0b, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, // 48 - 55 - 0x09, 0x0a, 0x27, 0x27, 0x33, 0x2b, 0x34, 0x35, // 56 - 63 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 64 - 71 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 72 - 79 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 80 - 87 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 88 - 95 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 96 - 103 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 104 - 111 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 112 - 119 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 120 - 127 - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // ... - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, - 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, -} - -; - -static void -translate_keycode(u64 * keycode) -{ - u8 scan_code = 0; - u8 char_code = 0; - if (*keycode < 256) { - scan_code = keycode_table[*keycode]; - char_code = (u8) * keycode & 0xff; - } else { - switch (*keycode) { - case 0x1b50: - // F1 - scan_code = 0x3b; - char_code = 0x0; - break; - default: - printf("%s(): unknown multibyte keycode: %llx\n", - __func__, *keycode); - break; - } - } - //assemble scan/char code in keycode - *keycode = (u64) ((((u16) scan_code) << 8) | char_code); -} - -// handle int16 (Keyboard BIOS Interrupt) -static void -handleInt16(void) -{ - // keyboard buffer is in BIOS Memory Area: - // offset 0x1a (WORD) pointer to next char in keybuffer - // offset 0x1c (WORD) pointer to next insert slot in keybuffer - // offset 0x1e-0x3e: 16 WORD Ring Buffer - // since we currently always read the char from the FW buffer, - // we misuse the ring buffer, we use it as pointer to a u64 that stores - // multi-byte keys (e.g. special keys in VT100 terminal) - // and as long as a key is available (not 0) we dont read further keys - u64 *keycode = (u64 *) (M.mem_base + 0x41e); - s8 c; - // function number in AH - DEBUG_PRINTF_INTR("%s(): Keyboard Interrupt: function: %x.\n", - __func__, M.x86.R_AH); - DEBUG_PRINTF_INTR("AX=%04x BX=%04x CX=%04x DX=%04x\n", M.x86.R_AX, - M.x86.R_BX, M.x86.R_CX, M.x86.R_DX); - switch (M.x86.R_AH) { - case 0x00: - // get keystroke - if (*keycode) { - M.x86.R_AX = (u16) * keycode; - // clear keycode - *keycode = 0; - } else { - M.x86.R_AH = 0x61; // scancode for space key - M.x86.R_AL = 0x20; // a space - } - break; - case 0x01: - // check keystroke - // ZF set = no keystroke - // read first byte of key code - if (*keycode) { - // already read, but not yet taken - CLEAR_FLAG(F_ZF); - M.x86.R_AX = (u16) * keycode; - } else { - /* TODO: we need getchar... */ - c = -1; //getchar(); - if (c == -1) { - // no key available - SET_FLAG(F_ZF); - } else { - *keycode = c; - - // since after an ESC it may take a while to receive the next char, - // we send something that is not shown on the screen, and then try to get - // the next char - // TODO: only after ESC?? what about other multibyte keys - printf("tt%c%c", 0x08, 0x08); // 0x08 == Backspace - - /* TODO: we need getchar... */ - while ((c = -1 /*getchar()*/) != -1) { - *keycode = (*keycode << 8) | c; - DEBUG_PRINTF(" key read: %0llx\n", - *keycode); - } - translate_keycode(keycode); - DEBUG_PRINTF(" translated key: %0llx\n", - *keycode); - if (*keycode == 0) { - //not found - SET_FLAG(F_ZF); - } else { - CLEAR_FLAG(F_ZF); - M.x86.R_AX = (u16) * keycode; - //X86EMU_trace_on(); - //M.x86.debug &= ~DEBUG_DECODE_NOPRINT_F; - } - } - } - break; - default: - printf("%s(): unknown function (%x) for int16 handler.\n", - __func__, M.x86.R_AH); - DEBUG_PRINTF_INTR("AX=%04x BX=%04x CX=%04x DX=%04x\n", - M.x86.R_AX, M.x86.R_BX, M.x86.R_CX, - M.x86.R_DX); - HALT_SYS(); - break; - } -} - -// handle int1a (PCI BIOS Interrupt) -static void -handleInt1a(void) -{ - // function number in AX - u8 bus, devfn, offs; - struct device* dev; - switch (M.x86.R_AX) { - case 0xb101: - // Installation check - CLEAR_FLAG(F_CF); // clear CF - M.x86.R_EDX = 0x20494350; // " ICP" endian swapped "PCI " - M.x86.R_AL = 0x1; // Config Space Mechanism 1 supported - M.x86.R_BX = 0x0210; // PCI Interface Level Version 2.10 - M.x86.R_CL = 0xff; // number of last PCI Bus in system TODO: check! - break; - case 0xb102: - // Find PCI Device - // device_id in CX, vendor_id in DX - // device index in SI (i.e. if multiple devices with same vendor/device id - // are connected). We currently only support device index 0 - // - DEBUG_PRINTF_INTR("%s(): function: %x: PCI Find Device\n", - __func__, M.x86.R_AX); - /* FixME: support SI != 0 */ -#if CONFIG_YABEL_PCI_ACCESS_OTHER_DEVICES - dev = dev_find_device(M.x86.R_DX, M.x86.R_CX, 0); - if (dev != 0) { - DEBUG_PRINTF_INTR - ("%s(): function %x: PCI Find Device --> 0x%04x\n", - __func__, M.x86.R_AX, M.x86.R_BX); - - M.x86.R_BH = dev->bus->secondary; - M.x86.R_BL = dev->path.pci.devfn; - M.x86.R_AH = 0x00; // return code: success - CLEAR_FLAG(F_CF); -#else - // only allow the device to find itself... - if ((M.x86.R_CX == bios_device.pci_device_id) - && (M.x86.R_DX == bios_device.pci_vendor_id) - // device index must be 0 - && (M.x86.R_SI == 0)) { - CLEAR_FLAG(F_CF); - M.x86.R_AH = 0x00; // return code: success - M.x86.R_BH = bios_device.bus; - M.x86.R_BL = bios_device.devfn; -#endif - } else { - DEBUG_PRINTF_INTR - ("%s(): function %x: invalid device/vendor/device index! (%04x/%04x/%02x expected: %04x/%04x/00) \n", - __func__, M.x86.R_AX, M.x86.R_CX, M.x86.R_DX, - M.x86.R_SI, bios_device.pci_device_id, - bios_device.pci_vendor_id); - - SET_FLAG(F_CF); - M.x86.R_AH = 0x86; // return code: device not found - } - break; - case 0xb108: //read configuration byte - case 0xb109: //read configuration word - case 0xb10a: //read configuration dword - bus = M.x86.R_BH; - devfn = M.x86.R_BL; - offs = M.x86.R_DI; - DEBUG_PRINTF_INTR("%s(): function: %x: PCI Config Read from device: bus: %02x, devfn: %02x, offset: %02x\n", - __func__, M.x86.R_AX, bus, devfn, offs); -#if CONFIG_YABEL_PCI_ACCESS_OTHER_DEVICES - dev = dev_find_slot(bus, devfn); - DEBUG_PRINTF_INTR("%s(): function: %x: dev_find_slot() returned: %s\n", - __func__, M.x86.R_AX, dev_path(dev)); - if (dev == 0) { - // fail accesses to non-existent devices... -#else - dev = bios_device.dev; - if ((bus != bios_device.bus) - || (devfn != bios_device.devfn)) { - // fail accesses to any device but ours... -#endif - printf - ("%s(): Config read access invalid device! bus: %02x (%02x), devfn: %02x (%02x), offs: %02x\n", - __func__, bus, bios_device.bus, devfn, - bios_device.devfn, offs); - SET_FLAG(F_CF); - M.x86.R_AH = 0x87; //return code: bad pci register - HALT_SYS(); - return; - } else { - switch (M.x86.R_AX) { - case 0xb108: - M.x86.R_CL = -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL - pci_read_config8(dev, offs); -#else - (u8) rtas_pci_config_read(bios_device. - puid, 1, - bus, devfn, - offs); -#endif - DEBUG_PRINTF_INTR - ("%s(): function %x: PCI Config Read @%02x --> 0x%02x\n", - __func__, M.x86.R_AX, offs, - M.x86.R_CL); - break; - case 0xb109: - M.x86.R_CX = -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL - pci_read_config16(dev, offs); -#else - (u16) rtas_pci_config_read(bios_device. - puid, 2, - bus, devfn, - offs); -#endif - DEBUG_PRINTF_INTR - ("%s(): function %x: PCI Config Read @%02x --> 0x%04x\n", - __func__, M.x86.R_AX, offs, - M.x86.R_CX); - break; - case 0xb10a: - M.x86.R_ECX = -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL - pci_read_config32(dev, offs); -#else - (u32) rtas_pci_config_read(bios_device. - puid, 4, - bus, devfn, - offs); -#endif - DEBUG_PRINTF_INTR - ("%s(): function %x: PCI Config Read @%02x --> 0x%08x\n", - __func__, M.x86.R_AX, offs, - M.x86.R_ECX); - break; - } - CLEAR_FLAG(F_CF); - M.x86.R_AH = 0x0; // return code: success - } - break; - case 0xb10b: //write configuration byte - case 0xb10c: //write configuration word - case 0xb10d: //write configuration dword - bus = M.x86.R_BH; - devfn = M.x86.R_BL; - offs = M.x86.R_DI; - if ((bus != bios_device.bus) - || (devfn != bios_device.devfn)) { - // fail accesses to any device but ours... - printf - ("%s(): Config read access invalid! bus: %x (%x), devfn: %x (%x), offs: %x\n", - __func__, bus, bios_device.bus, devfn, - bios_device.devfn, offs); - SET_FLAG(F_CF); - M.x86.R_AH = 0x87; //return code: bad pci register - HALT_SYS(); - return; - } else { - switch (M.x86.R_AX) { - case 0xb10b: -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL - pci_write_config8(bios_device.dev, offs, M.x86.R_CL); -#else - rtas_pci_config_write(bios_device.puid, 1, bus, - devfn, offs, M.x86.R_CL); -#endif - DEBUG_PRINTF_INTR - ("%s(): function %x: PCI Config Write @%02x <-- 0x%02x\n", - __func__, M.x86.R_AX, offs, - M.x86.R_CL); - break; - case 0xb10c: -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL - pci_write_config16(bios_device.dev, offs, M.x86.R_CX); -#else - rtas_pci_config_write(bios_device.puid, 2, bus, - devfn, offs, M.x86.R_CX); -#endif - DEBUG_PRINTF_INTR - ("%s(): function %x: PCI Config Write @%02x <-- 0x%04x\n", - __func__, M.x86.R_AX, offs, - M.x86.R_CX); - break; - case 0xb10d: -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL - pci_write_config32(bios_device.dev, offs, M.x86.R_ECX); -#else - rtas_pci_config_write(bios_device.puid, 4, bus, - devfn, offs, M.x86.R_ECX); -#endif - DEBUG_PRINTF_INTR - ("%s(): function %x: PCI Config Write @%02x <-- 0x%08x\n", - __func__, M.x86.R_AX, offs, - M.x86.R_ECX); - break; - } - CLEAR_FLAG(F_CF); - M.x86.R_AH = 0x0; // return code: success - } - break; - default: - printf("%s(): unknown function (%x) for int1a handler.\n", - __func__, M.x86.R_AX); - DEBUG_PRINTF_INTR("AX=%04x BX=%04x CX=%04x DX=%04x\n", - M.x86.R_AX, M.x86.R_BX, M.x86.R_CX, - M.x86.R_DX); - HALT_SYS(); - break; - } -} - -// main Interrupt Handler routine, should be registered as x86emu interrupt handler -void -handleInterrupt(int intNum) -{ - u8 int_handled = 0; -#ifndef DEBUG_PRINT_INT10 - // this printf makes output by int 10 unreadable... - // so we only enable it, if int10 print is disabled - DEBUG_PRINTF_INTR("%s(%x)\n", __func__, intNum); -#endif - - /* check wether this interrupt has a function pointer set in yabel_intFuncArray and run that */ - if (yabel_intFuncArray[intNum]) { - DEBUG_PRINTF_INTR("%s(%x) intHandler overridden, calling it...\n", __func__, intNum); - int_handled = (*yabel_intFuncArray[intNum])(); - } else { - switch (intNum) { - case 0x10: //BIOS video interrupt - case 0x42: // INT 10h relocated by EGA/VGA BIOS - case 0x6d: // INT 10h relocated by VGA BIOS - // get interrupt vector from IDT (4 bytes per Interrupt starting at address 0 - if ((my_rdl(intNum * 4) == 0xF000F065) || //F000:F065 is default BIOS interrupt handler address - (my_rdl(intNum * 4) == 0xF4F4F4F4)) //invalid - { -#if 0 - // ignore interrupt... - DEBUG_PRINTF_INTR - ("%s(%x): invalid interrupt Vector (%08x) found, interrupt ignored...\n", - __func__, intNum, my_rdl(intNum * 4)); - DEBUG_PRINTF_INTR("AX=%04x BX=%04x CX=%04x DX=%04x\n", - M.x86.R_AX, M.x86.R_BX, M.x86.R_CX, - M.x86.R_DX); - //HALT_SYS(); -#endif - handleInt10(); - int_handled = 1; - } - break; - case 0x16: - // Keyboard BIOS Interrupt - handleInt16(); - int_handled = 1; - break; - case 0x1a: - // PCI BIOS Interrupt - handleInt1a(); - int_handled = 1; - break; - case PMM_INT_NUM: - /* The self-defined PMM INT number, this is called by - * the code in PMM struct, and it is handled by - * pmm_handleInt() - */ - pmm_handleInt(); - int_handled = 1; - break; - default: - printf("Interrupt %#x (Vector: %x) not implemented\n", intNum, - my_rdl(intNum * 4)); - DEBUG_PRINTF_INTR("AX=%04x BX=%04x CX=%04x DX=%04x\n", - M.x86.R_AX, M.x86.R_BX, M.x86.R_CX, - M.x86.R_DX); - int_handled = 1; - HALT_SYS(); - break; - } - } - // if we did not handle the interrupt, jump to the interrupt vector... - if (!int_handled) { - setupInt(intNum); - } -} - -// prepare and execute Interrupt 10 (VGA Interrupt) -void -runInt10(void) -{ - // Initialize stack and data segment - M.x86.R_SS = STACK_SEGMENT; - M.x86.R_DS = DATA_SEGMENT; - M.x86.R_SP = STACK_START_OFFSET; - - // push a HLT instruction and a pointer to it onto the stack - // any return will pop the pointer and jump to the HLT, thus - // exiting (more or less) cleanly - push_word(0xf4f4); //F4=HLT - //push_word(M.x86.R_SS); - //push_word(M.x86.R_SP + 2); - - // setupInt will push the current CS and IP to the stack to return to it, - // but we want to halt, so set CS:IP to the HLT instruction we just pushed - // to the stack - M.x86.R_CS = M.x86.R_SS; - M.x86.R_IP = M.x86.R_SP; // + 4; - - CHECK_DBG(DEBUG_TRACE_X86EMU) { - X86EMU_trace_on(); - } - CHECK_DBG(DEBUG_JMP) { - M.x86.debug |= DEBUG_TRACEJMP_REGS_F; - M.x86.debug |= DEBUG_TRACEJMP_REGS_F; - M.x86.debug |= DEBUG_TRACECALL_F; - M.x86.debug |= DEBUG_TRACECALL_REGS_F; - } - setupInt(0x10); - DEBUG_PRINTF_INTR("%s(): starting execution of INT10...\n", - __func__); - X86EMU_exec(); - DEBUG_PRINTF_INTR("%s(): execution finished\n", __func__); -} - -// prepare and execute Interrupt 13 (Disk Interrupt) -void -runInt13(void) -{ - // Initialize stack and data segment - M.x86.R_SS = STACK_SEGMENT; - M.x86.R_DS = DATA_SEGMENT; - M.x86.R_SP = STACK_START_OFFSET; - - // push a HLT instruction and a pointer to it onto the stack - // any return will pop the pointer and jump to the HLT, thus - // exiting (more or less) cleanly - push_word(0xf4f4); //F4=HLT - //push_word(M.x86.R_SS); - //push_word(M.x86.R_SP + 2); - - // setupInt will push the current CS and IP to the stack to return to it, - // but we want to halt, so set CS:IP to the HLT instruction we just pushed - // to the stack - M.x86.R_CS = M.x86.R_SS; - M.x86.R_IP = M.x86.R_SP; - - CHECK_DBG(DEBUG_TRACE_X86EMU) { - X86EMU_trace_on(); - } - CHECK_DBG(DEBUG_JMP) { - M.x86.debug |= DEBUG_TRACEJMP_REGS_F; - M.x86.debug |= DEBUG_TRACEJMP_REGS_F; - M.x86.debug |= DEBUG_TRACECALL_F; - M.x86.debug |= DEBUG_TRACECALL_REGS_F; - } - - setupInt(0x13); - DEBUG_PRINTF_INTR("%s(): starting execution of INT13...\n", - __func__); - X86EMU_exec(); - DEBUG_PRINTF_INTR("%s(): execution finished\n", __func__); -} diff --git a/src/devices/oprom/yabel/interrupt.h b/src/devices/oprom/yabel/interrupt.h deleted file mode 100644 index 11755e102a..0000000000 --- a/src/devices/oprom/yabel/interrupt.h +++ /dev/null @@ -1,21 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ -#ifndef _BIOSEMU_INTERRUPT_H_ -#define _BIOSEMU_INTERRUPT_H_ - -void handleInterrupt(int intNum); - -void runInt10(void); - -void runInt13(void); - -#endif diff --git a/src/devices/oprom/yabel/io.c b/src/devices/oprom/yabel/io.c deleted file mode 100644 index 5c19b5142c..0000000000 --- a/src/devices/oprom/yabel/io.c +++ /dev/null @@ -1,577 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * Copyright (c) 2009 Pattrick Hueper - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - -#include -#include "compat/rtas.h" -#include "compat/time.h" -#include "device.h" -#include "debug.h" -#include -#include "io.h" - -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL -#include -#include -#include -#endif - -#if CONFIG_ARCH_X86 -#include -#else -// these are not used, only needed for linking, must be overridden using X86emu_setupPioFuncs -// with the functions and struct below -void -outb(u8 val, u16 port) -{ - printf("WARNING: outb not implemented!\n"); - HALT_SYS(); -} - -void -outw(u16 val, u16 port) -{ - printf("WARNING: outw not implemented!\n"); - HALT_SYS(); -} - -void -outl(u32 val, u16 port) -{ - printf("WARNING: outl not implemented!\n"); - HALT_SYS(); -} - -u8 -inb(u16 port) -{ - printf("WARNING: inb not implemented!\n"); - HALT_SYS(); - return 0; -} - -u16 -inw(u16 port) -{ - printf("WARNING: inw not implemented!\n"); - HALT_SYS(); - return 0; -} - -u32 -inl(u16 port) -{ - printf("WARNING: inl not implemented!\n"); - HALT_SYS(); - return 0; -} -#endif - -#if CONFIG_YABEL_DIRECTHW -u8 my_inb(X86EMU_pioAddr addr) -{ - u8 val; - - val = inb(addr); - DEBUG_PRINTF_IO("inb(0x%04x) = 0x%02x\n", addr, val); - - return val; -} - -u16 my_inw(X86EMU_pioAddr addr) -{ - u16 val; - - val = inw(addr); - DEBUG_PRINTF_IO("inw(0x%04x) = 0x%04x\n", addr, val); - - return val; -} - -u32 my_inl(X86EMU_pioAddr addr) -{ - u32 val; - - val = inl(addr); - DEBUG_PRINTF_IO("inl(0x%04x) = 0x%08x\n", addr, val); - - return val; -} - -void my_outb(X86EMU_pioAddr addr, u8 val) -{ - DEBUG_PRINTF_IO("outb(0x%02x, 0x%04x)\n", val, addr); - outb(val, addr); -} - -void my_outw(X86EMU_pioAddr addr, u16 val) -{ - DEBUG_PRINTF_IO("outw(0x%04x, 0x%04x)\n", val, addr); - outw(val, addr); -} - -void my_outl(X86EMU_pioAddr addr, u32 val) -{ - DEBUG_PRINTF_IO("outl(0x%08x, 0x%04x)\n", val, addr); - outl(val, addr); -} - -#else - -static unsigned int -read_io(void *addr, size_t sz) -{ - unsigned int ret; - /* since we are using inb instructions, we need the port number as 16bit value */ - u16 port = (u16)(u32) addr; - - switch (sz) { - case 1: - asm volatile ("inb %1, %b0" : "=a"(ret) : "d" (port)); - break; - case 2: - asm volatile ("inw %1, %w0" : "=a"(ret) : "d" (port)); - break; - case 4: - asm volatile ("inl %1, %0" : "=a"(ret) : "d" (port)); - break; - default: - ret = 0; - } - - return ret; -} - -static int -write_io(void *addr, unsigned int value, size_t sz) -{ - u16 port = (u16)(u32) addr; - switch (sz) { - /* since we are using inb instructions, we need the port number as 16bit value */ - case 1: - asm volatile ("outb %b0, %1" : : "a"(value), "d" (port)); - break; - case 2: - asm volatile ("outw %w0, %1" : : "a"(value), "d" (port)); - break; - case 4: - asm volatile ("outl %0, %1" : : "a"(value), "d" (port)); - break; - default: - return -1; - } - - return 0; -} - -u32 pci_cfg_read(X86EMU_pioAddr addr, u8 size); -void pci_cfg_write(X86EMU_pioAddr addr, u32 val, u8 size); -u8 handle_port_61h(void); - -u8 -my_inb(X86EMU_pioAddr addr) -{ - u8 rval = 0xFF; - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_IO, &translated_addr); - if (translated != 0) { - //translation successfull, access Device I/O (BAR or Legacy...) - DEBUG_PRINTF_IO("%s(%x): access to Device I/O\n", __func__, - addr); - //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __func__, addr, translated_addr); - rval = read_io((void *)translated_addr, 1); - DEBUG_PRINTF_IO("%s(%04x) Device I/O --> %02x\n", __func__, - addr, rval); - return rval; - } else { - switch (addr) { - case 0x61: - //8254 KB Controller / Timer Port - // rval = handle_port_61h(); - rval = inb(0x61); - //DEBUG_PRINTF_IO("%s(%04x) KB / Timer Port B --> %02x\n", __func__, addr, rval); - return rval; - break; - case 0xCFC: - case 0xCFD: - case 0xCFE: - case 0xCFF: - // PCI Config Mechanism 1 Ports - return (u8) pci_cfg_read(addr, 1); - break; - case 0x0a: - CHECK_DBG(DEBUG_INTR) { - X86EMU_trace_on(); - } - M.x86.debug &= ~DEBUG_DECODE_NOPRINT_F; - //HALT_SYS(); - // no break, intentional fall-through to default!! - default: - DEBUG_PRINTF_IO - ("%s(%04x) reading from bios_device.io_buffer\n", - __func__, addr); - rval = *((u8 *) (bios_device.io_buffer + addr)); - DEBUG_PRINTF_IO("%s(%04x) I/O Buffer --> %02x\n", - __func__, addr, rval); - return rval; - break; - } - } -} - -u16 -my_inw(X86EMU_pioAddr addr) -{ - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_IO, &translated_addr); - if (translated != 0) { - //translation successfull, access Device I/O (BAR or Legacy...) - DEBUG_PRINTF_IO("%s(%x): access to Device I/O\n", __func__, - addr); - //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __func__, addr, translated_addr); - u16 rval; - if ((translated_addr & (u64) 0x1) == 0) { - // 16 bit aligned access... - u16 tempval = read_io((void *)translated_addr, 2); - //little endian conversion - rval = in16le((void *) &tempval); - } else { - // unaligned access, read single bytes, little-endian - rval = (read_io((void *)translated_addr, 1) << 8) - | (read_io((void *)(translated_addr + 1), 1)); - } - DEBUG_PRINTF_IO("%s(%04x) Device I/O --> %04x\n", __func__, - addr, rval); - return rval; - } else { - switch (addr) { - case 0xCFC: - case 0xCFE: - //PCI Config Mechanism 1 - return (u16) pci_cfg_read(addr, 2); - break; - default: - DEBUG_PRINTF_IO - ("%s(%04x) reading from bios_device.io_buffer\n", - __func__, addr); - u16 rval = - in16le((void *) bios_device.io_buffer + addr); - DEBUG_PRINTF_IO("%s(%04x) I/O Buffer --> %04x\n", - __func__, addr, rval); - return rval; - break; - } - } -} - -u32 -my_inl(X86EMU_pioAddr addr) -{ - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_IO, &translated_addr); - if (translated != 0) { - //translation successfull, access Device I/O (BAR or Legacy...) - DEBUG_PRINTF_IO("%s(%x): access to Device I/O\n", __func__, - addr); - //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __func__, addr, translated_addr); - u32 rval; - if ((translated_addr & (u64) 0x3) == 0) { - // 32 bit aligned access... - u32 tempval = read_io((void *) translated_addr, 4); - //little endian conversion - rval = in32le((void *) &tempval); - } else { - // unaligned access, read single bytes, little-endian - rval = (read_io((void *)(translated_addr), 1) << 24) - | (read_io((void *)(translated_addr + 1), 1) << 16) - | (read_io((void *)(translated_addr + 2), 1) << 8) - | (read_io((void *)(translated_addr + 3), 1)); - } - DEBUG_PRINTF_IO("%s(%04x) Device I/O --> %08x\n", __func__, - addr, rval); - return rval; - } else { - switch (addr) { - case 0xCFC: - //PCI Config Mechanism 1 - return pci_cfg_read(addr, 4); - break; - default: - DEBUG_PRINTF_IO - ("%s(%04x) reading from bios_device.io_buffer\n", - __func__, addr); - u32 rval = - in32le((void *) bios_device.io_buffer + addr); - DEBUG_PRINTF_IO("%s(%04x) I/O Buffer --> %08x\n", - __func__, addr, rval); - return rval; - break; - } - } -} - -void -my_outb(X86EMU_pioAddr addr, u8 val) -{ - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_IO, &translated_addr); - if (translated != 0) { - //translation successfull, access Device I/O (BAR or Legacy...) - DEBUG_PRINTF_IO("%s(%x, %x): access to Device I/O\n", - __func__, addr, val); - //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __func__, addr, translated_addr); - write_io((void *) translated_addr, val, 1); - DEBUG_PRINTF_IO("%s(%04x) Device I/O <-- %02x\n", __func__, - addr, val); - } else { - switch (addr) { - case 0xCFC: - case 0xCFD: - case 0xCFE: - case 0xCFF: - // PCI Config Mechanism 1 Ports - pci_cfg_write(addr, val, 1); - break; - default: - DEBUG_PRINTF_IO - ("%s(%04x,%02x) writing to bios_device.io_buffer\n", - __func__, addr, val); - *((u8 *) (bios_device.io_buffer + addr)) = val; - break; - } - } -} - -void -my_outw(X86EMU_pioAddr addr, u16 val) -{ - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_IO, &translated_addr); - if (translated != 0) { - //translation successfull, access Device I/O (BAR or Legacy...) - DEBUG_PRINTF_IO("%s(%x, %x): access to Device I/O\n", - __func__, addr, val); - //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __func__, addr, translated_addr); - if ((translated_addr & (u64) 0x1) == 0) { - // little-endian conversion - u16 tempval = in16le((void *) &val); - // 16 bit aligned access... - write_io((void *) translated_addr, tempval, 2); - } else { - // unaligned access, write single bytes, little-endian - write_io(((void *) (translated_addr + 1)), - (u8) ((val & 0xFF00) >> 8), 1); - write_io(((void *) translated_addr), - (u8) (val & 0x00FF), 1); - } - DEBUG_PRINTF_IO("%s(%04x) Device I/O <-- %04x\n", __func__, - addr, val); - } else { - switch (addr) { - case 0xCFC: - case 0xCFE: - // PCI Config Mechanism 1 Ports - pci_cfg_write(addr, val, 2); - break; - default: - DEBUG_PRINTF_IO - ("%s(%04x,%04x) writing to bios_device.io_buffer\n", - __func__, addr, val); - out16le((void *) bios_device.io_buffer + addr, val); - break; - } - } -} - -void -my_outl(X86EMU_pioAddr addr, u32 val) -{ - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_IO, &translated_addr); - if (translated != 0) { - //translation successfull, access Device I/O (BAR or Legacy...) - DEBUG_PRINTF_IO("%s(%x, %x): access to Device I/O\n", - __func__, addr, val); - //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __func__, addr, translated_addr); - if ((translated_addr & (u64) 0x3) == 0) { - // little-endian conversion - u32 tempval = in32le((void *) &val); - // 32 bit aligned access... - write_io((void *) translated_addr, tempval, 4); - } else { - // unaligned access, write single bytes, little-endian - write_io(((void *) translated_addr + 3), - (u8) ((val & 0xFF000000) >> 24), 1); - write_io(((void *) translated_addr + 2), - (u8) ((val & 0x00FF0000) >> 16), 1); - write_io(((void *) translated_addr + 1), - (u8) ((val & 0x0000FF00) >> 8), 1); - write_io(((void *) translated_addr), - (u8) (val & 0x000000FF), 1); - } - DEBUG_PRINTF_IO("%s(%04x) Device I/O <-- %08x\n", __func__, - addr, val); - } else { - switch (addr) { - case 0xCFC: - // PCI Config Mechanism 1 Ports - pci_cfg_write(addr, val, 4); - break; - default: - DEBUG_PRINTF_IO - ("%s(%04x,%08x) writing to bios_device.io_buffer\n", - __func__, addr, val); - out32le((void *) bios_device.io_buffer + addr, val); - break; - } - } -} - -u32 -pci_cfg_read(X86EMU_pioAddr addr, u8 size) -{ - u32 rval = 0xFFFFFFFF; - struct device * dev; - if ((addr >= 0xCFC) && ((addr + size) <= 0xD00)) { - // PCI Configuration Mechanism 1 step 1 - // write to 0xCF8, sets bus, device, function and Config Space offset - // later read from 0xCFC-0xCFF returns the value... - u8 bus, devfn, offs; - u32 port_cf8_val = my_inl(0xCF8); - if ((port_cf8_val & 0x80000000) != 0) { - //highest bit enables config space mapping - bus = (port_cf8_val & 0x00FF0000) >> 16; - devfn = (port_cf8_val & 0x0000FF00) >> 8; - offs = (port_cf8_val & 0x000000FF); - offs += (addr - 0xCFC); // if addr is not 0xcfc, the offset is moved accordingly - DEBUG_PRINTF_INTR("%s(): PCI Config Read from device: bus: %02x, devfn: %02x, offset: %02x\n", - __func__, bus, devfn, offs); -#if CONFIG_YABEL_PCI_ACCESS_OTHER_DEVICES - dev = dev_find_slot(bus, devfn); - DEBUG_PRINTF_INTR("%s(): dev_find_slot() returned: %s\n", - __func__, dev_path(dev)); - if (dev == 0) { - // fail accesses to non-existent devices... -#else - dev = bios_device.dev; - if ((bus != bios_device.bus) - || (devfn != bios_device.devfn)) { - // fail accesses to any device but ours... -#endif - printf - ("%s(): Config read access invalid device! bus: %02x (%02x), devfn: %02x (%02x), offs: %02x\n", - __func__, bus, bios_device.bus, devfn, - bios_device.devfn, offs); - SET_FLAG(F_CF); - HALT_SYS(); - return 0; - } else { -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL - switch (size) { - case 1: - rval = pci_read_config8(dev, offs); - break; - case 2: - rval = pci_read_config16(dev, offs); - break; - case 4: - rval = pci_read_config32(dev, offs); - break; - } -#else - rval = - (u32) rtas_pci_config_read(bios_device. - puid, size, - bus, devfn, - offs); -#endif - DEBUG_PRINTF_IO - ("%s(%04x) PCI Config Read @%02x, size: %d --> 0x%08x\n", - __func__, addr, offs, size, rval); - } - } - } - return rval; -} - -void -pci_cfg_write(X86EMU_pioAddr addr, u32 val, u8 size) -{ - if ((addr >= 0xCFC) && ((addr + size) <= 0xD00)) { - // PCI Configuration Mechanism 1 step 1 - // write to 0xCF8, sets bus, device, function and Config Space offset - // later write to 0xCFC-0xCFF sets the value... - u8 bus, devfn, offs; - u32 port_cf8_val = my_inl(0xCF8); - if ((port_cf8_val & 0x80000000) != 0) { - //highest bit enables config space mapping - bus = (port_cf8_val & 0x00FF0000) >> 16; - devfn = (port_cf8_val & 0x0000FF00) >> 8; - offs = (port_cf8_val & 0x000000FF); - offs += (addr - 0xCFC); // if addr is not 0xcfc, the offset is moved accordingly - if ((bus != bios_device.bus) - || (devfn != bios_device.devfn)) { - // fail accesses to any device but ours... - printf - ("Config write access invalid! PCI device %x:%x.%x, offs: %x\n", - bus, devfn >> 3, devfn & 7, offs); -#if !CONFIG_YABEL_PCI_FAKE_WRITING_OTHER_DEVICES_CONFIG - HALT_SYS(); -#endif - } else { -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL - switch (size) { - case 1: - pci_write_config8(bios_device.dev, offs, val); - break; - case 2: - pci_write_config16(bios_device.dev, offs, val); - break; - case 4: - pci_write_config32(bios_device.dev, offs, val); - break; - } -#else - rtas_pci_config_write(bios_device.puid, - size, bus, devfn, offs, - val); -#endif - DEBUG_PRINTF_IO - ("%s(%04x) PCI Config Write @%02x, size: %d <-- 0x%08x\n", - __func__, addr, offs, size, val); - } - } - } -} - -u8 -handle_port_61h(void) -{ - static u64 last_time = 0; - u64 curr_time = get_time(); - u64 time_diff; // time since last call - u32 period_ticks; // length of a period in ticks - u32 nr_periods; //number of periods passed since last call - // bit 4 should toggle with every (DRAM) refresh cycle... (66kHz??) - time_diff = curr_time - last_time; - // at 66kHz a period is ~ 15 ns long, converted to ticks: (tb_freq is ticks/second) - // TODO: as long as the frequency does not change, we should not calculate this every time - period_ticks = (15 * tb_freq) / 1000000; - nr_periods = time_diff / period_ticks; - // if the number if ticks passed since last call is odd, we toggle bit 4 - if ((nr_periods % 2) != 0) { - *((u8 *) (bios_device.io_buffer + 0x61)) ^= 0x10; - } - //finally read the value from the io_buffer - return *((u8 *) (bios_device.io_buffer + 0x61)); -} -#endif diff --git a/src/devices/oprom/yabel/io.h b/src/devices/oprom/yabel/io.h deleted file mode 100644 index 6b2dcc4504..0000000000 --- a/src/devices/oprom/yabel/io.h +++ /dev/null @@ -1,30 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - -#ifndef _BIOSEMU_IO_H_ -#define _BIOSEMU_IO_H_ -#include -#include - -u8 my_inb(X86EMU_pioAddr addr); - -u16 my_inw(X86EMU_pioAddr addr); - -u32 my_inl(X86EMU_pioAddr addr); - -void my_outb(X86EMU_pioAddr addr, u8 val); - -void my_outw(X86EMU_pioAddr addr, u16 val); - -void my_outl(X86EMU_pioAddr addr, u32 val); - -#endif diff --git a/src/devices/oprom/yabel/mem.c b/src/devices/oprom/yabel/mem.c deleted file mode 100644 index 4b4a552813..0000000000 --- a/src/devices/oprom/yabel/mem.c +++ /dev/null @@ -1,501 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * Copyright (c) 2009 Pattrick Hueper - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - -#include -#include "debug.h" -#include "device.h" -#include "x86emu/x86emu.h" -#include "biosemu.h" -#include "mem.h" -#include "compat/time.h" - -#if !CONFIG_YABEL_DIRECTHW || !CONFIG_YABEL_DIRECTHW - -#if CONFIG_PCI_OPTION_ROM_RUN_YABEL -#include -#endif - -// define a check for access to certain (virtual) memory regions (interrupt handlers, BIOS Data Area, ...) -#if CONFIG_X86EMU_DEBUG -static u8 in_check = 0; // to avoid recursion... - -static inline void DEBUG_CHECK_VMEM_READ(u32 _addr, u32 _rval) -{ - u16 ebda_segment; - u32 ebda_size; - if (!((debug_flags & DEBUG_CHECK_VMEM_ACCESS) && (in_check == 0))) - return; - in_check = 1; - /* determine ebda_segment and size - * since we are using my_rdx calls, make sure, this is after setting in_check! */ - /* offset 03 in BDA is EBDA segment */ - ebda_segment = my_rdw(0x40e); - /* first value in ebda is size in KB */ - ebda_size = my_rdb(ebda_segment << 4) * 1024; - /* check Interrupt Vector Access (0000:0000h - 0000:0400h) */ - if (_addr < 0x400) { - DEBUG_PRINTF_CS_IP("%s: read from Interrupt Vector %x --> %x\n", - __func__, _addr / 4, _rval); - } - /* access to BIOS Data Area (0000:0400h - 0000:0500h)*/ - else if ((_addr >= 0x400) && (_addr < 0x500)) { - DEBUG_PRINTF_CS_IP("%s: read from BIOS Data Area: addr: %x --> %x\n", - __func__, _addr, _rval); - /* dump registers */ - /* x86emu_dump_xregs(); */ - } - /* access to first 64k of memory... */ - else if (_addr < 0x10000) { - DEBUG_PRINTF_CS_IP("%s: read from segment 0000h: addr: %x --> %x\n", - __func__, _addr, _rval); - /* dump registers */ - /* x86emu_dump_xregs(); */ - } - /* read from PMM_CONV_SEGMENT */ - else if ((_addr <= ((PMM_CONV_SEGMENT << 4) | 0xffff)) && (_addr >= (PMM_CONV_SEGMENT << 4))) { - DEBUG_PRINTF_CS_IP("%s: read from PMM Segment %04xh: addr: %x --> %x\n", - __func__, PMM_CONV_SEGMENT, _addr, _rval); - /* HALT_SYS(); */ - /* dump registers */ - /* x86emu_dump_xregs(); */ - } - /* read from PNP_DATA_SEGMENT */ - else if ((_addr <= ((PNP_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (PNP_DATA_SEGMENT << 4))) { - DEBUG_PRINTF_CS_IP("%s: read from PnP Data Segment %04xh: addr: %x --> %x\n", - __func__, PNP_DATA_SEGMENT, _addr, _rval); - /* HALT_SYS(); */ - /* dump registers */ - /* x86emu_dump_xregs(); */ - } - /* read from EBDA Segment */ - else if ((_addr <= ((ebda_segment << 4) | (ebda_size - 1))) && (_addr >= (ebda_segment << 4))) { - DEBUG_PRINTF_CS_IP("%s: read from Extended BIOS Data Area %04xh, size: %04x: addr: %x --> %x\n", - __func__, ebda_segment, ebda_size, _addr, _rval); - } - /* read from BIOS_DATA_SEGMENT */ - else if ((_addr <= ((BIOS_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (BIOS_DATA_SEGMENT << 4))) { - DEBUG_PRINTF_CS_IP("%s: read from BIOS Data Segment %04xh: addr: %x --> %x\n", - __func__, BIOS_DATA_SEGMENT, _addr, _rval); - /* for PMM debugging */ - /*if (_addr == BIOS_DATA_SEGMENT << 4) { - X86EMU_trace_on(); - M.x86.debug &= ~DEBUG_DECODE_NOPRINT_F; - }*/ - /* dump registers */ - /* x86emu_dump_xregs(); */ - } - in_check = 0; -} - -static inline void DEBUG_CHECK_VMEM_WRITE(u32 _addr, u32 _val) -{ - u16 ebda_segment; - u32 ebda_size; - if (!((debug_flags & DEBUG_CHECK_VMEM_ACCESS) && (in_check == 0))) - return; - in_check = 1; - /* determine ebda_segment and size - * since we are using my_rdx calls, make sure that this is after - * setting in_check! */ - /* offset 03 in BDA is EBDA segment */ - ebda_segment = my_rdw(0x40e); - /* first value in ebda is size in KB */ - ebda_size = my_rdb(ebda_segment << 4) * 1024; - /* check Interrupt Vector Access (0000:0000h - 0000:0400h) */ - if (_addr < 0x400) { - DEBUG_PRINTF_CS_IP("%s: write to Interrupt Vector %x <-- %x\n", - __func__, _addr / 4, _val); - } - /* access to BIOS Data Area (0000:0400h - 0000:0500h)*/ - else if ((_addr >= 0x400) && (_addr < 0x500)) { - DEBUG_PRINTF_CS_IP("%s: write to BIOS Data Area: addr: %x <-- %x\n", - __func__, _addr, _val); - /* dump registers */ - /* x86emu_dump_xregs(); */ - } - /* access to first 64k of memory...*/ - else if (_addr < 0x10000) { - DEBUG_PRINTF_CS_IP("%s: write to segment 0000h: addr: %x <-- %x\n", - __func__, _addr, _val); - /* dump registers */ - /* x86emu_dump_xregs(); */ - } - /* write to PMM_CONV_SEGMENT... */ - else if ((_addr <= ((PMM_CONV_SEGMENT << 4) | 0xffff)) && (_addr >= (PMM_CONV_SEGMENT << 4))) { - DEBUG_PRINTF_CS_IP("%s: write to PMM Segment %04xh: addr: %x <-- %x\n", - __func__, PMM_CONV_SEGMENT, _addr, _val); - /* dump registers */ - /* x86emu_dump_xregs(); */ - } - /* write to PNP_DATA_SEGMENT... */ - else if ((_addr <= ((PNP_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (PNP_DATA_SEGMENT << 4))) { - DEBUG_PRINTF_CS_IP("%s: write to PnP Data Segment %04xh: addr: %x <-- %x\n", - __func__, PNP_DATA_SEGMENT, _addr, _val); - /* dump registers */ - /* x86emu_dump_xregs(); */ - } - /* write to EBDA Segment... */ - else if ((_addr <= ((ebda_segment << 4) | (ebda_size - 1))) && (_addr >= (ebda_segment << 4))) { - DEBUG_PRINTF_CS_IP("%s: write to Extended BIOS Data Area %04xh, size: %04x: addr: %x <-- %x\n", - __func__, ebda_segment, ebda_size, _addr, _val); - } - /* write to BIOS_DATA_SEGMENT... */ - else if ((_addr <= ((BIOS_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (BIOS_DATA_SEGMENT << 4))) { - DEBUG_PRINTF_CS_IP("%s: write to BIOS Data Segment %04xh: addr: %x <-- %x\n", - __func__, BIOS_DATA_SEGMENT, _addr, _val); - /* dump registers */ - /* x86emu_dump_xregs(); */ - } - /* write to current CS segment... */ - else if ((_addr < ((M.x86.R_CS << 4) | 0xffff)) && (_addr > (M.x86.R_CS << 4))) { - DEBUG_PRINTF_CS_IP("%s: write to CS segment %04xh: addr: %x <-- %x\n", - __func__, M.x86.R_CS, _addr, _val); - /* dump registers */ - /* x86emu_dump_xregs(); */ - } - in_check = 0; -} -#else -static inline void DEBUG_CHECK_VMEM_READ(u32 _addr, u32 _rval) {}; -static inline void DEBUG_CHECK_VMEM_WRITE(u32 _addr, u32 _val) {}; -#endif - -//update time in BIOS Data Area -//DWord at offset 0x6c is the timer ticks since midnight, timer is running at 18Hz -//byte at 0x70 is timer overflow (set if midnight passed since last call to interrupt 1a function 00 -//cur_val is the current value, of offset 6c... -static void -update_time(u32 cur_val) -{ - //for convenience, we let the start of timebase be at midnight, we currently dont support - //real daytime anyway... - u64 ticks_per_day = tb_freq * 60 * 24; - // at 18Hz a period is ~55ms, converted to ticks (tb_freq is ticks/second) - u32 period_ticks = (55 * tb_freq) / 1000; - u64 curr_time = get_time(); - u64 ticks_since_midnight = curr_time % ticks_per_day; - u32 periods_since_midnight = ticks_since_midnight / period_ticks; - // if periods since midnight is smaller than last value, set overflow - // at BDA Offset 0x70 - if (periods_since_midnight < cur_val) { - my_wrb(0x470, 1); - } - // store periods since midnight at BDA offset 0x6c - my_wrl(0x46c, periods_since_midnight); -} - -// read byte from memory -u8 -my_rdb(u32 addr) -{ - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_MEM, &translated_addr); - u8 rval; - if (translated != 0) { - //translation successfull, access VGA Memory (BAR or Legacy...) - DEBUG_PRINTF_MEM("%s(%08x): access to VGA Memory\n", - __func__, addr); - //DEBUG_PRINTF_MEM("%s(%08x): translated_addr: %llx\n", __func__, addr, translated_addr); - set_ci(); - rval = *((u8 *) translated_addr); - clr_ci(); - DEBUG_PRINTF_MEM("%s(%08x) VGA --> %02x\n", __func__, addr, - rval); - return rval; - } else if (addr > M.mem_size) { - DEBUG_PRINTF("%s(%08x): Memory Access out of range!\n", - __func__, addr); - //disassemble_forward(M.x86.saved_cs, M.x86.saved_ip, 1); - HALT_SYS(); - } else { - /* read from virtual memory */ - rval = *((u8 *) (M.mem_base + addr)); - DEBUG_CHECK_VMEM_READ(addr, rval); - return rval; - } - return -1; -} - -//read word from memory -u16 -my_rdw(u32 addr) -{ - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_MEM, &translated_addr); - u16 rval; - if (translated != 0) { - //translation successfull, access VGA Memory (BAR or Legacy...) - DEBUG_PRINTF_MEM("%s(%08x): access to VGA Memory\n", - __func__, addr); - //DEBUG_PRINTF_MEM("%s(%08x): translated_addr: %llx\n", __func__, addr, translated_addr); - // check for legacy memory, because of the remapping to BARs, the reads must - // be byte reads... - if ((addr >= 0xa0000) && (addr < 0xc0000)) { - //read bytes a using my_rdb, because of the remapping to BARs - //words may not be contiguous in memory, so we need to translate - //every address... - rval = ((u8) my_rdb(addr)) | - (((u8) my_rdb(addr + 1)) << 8); - } else { - if ((translated_addr & (u64) 0x1) == 0) { - // 16 bit aligned access... - set_ci(); - rval = in16le((void *) translated_addr); - clr_ci(); - } else { - // unaligned access, read single bytes - set_ci(); - rval = (*((u8 *) translated_addr)) | - (*((u8 *) translated_addr + 1) << 8); - clr_ci(); - } - } - DEBUG_PRINTF_MEM("%s(%08x) VGA --> %04x\n", __func__, addr, - rval); - return rval; - } else if (addr > M.mem_size) { - DEBUG_PRINTF("%s(%08x): Memory Access out of range!\n", - __func__, addr); - //disassemble_forward(M.x86.saved_cs, M.x86.saved_ip, 1); - HALT_SYS(); - } else { - /* read from virtual memory */ - rval = in16le((void *) (M.mem_base + addr)); - DEBUG_CHECK_VMEM_READ(addr, rval); - return rval; - } - return -1; -} - -//read long from memory -u32 -my_rdl(u32 addr) -{ - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_MEM, &translated_addr); - u32 rval; - if (translated != 0) { - //translation successfull, access VGA Memory (BAR or Legacy...) - DEBUG_PRINTF_MEM("%s(%x): access to VGA Memory\n", - __func__, addr); - //DEBUG_PRINTF_MEM("%s(%08x): translated_addr: %llx\n", __func__, addr, translated_addr); - // check for legacy memory, because of the remapping to BARs, the reads must - // be byte reads... - if ((addr >= 0xa0000) && (addr < 0xc0000)) { - //read bytes a using my_rdb, because of the remapping to BARs - //dwords may not be contiguous in memory, so we need to translate - //every address... - rval = ((u8) my_rdb(addr)) | - (((u8) my_rdb(addr + 1)) << 8) | - (((u8) my_rdb(addr + 2)) << 16) | - (((u8) my_rdb(addr + 3)) << 24); - } else { - if ((translated_addr & (u64) 0x3) == 0) { - // 32 bit aligned access... - set_ci(); - rval = in32le((void *) translated_addr); - clr_ci(); - } else { - // unaligned access, read single bytes - set_ci(); - rval = (*((u8 *) translated_addr)) | - (*((u8 *) translated_addr + 1) << 8) | - (*((u8 *) translated_addr + 2) << 16) | - (*((u8 *) translated_addr + 3) << 24); - clr_ci(); - } - } - DEBUG_PRINTF_MEM("%s(%08x) VGA --> %08x\n", __func__, addr, - rval); - //HALT_SYS(); - return rval; - } else if (addr > M.mem_size) { - DEBUG_PRINTF("%s(%08x): Memory Access out of range!\n", - __func__, addr); - //disassemble_forward(M.x86.saved_cs, M.x86.saved_ip, 1); - HALT_SYS(); - } else { - /* read from virtual memory */ - rval = in32le((void *) (M.mem_base + addr)); - switch (addr) { - case 0x46c: - //BDA Time Data, update it, before reading - update_time(rval); - rval = in32le((void *) (M.mem_base + addr)); - break; - } - DEBUG_CHECK_VMEM_READ(addr, rval); - return rval; - } - return -1; -} - -//write byte to memory -void -my_wrb(u32 addr, u8 val) -{ - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_MEM, &translated_addr); - if (translated != 0) { - //translation successfull, access VGA Memory (BAR or Legacy...) - DEBUG_PRINTF_MEM("%s(%x, %x): access to VGA Memory\n", - __func__, addr, val); - //DEBUG_PRINTF_MEM("%s(%08x): translated_addr: %llx\n", __func__, addr, translated_addr); - set_ci(); - *((u8 *) translated_addr) = val; - clr_ci(); - } else if (addr > M.mem_size) { - DEBUG_PRINTF("%s(%08x): Memory Access out of range!\n", - __func__, addr); - //disassemble_forward(M.x86.saved_cs, M.x86.saved_ip, 1); - HALT_SYS(); - } else { - /* write to virtual memory */ - DEBUG_CHECK_VMEM_WRITE(addr, val); - *((u8 *) (M.mem_base + addr)) = val; - } -} - -void -my_wrw(u32 addr, u16 val) -{ - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_MEM, &translated_addr); - if (translated != 0) { - //translation successfull, access VGA Memory (BAR or Legacy...) - DEBUG_PRINTF_MEM("%s(%x, %x): access to VGA Memory\n", - __func__, addr, val); - //DEBUG_PRINTF_MEM("%s(%08x): translated_addr: %llx\n", __func__, addr, translated_addr); - // check for legacy memory, because of the remapping to BARs, the reads must - // be byte reads... - if ((addr >= 0xa0000) && (addr < 0xc0000)) { - //read bytes a using my_rdb, because of the remapping to BARs - //words may not be contiguous in memory, so we need to translate - //every address... - my_wrb(addr, (u8) (val & 0x00FF)); - my_wrb(addr + 1, (u8) ((val & 0xFF00) >> 8)); - } else { - if ((translated_addr & (u64) 0x1) == 0) { - // 16 bit aligned access... - set_ci(); - out16le((void *) translated_addr, val); - clr_ci(); - } else { - // unaligned access, write single bytes - set_ci(); - *((u8 *) translated_addr) = - (u8) (val & 0x00FF); - *((u8 *) translated_addr + 1) = - (u8) ((val & 0xFF00) >> 8); - clr_ci(); - } - } - } else if (addr > M.mem_size) { - DEBUG_PRINTF("%s(%08x): Memory Access out of range!\n", - __func__, addr); - //disassemble_forward(M.x86.saved_cs, M.x86.saved_ip, 1); - HALT_SYS(); - } else { - /* write to virtual memory */ - DEBUG_CHECK_VMEM_WRITE(addr, val); - out16le((void *) (M.mem_base + addr), val); - } -} -void -my_wrl(u32 addr, u32 val) -{ - unsigned long translated_addr = addr; - u8 translated = biosemu_dev_translate_address(IORESOURCE_MEM, &translated_addr); - if (translated != 0) { - //translation successfull, access VGA Memory (BAR or Legacy...) - DEBUG_PRINTF_MEM("%s(%x, %x): access to VGA Memory\n", - __func__, addr, val); - //DEBUG_PRINTF_MEM("%s(%08x): translated_addr: %llx\n", __func__, addr, translated_addr); - // check for legacy memory, because of the remapping to BARs, the reads must - // be byte reads... - if ((addr >= 0xa0000) && (addr < 0xc0000)) { - //read bytes a using my_rdb, because of the remapping to BARs - //words may not be contiguous in memory, so we need to translate - //every address... - my_wrb(addr, (u8) (val & 0x000000FF)); - my_wrb(addr + 1, (u8) ((val & 0x0000FF00) >> 8)); - my_wrb(addr + 2, (u8) ((val & 0x00FF0000) >> 16)); - my_wrb(addr + 3, (u8) ((val & 0xFF000000) >> 24)); - } else { - if ((translated_addr & (u64) 0x3) == 0) { - // 32 bit aligned access... - set_ci(); - out32le((void *) translated_addr, val); - clr_ci(); - } else { - // unaligned access, write single bytes - set_ci(); - *((u8 *) translated_addr) = - (u8) (val & 0x000000FF); - *((u8 *) translated_addr + 1) = - (u8) ((val & 0x0000FF00) >> 8); - *((u8 *) translated_addr + 2) = - (u8) ((val & 0x00FF0000) >> 16); - *((u8 *) translated_addr + 3) = - (u8) ((val & 0xFF000000) >> 24); - clr_ci(); - } - } - } else if (addr > M.mem_size) { - DEBUG_PRINTF("%s(%08x): Memory Access out of range!\n", - __func__, addr); - //disassemble_forward(M.x86.saved_cs, M.x86.saved_ip, 1); - HALT_SYS(); - } else { - /* write to virtual memory */ - DEBUG_CHECK_VMEM_WRITE(addr, val); - out32le((void *) (M.mem_base + addr), val); - } -} -#else -u8 -my_rdb(u32 addr) -{ - return rdb(addr); -} - -u16 -my_rdw(u32 addr) -{ - return rdw(addr); -} - -u32 -my_rdl(u32 addr) -{ - return rdl(addr); -} - -void -my_wrb(u32 addr, u8 val) -{ - wrb(addr, val); -} - -void -my_wrw(u32 addr, u16 val) -{ - wrw(addr, val); -} - -void -my_wrl(u32 addr, u32 val) -{ - wrl(addr, val); -} -#endif diff --git a/src/devices/oprom/yabel/mem.h b/src/devices/oprom/yabel/mem.h deleted file mode 100644 index dca8cfc192..0000000000 --- a/src/devices/oprom/yabel/mem.h +++ /dev/null @@ -1,36 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - -#ifndef _BIOSEMU_MEM_H_ -#define _BIOSEMU_MEM_H_ -#include -#include - -// read byte from memory -u8 my_rdb(u32 addr); - -//read word from memory -u16 my_rdw(u32 addr); - -//read long from memory -u32 my_rdl(u32 addr); - -//write byte to memory -void my_wrb(u32 addr, u8 val); - -//write word to memory -void my_wrw(u32 addr, u16 val); - -//write long to memory -void my_wrl(u32 addr, u32 val); - -#endif diff --git a/src/devices/oprom/yabel/pmm.c b/src/devices/oprom/yabel/pmm.c deleted file mode 100644 index 19d14d46b6..0000000000 --- a/src/devices/oprom/yabel/pmm.c +++ /dev/null @@ -1,442 +0,0 @@ -/**************************************************************************** - * YABEL BIOS Emulator - * - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Copyright (c) 2008 Pattrick Hueper - ****************************************************************************/ - -#include -#include "../x86emu/prim_ops.h" -#include - -#include "biosemu.h" -#include "pmm.h" -#include "debug.h" -#include "device.h" - -/* this struct is used to remember which PMM spaces - * have been assigned. MAX_PMM_AREAS defines how many - * PMM areas we can assign. - * All areas are assigned in PMM_CONV_SEGMENT - */ -typedef struct { - u32 handle; /* handle that is returned to PMM caller */ - u32 offset; /* in PMM_CONV_SEGMENT */ - u32 length; /* length of this area */ -} pmm_allocation_t; - -#define MAX_PMM_AREAS 10 - -/* array to store the above structs */ -static pmm_allocation_t pmm_allocation_array[MAX_PMM_AREAS]; - -/* index into pmm_allocation_array */ -static u32 curr_pmm_allocation_index = 0; - -/* This function is used to setup the PMM struct in virtual memory - * at a certain offset, the length of the PMM struct is returned */ -u8 pmm_setup(u16 segment, u16 offset) -{ - /* setup the PMM structure */ - pmm_information_t *pis = - (pmm_information_t *) (M.mem_base + (((u32) segment) << 4) + - offset); - memset(pis, 0, sizeof(pmm_information_t)); - /* set signature to $PMM */ - pis->signature[0] = '$'; - pis->signature[1] = 'P'; - pis->signature[2] = 'M'; - pis->signature[3] = 'M'; - /* revision as specified */ - pis->struct_rev = 0x01; - /* internal length, excluding code */ - pis->length = ((void *)&(pis->code) - (void *)&(pis->signature)); - /* the code to be executed, pointed to by entry_point_offset */ - pis->code[0] = 0xCD; /* INT */ - pis->code[1] = PMM_INT_NUM; /* my selfdefined PMM INT number */ - pis->code[2] = 0xCB; /* RETF */ - /* set the entry_point_offset, it should point to pis->code, segment is the segment of - * this struct. Since pis->length is the length of the struct excluding code, offset+pis->length - * points to the code... it's that simple ;-) - */ - out32le(&(pis->entry_point_offset), - (u32) segment << 16 | (u32) (offset + pis->length)); - /* checksum calculation */ - u8 i; - u8 checksum = 0; - for (i = 0; i < pis->length; i++) { - checksum += *(((u8 *) pis) + i); - } - pis->checksum = ((u8) 0) - checksum; - CHECK_DBG(DEBUG_PMM) { - DEBUG_PRINTF_PMM("PMM Structure:\n"); - dump((void *)pis, sizeof(pmm_information_t)); - } - return sizeof(pmm_information_t); -} - -/* handle the selfdefined interrupt, this is executed, when the PMM Entry Point - * is executed, it must handle all PMM requests - */ -void pmm_handleInt() -{ - u32 rval = 0; - u16 function, flags; - u32 handle, length; - u32 i, j; - u32 buffer; - /* !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! - * according to the PMM Spec "the flags and all registers, except DX and AX - * are preserved across calls to PMM" - * so we save M.x86 and in :exit label we restore it, however, this means that no - * returns must be used in this function, any exit must use goto exit! - * !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! - */ - X86EMU_regs backup_regs = M.x86; - pop_long(); /* pop the return address, this is already saved in INT handler, we don't need - to remember this. */ - function = pop_word(); - switch (function) { - case 0: - /* function pmmAllocate */ - length = pop_long(); - length *= 16; /* length is passed in "paragraphs" of 16 bytes each */ - handle = pop_long(); - flags = pop_word(); - DEBUG_PRINTF_PMM - ("%s: pmmAllocate: Length: %x, Handle: %x, Flags: %x\n", - __func__, length, handle, flags); - if ((flags & 0x1) != 0) { - /* request to allocate in conventional memory */ - if (curr_pmm_allocation_index >= MAX_PMM_AREAS) { - printf - ("%s: pmmAllocate: Maximum Number of allocatable areas reached (%d), cannot allocate more memory!\n", - __func__, MAX_PMM_AREAS); - rval = 0; - goto exit; - } - /* some ROMs seem to be confused by offset 0, so lets start at 0x100 */ - u32 next_offset = 0x100; - pmm_allocation_t *pmm_alloc = - &(pmm_allocation_array[curr_pmm_allocation_index]); - if (curr_pmm_allocation_index != 0) { - /* we have already allocated... get the new next_offset - * from the previous pmm_allocation_t */ - next_offset = - pmm_allocation_array - [curr_pmm_allocation_index - 1].offset + - pmm_allocation_array - [curr_pmm_allocation_index - 1].length; - } - DEBUG_PRINTF_PMM("%s: next_offset: 0x%x\n", - __func__, next_offset); - if (length == 0) { - /* largest possible block size requested, we have on segment - * to allocate, so largest possible is segment size (0xFFFF) - * minus next_offset - */ - rval = 0xFFFF - next_offset; - goto exit; - } - u32 align = 0; - if (((flags & 0x4) != 0) && (length > 0)) { - /* align to least significant bit set in length param */ - u8 lsb = 0; - while (((length >> lsb) & 0x1) == 0) { - lsb++; - } - align = 1 << lsb; - } - /* always align at least to paragraph (16byte) boundary - * hm... since the length is always in paragraphs, we cannot - * align outside of paragraphs anyway... so this check might - * be unnecessary...*/ - if (align < 0x10) { - align = 0x10; - } - DEBUG_PRINTF_PMM("%s: align: 0x%x\n", __func__, - align); - if ((next_offset & (align - 1)) != 0) { - /* not yet aligned... align! */ - next_offset += align; - next_offset &= ~(align - 1); - } - if ((next_offset + length) > 0xFFFF) { - rval = 0; - printf - ("%s: pmmAllocate: Not enough memory available for allocation!\n", - __func__); - goto exit; - } - curr_pmm_allocation_index++; - /* remember the values in pmm_allocation_array */ - pmm_alloc->handle = handle; - pmm_alloc->offset = next_offset; - pmm_alloc->length = length; - /* return the 32bit "physical" address, i.e. combination of segment and offset */ - rval = ((u32) (PMM_CONV_SEGMENT << 16)) | next_offset; - DEBUG_PRINTF_PMM - ("%s: pmmAllocate: allocated memory at %x\n", - __func__, rval); - } else { - rval = 0; - printf - ("%s: pmmAllocate: allocation in extended memory not supported!\n", - __func__); - } - goto exit; - case 1: - /* function pmmFind */ - handle = pop_long(); /* the handle to lookup */ - DEBUG_PRINTF_PMM("%s: pmmFind: Handle: %x\n", __func__, - handle); - i = 0; - for (i = 0; i < curr_pmm_allocation_index; i++) { - if (pmm_allocation_array[i].handle == handle) { - DEBUG_PRINTF_PMM - ("%s: pmmFind: found allocated memory at %x\n", - __func__, rval); - /* return the 32bit "physical" address, i.e. combination of segment and offset */ - rval = - ((u32) (PMM_CONV_SEGMENT << 16)) | - pmm_allocation_array[i].offset; - } - } - if (rval == 0) { - DEBUG_PRINTF_PMM - ("%s: pmmFind: handle (%x) not found!\n", - __func__, handle); - } - goto exit; - case 2: - /* function pmmDeallocate */ - buffer = pop_long(); - /* since argument is the address of the PMM block (including the segment, - * we need to remove the segment to get the offset - */ - buffer = buffer ^ ((u32) PMM_CONV_SEGMENT << 16); - DEBUG_PRINTF_PMM("%s: pmmDeallocate: PMM segment offset: %x\n", - __func__, buffer); - i = 0; - /* rval = 0 means we deallocated the buffer, so set it to 1 in case we dont find it and - * thus cannot deallocate - */ - rval = 1; - for (i = 0; i < curr_pmm_allocation_index; i++) { - DEBUG_PRINTF_PMM("%d: %x\n", i, - pmm_allocation_array[i].handle); - if (pmm_allocation_array[i].offset == buffer) { - /* we found the requested buffer, rval = 0 */ - rval = 0; - DEBUG_PRINTF_PMM - ("%s: pmmDeallocate: found allocated memory at index: %d\n", - __func__, i); - /* copy the remaining elements in pmm_allocation_array one position up */ - j = i; - for (; j < curr_pmm_allocation_index; j++) { - pmm_allocation_array[j] = - pmm_allocation_array[j + 1]; - } - /* move curr_pmm_allocation_index one up, too */ - curr_pmm_allocation_index--; - /* finally clean last element */ - pmm_allocation_array[curr_pmm_allocation_index]. - handle = 0; - pmm_allocation_array[curr_pmm_allocation_index]. - offset = 0; - pmm_allocation_array[curr_pmm_allocation_index]. - length = 0; - break; - } - } - if (rval != 0) { - DEBUG_PRINTF_PMM - ("%s: pmmDeallocate: offset (%x) not found, cannot deallocate!\n", - __func__, buffer); - } - goto exit; - default: - /* invalid/unimplemented function */ - printf("%s: invalid PMM function (0x%04x) called!\n", - __func__, function); - /* PMM spec says if function is invalid, return 0xFFFFFFFF */ - rval = 0xFFFFFFFF; - goto exit; - } -exit: - /* exit handler of this function, restore registers, put return value in DX:AX */ - M.x86 = backup_regs; - M.x86.R_DX = (u16) ((rval >> 16) & 0xFFFF); - M.x86.R_AX = (u16) (rval & 0xFFFF); - CHECK_DBG(DEBUG_PMM) { - DEBUG_PRINTF_PMM("%s: dump of pmm_allocation_array:\n", - __func__); - for (i = 0; i < MAX_PMM_AREAS; i++) { - DEBUG_PRINTF_PMM - ("%d:\n\thandle: %x\n\toffset: %x\n\tlength: %x\n", - i, pmm_allocation_array[i].handle, - pmm_allocation_array[i].offset, - pmm_allocation_array[i].length); - } - } - return; -} - -/* This function tests the pmm_handleInt() function above. */ -void pmm_test(void) -{ - u32 handle, length, addr; - u16 function, flags; - /*-------------------- Test simple allocation/find/deallocation ----------------------------- */ - function = 0; /* pmmAllocate */ - handle = 0xdeadbeef; - length = 16; /* in 16byte paragraphs, so we allocate 256 bytes... */ - flags = 0x1; /* conventional memory, unaligned */ - /* setup stack for call to pmm_handleInt() */ - push_word(flags); - push_long(handle); - push_long(length); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - addr = ((u32) M.x86.R_DX << 16) | M.x86.R_AX; - DEBUG_PRINTF_PMM("%s: allocated memory at: %04x:%04x\n", __func__, - M.x86.R_DX, M.x86.R_AX); - function = 1; /* pmmFind */ - push_long(handle); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - DEBUG_PRINTF_PMM("%s: found memory at: %04x:%04x (expected: %08x)\n", - __func__, M.x86.R_DX, M.x86.R_AX, addr); - function = 2; /* pmmDeallocate */ - push_long(addr); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - DEBUG_PRINTF_PMM - ("%s: freed memory rval: %04x:%04x (expected: 0000:0000)\n", - __func__, M.x86.R_DX, M.x86.R_AX); - /*-------------------- Test aligned allocation/deallocation ----------------------------- */ - function = 0; /* pmmAllocate */ - handle = 0xdeadbeef; - length = 257; /* in 16byte paragraphs, so we allocate 4KB + 16 bytes... */ - flags = 0x1; /* conventional memory, unaligned */ - /* setup stack for call to pmm_handleInt() */ - push_word(flags); - push_long(handle); - push_long(length); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - addr = ((u32) M.x86.R_DX << 16) | M.x86.R_AX; - DEBUG_PRINTF_PMM("%s: allocated memory at: %04x:%04x\n", __func__, - M.x86.R_DX, M.x86.R_AX); - function = 0; /* pmmAllocate */ - handle = 0xf00d4b0b; - length = 128; /* in 16byte paragraphs, so we allocate 2KB... */ - flags = 0x5; /* conventional memory, aligned */ - /* setup stack for call to pmm_handleInt() */ - push_word(flags); - push_long(handle); - push_long(length); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - /* the address should be aligned to 0x800, so probably it is at offset 0x1800... */ - addr = ((u32) M.x86.R_DX << 16) | M.x86.R_AX; - DEBUG_PRINTF_PMM("%s: allocated memory at: %04x:%04x\n", __func__, - M.x86.R_DX, M.x86.R_AX); - function = 1; /* pmmFind */ - push_long(handle); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - addr = ((u32) M.x86.R_DX << 16) | M.x86.R_AX; - function = 2; /* pmmDeallocate */ - push_long(addr); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - DEBUG_PRINTF_PMM - ("%s: freed memory rval: %04x:%04x (expected: 0000:0000)\n", - __func__, M.x86.R_DX, M.x86.R_AX); - handle = 0xdeadbeef; - function = 1; /* pmmFind */ - push_long(handle); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - addr = ((u32) M.x86.R_DX << 16) | M.x86.R_AX; - function = 2; /* pmmDeallocate */ - push_long(addr); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - DEBUG_PRINTF_PMM - ("%s: freed memory rval: %04x:%04x (expected: 0000:0000)\n", - __func__, M.x86.R_DX, M.x86.R_AX); - /*-------------------- Test out of memory allocation ----------------------------- */ - function = 0; /* pmmAllocate */ - handle = 0xdeadbeef; - length = 0; /* length zero means, give me the largest possible block */ - flags = 0x1; /* conventional memory, unaligned */ - /* setup stack for call to pmm_handleInt() */ - push_word(flags); - push_long(handle); - push_long(length); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - length = ((u32) M.x86.R_DX << 16) | M.x86.R_AX; - length /= 16; /* length in paragraphs */ - DEBUG_PRINTF_PMM("%s: largest possible length: %08x\n", __func__, - length); - function = 0; /* pmmAllocate */ - flags = 0x1; /* conventional memory, aligned */ - /* setup stack for call to pmm_handleInt() */ - push_word(flags); - push_long(handle); - push_long(length); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - addr = ((u32) M.x86.R_DX << 16) | M.x86.R_AX; - DEBUG_PRINTF_PMM("%s: allocated memory at: %04x:%04x\n", __func__, - M.x86.R_DX, M.x86.R_AX); - function = 0; /* pmmAllocate */ - length = 1; - handle = 0xf00d4b0b; - flags = 0x1; /* conventional memory, aligned */ - /* setup stack for call to pmm_handleInt() */ - push_word(flags); - push_long(handle); - push_long(length); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - /* this should fail, so 0x0 should be returned */ - addr = ((u32) M.x86.R_DX << 16) | M.x86.R_AX; - DEBUG_PRINTF_PMM - ("%s: allocated memory at: %04x:%04x expected: 0000:0000\n", - __func__, M.x86.R_DX, M.x86.R_AX); - handle = 0xdeadbeef; - function = 1; /* pmmFind */ - push_long(handle); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - addr = ((u32) M.x86.R_DX << 16) | M.x86.R_AX; - function = 2; /* pmmDeallocate */ - push_long(addr); - push_word(function); - push_long(0); /* This is the return address for the ABI, unused in this implementation */ - pmm_handleInt(); - DEBUG_PRINTF_PMM - ("%s: freed memory rval: %04x:%04x (expected: 0000:0000)\n", - __func__, M.x86.R_DX, M.x86.R_AX); -} diff --git a/src/devices/oprom/yabel/pmm.h b/src/devices/oprom/yabel/pmm.h deleted file mode 100644 index 3cc3c17ac6..0000000000 --- a/src/devices/oprom/yabel/pmm.h +++ /dev/null @@ -1,46 +0,0 @@ -/**************************************************************************** - * YABEL BIOS Emulator - * - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Copyright (c) 2008 Pattrick Hueper - ****************************************************************************/ - -#ifndef _YABEL_PMM_H_ -#define _YABEL_PMM_H_ - -#include - -/* PMM Structure see PMM Spec Version 1.01 Chapter 3.1.1 - * (search web for specspmm101.pdf) - */ -typedef struct { - u8 signature[4]; - u8 struct_rev; - u8 length; - u8 checksum; - u32 entry_point_offset; - u8 reserved[5]; - /* Code is not part of the speced PMM struct, however, since I cannot - * put the handling of PMM in the virtual memory (I dont want to hack it - * together in x86 assembly ;-)) this code array is pointed to by - * entry_point_offset, in code there is only a INT call and a RETF, - * thus every PMM call will issue a PMM INT (only defined in YABEL, - * see interrupt.c) and the INT Handler will do the actual PMM work. - */ - u8 code[3]; -} __attribute__ ((__packed__)) pmm_information_t; - -/* This function is used to setup the PMM struct in virtual memory - * at a certain offset */ -u8 pmm_setup(u16 segment, u16 offset); - -/* This is the INT Handler mentioned above, called by my special PMM INT. */ -void pmm_handleInt(void); - -void pmm_test(void); - -#endif // _YABEL_PMM_H diff --git a/src/devices/oprom/yabel/vbe.c b/src/devices/oprom/yabel/vbe.c deleted file mode 100644 index 9dbe07cdd5..0000000000 --- a/src/devices/oprom/yabel/vbe.c +++ /dev/null @@ -1,774 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * Copyright (c) 2009 Pattrick Hueper - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - -#include -#include -#if CONFIG_FRAMEBUFFER_SET_VESA_MODE -#include -#endif - -#include - -#include "debug.h" - -#include -#include -#include "../x86emu/prim_ops.h" - -#include "biosemu.h" -#include "io.h" -#include "mem.h" -#include "interrupt.h" -#include "device.h" - -#include - -#include -#include "../../src/lib/jpeg.h" - -#include - -// pointer to VBEInfoBuffer, set by vbe_prepare -u8 *vbe_info_buffer = 0; - -// virtual BIOS Memory -u8 *biosmem; -u32 biosmem_size; - -static inline u8 -vbe_prepare(void) -{ - vbe_info_buffer = biosmem + (VBE_SEGMENT << 4); // segment:offset off VBE Data Area - //clear buffer - memset(vbe_info_buffer, 0, 512); - //set VbeSignature to "VBE2" to indicate VBE 2.0+ request - vbe_info_buffer[0] = 'V'; - vbe_info_buffer[0] = 'B'; - vbe_info_buffer[0] = 'E'; - vbe_info_buffer[0] = '2'; - // ES:DI store pointer to buffer in virtual mem see vbe_info_buffer above... - M.x86.R_EDI = 0x0; - M.x86.R_ES = VBE_SEGMENT; - - return 0; // successfull init -} - -#if CONFIG_FRAMEBUFFER_SET_VESA_MODE -// VBE Function 00h -static u8 -vbe_info(vbe_info_t * info) -{ - vbe_prepare(); - // call VBE function 00h (Info Function) - M.x86.R_EAX = 0x4f00; - - // enable trace - CHECK_DBG(DEBUG_TRACE_X86EMU) { - X86EMU_trace_on(); - } - // run VESA Interrupt - runInt10(); - - if (M.x86.R_AL != 0x4f) { - DEBUG_PRINTF_VBE("%s: VBE Info Function NOT supported! AL=%x\n", - __func__, M.x86.R_AL); - return -1; - } - - if (M.x86.R_AH != 0x0) { - DEBUG_PRINTF_VBE - ("%s: VBE Info Function Return Code NOT OK! AH=%x\n", - __func__, M.x86.R_AH); - return M.x86.R_AH; - } - //printf("VBE Info Dump:"); - //dump(vbe_info_buffer, 64); - - //offset 0: signature - info->signature[0] = vbe_info_buffer[0]; - info->signature[1] = vbe_info_buffer[1]; - info->signature[2] = vbe_info_buffer[2]; - info->signature[3] = vbe_info_buffer[3]; - - // offset 4: 16bit le containing VbeVersion - info->version = in16le(vbe_info_buffer + 4); - - // offset 6: 32bit le containg segment:offset of OEM String in virtual Mem. - info->oem_string_ptr = - biosmem + ((in16le(vbe_info_buffer + 8) << 4) + - in16le(vbe_info_buffer + 6)); - - // offset 10: 32bit le capabilities - info->capabilities = in32le(vbe_info_buffer + 10); - - // offset 14: 32 bit le containing segment:offset of supported video mode table - u16 *video_mode_ptr; - video_mode_ptr = - (u16 *) (biosmem + - ((in16le(vbe_info_buffer + 16) << 4) + - in16le(vbe_info_buffer + 14))); - u32 i = 0; - do { - info->video_mode_list[i] = in16le(video_mode_ptr + i); - i++; - } - while ((i < - (sizeof(info->video_mode_list) / - sizeof(info->video_mode_list[0]))) - && (info->video_mode_list[i - 1] != 0xFFFF)); - - //offset 18: 16bit le total memory in 64KB blocks - info->total_memory = in16le(vbe_info_buffer + 18); - - return 0; -} - -static int mode_info_valid; - -int vbe_mode_info_valid(void) -{ - return mode_info_valid; -} - -// VBE Function 01h -static u8 -vbe_get_mode_info(vbe_mode_info_t * mode_info) -{ - vbe_prepare(); - // call VBE function 01h (Return VBE Mode Info Function) - M.x86.R_EAX = 0x4f01; - M.x86.R_CX = mode_info->video_mode; - - // enable trace - CHECK_DBG(DEBUG_TRACE_X86EMU) { - X86EMU_trace_on(); - } - // run VESA Interrupt - runInt10(); - - if (M.x86.R_AL != 0x4f) { - DEBUG_PRINTF_VBE - ("%s: VBE Return Mode Info Function NOT supported! AL=%x\n", - __func__, M.x86.R_AL); - return -1; - } - - if (M.x86.R_AH != 0x0) { - DEBUG_PRINTF_VBE - ("%s: VBE Return Mode Info (mode: %04x) Function Return Code NOT OK! AH=%02x\n", - __func__, mode_info->video_mode, M.x86.R_AH); - return M.x86.R_AH; - } - - //pointer to mode_info_block is in ES:DI - memcpy(mode_info->mode_info_block, - biosmem + ((M.x86.R_ES << 4) + M.x86.R_DI), - sizeof(mode_info->mode_info_block)); - mode_info_valid = 1; - - //printf("Mode Info Dump:"); - //dump(mode_info_block, 64); - - return 0; -} - -// VBE Function 02h -static u8 -vbe_set_mode(vbe_mode_info_t * mode_info) -{ - vbe_prepare(); - // call VBE function 02h (Set VBE Mode Function) - M.x86.R_EAX = 0x4f02; - M.x86.R_BX = mode_info->video_mode; - M.x86.R_BX |= 0x4000; // set bit 14 to request linear framebuffer mode - M.x86.R_BX &= 0x7FFF; // clear bit 15 to request clearing of framebuffer - - DEBUG_PRINTF_VBE("%s: setting mode: 0x%04x\n", __func__, - M.x86.R_BX); - - // enable trace - CHECK_DBG(DEBUG_TRACE_X86EMU) { - X86EMU_trace_on(); - } - // run VESA Interrupt - runInt10(); - - if (M.x86.R_AL != 0x4f) { - DEBUG_PRINTF_VBE - ("%s: VBE Set Mode Function NOT supported! AL=%x\n", - __func__, M.x86.R_AL); - return -1; - } - - if (M.x86.R_AH != 0x0) { - DEBUG_PRINTF_VBE - ("%s: mode: %x VBE Set Mode Function Return Code NOT OK! AH=%x\n", - __func__, mode_info->video_mode, M.x86.R_AH); - return M.x86.R_AH; - } - return 0; -} - -#if 0 -//VBE Function 08h -static u8 -vbe_set_palette_format(u8 format) -{ - vbe_prepare(); - // call VBE function 09h (Set/Get Palette Data Function) - M.x86.R_EAX = 0x4f08; - M.x86.R_BL = 0x00; // set format - M.x86.R_BH = format; - - DEBUG_PRINTF_VBE("%s: setting palette format: %d\n", __func__, - format); - - // enable trace - CHECK_DBG(DEBUG_TRACE_X86EMU) { - X86EMU_trace_on(); - } - // run VESA Interrupt - runInt10(); - - if (M.x86.R_AL != 0x4f) { - DEBUG_PRINTF_VBE - ("%s: VBE Set Palette Format Function NOT supported! AL=%x\n", - __func__, M.x86.R_AL); - return -1; - } - - if (M.x86.R_AH != 0x0) { - DEBUG_PRINTF_VBE - ("%s: VBE Set Palette Format Function Return Code NOT OK! AH=%x\n", - __func__, M.x86.R_AH); - return M.x86.R_AH; - } - return 0; -} - -// VBE Function 09h -static u8 -vbe_set_color(u16 color_number, u32 color_value) -{ - vbe_prepare(); - // call VBE function 09h (Set/Get Palette Data Function) - M.x86.R_EAX = 0x4f09; - M.x86.R_BL = 0x00; // set color - M.x86.R_CX = 0x01; // set only one entry - M.x86.R_DX = color_number; - // ES:DI is address where color_value is stored, we store it at 2000:0000 - M.x86.R_ES = 0x2000; - M.x86.R_DI = 0x0; - - // store color value at ES:DI - out32le(biosmem + (M.x86.R_ES << 4) + M.x86.R_DI, color_value); - - DEBUG_PRINTF_VBE("%s: setting color #%x: 0x%04x\n", __func__, - color_number, color_value); - - // enable trace - CHECK_DBG(DEBUG_TRACE_X86EMU) { - X86EMU_trace_on(); - } - // run VESA Interrupt - runInt10(); - - if (M.x86.R_AL != 0x4f) { - DEBUG_PRINTF_VBE - ("%s: VBE Set Palette Function NOT supported! AL=%x\n", - __func__, M.x86.R_AL); - return -1; - } - - if (M.x86.R_AH != 0x0) { - DEBUG_PRINTF_VBE - ("%s: VBE Set Palette Function Return Code NOT OK! AH=%x\n", - __func__, M.x86.R_AH); - return M.x86.R_AH; - } - return 0; -} - -static u8 -vbe_get_color(u16 color_number, u32 * color_value) -{ - vbe_prepare(); - // call VBE function 09h (Set/Get Palette Data Function) - M.x86.R_EAX = 0x4f09; - M.x86.R_BL = 0x00; // get color - M.x86.R_CX = 0x01; // get only one entry - M.x86.R_DX = color_number; - // ES:DI is address where color_value is stored, we store it at 2000:0000 - M.x86.R_ES = 0x2000; - M.x86.R_DI = 0x0; - - // enable trace - CHECK_DBG(DEBUG_TRACE_X86EMU) { - X86EMU_trace_on(); - } - // run VESA Interrupt - runInt10(); - - if (M.x86.R_AL != 0x4f) { - DEBUG_PRINTF_VBE - ("%s: VBE Set Palette Function NOT supported! AL=%x\n", - __func__, M.x86.R_AL); - return -1; - } - - if (M.x86.R_AH != 0x0) { - DEBUG_PRINTF_VBE - ("%s: VBE Set Palette Function Return Code NOT OK! AH=%x\n", - __func__, M.x86.R_AH); - return M.x86.R_AH; - } - // read color value from ES:DI - *color_value = in32le(biosmem + (M.x86.R_ES << 4) + M.x86.R_DI); - - DEBUG_PRINTF_VBE("%s: getting color #%x --> 0x%04x\n", __func__, - color_number, *color_value); - - return 0; -} - -// VBE Function 15h -static u8 -vbe_get_ddc_info(vbe_ddc_info_t * ddc_info) -{ - vbe_prepare(); - // call VBE function 15h (DDC Info Function) - M.x86.R_EAX = 0x4f15; - M.x86.R_BL = 0x00; // get DDC Info - M.x86.R_CX = ddc_info->port_number; - M.x86.R_ES = 0x0; - M.x86.R_DI = 0x0; - - // enable trace - CHECK_DBG(DEBUG_TRACE_X86EMU) { - X86EMU_trace_on(); - } - // run VESA Interrupt - runInt10(); - - if (M.x86.R_AL != 0x4f) { - DEBUG_PRINTF_VBE - ("%s: VBE Get DDC Info Function NOT supported! AL=%x\n", - __func__, M.x86.R_AL); - return -1; - } - - if (M.x86.R_AH != 0x0) { - DEBUG_PRINTF_VBE - ("%s: port: %x VBE Get DDC Info Function Return Code NOT OK! AH=%x\n", - __func__, ddc_info->port_number, M.x86.R_AH); - return M.x86.R_AH; - } - // BH = approx. time in seconds to transfer one EDID block - ddc_info->edid_transfer_time = M.x86.R_BH; - // BL = DDC Level - ddc_info->ddc_level = M.x86.R_BL; - - vbe_prepare(); - // call VBE function 15h (DDC Info Function) - M.x86.R_EAX = 0x4f15; - M.x86.R_BL = 0x01; // read EDID - M.x86.R_CX = ddc_info->port_number; - M.x86.R_DX = 0x0; // block number - // ES:DI is address where EDID is stored, we store it at 2000:0000 - M.x86.R_ES = 0x2000; - M.x86.R_DI = 0x0; - - // enable trace - CHECK_DBG(DEBUG_TRACE_X86EMU) { - X86EMU_trace_on(); - } - // run VESA Interrupt - runInt10(); - - if (M.x86.R_AL != 0x4f) { - DEBUG_PRINTF_VBE - ("%s: VBE Read EDID Function NOT supported! AL=%x\n", - __func__, M.x86.R_AL); - return -1; - } - - if (M.x86.R_AH != 0x0) { - DEBUG_PRINTF_VBE - ("%s: port: %x VBE Read EDID Function Return Code NOT OK! AH=%x\n", - __func__, ddc_info->port_number, M.x86.R_AH); - return M.x86.R_AH; - } - - memcpy(ddc_info->edid_block_zero, - biosmem + (M.x86.R_ES << 4) + M.x86.R_DI, - sizeof(ddc_info->edid_block_zero)); - - return 0; -} - -static u32 -vbe_get_info(void) -{ - u8 rval; - int i; - - // XXX FIXME these need to be filled with sane values - - // get a copy of input struct... - screen_info_input_t input; - // output is pointer to the address passed as argv[4] - screen_info_t local_output; - screen_info_t *output = &local_output; - // zero input - memset(&input, 0, sizeof(screen_info_input_t)); - // zero output - memset(&output, 0, sizeof(screen_info_t)); - - vbe_info_t info; - rval = vbe_info(&info); - if (rval != 0) - return rval; - - DEBUG_PRINTF_VBE("VbeSignature: %s\n", info.signature); - DEBUG_PRINTF_VBE("VbeVersion: 0x%04x\n", info.version); - DEBUG_PRINTF_VBE("OemString: %s\n", info.oem_string_ptr); - DEBUG_PRINTF_VBE("Capabilities:\n"); - DEBUG_PRINTF_VBE("\tDAC: %s\n", - (info.capabilities & 0x1) == - 0 ? "fixed 6bit" : "switchable 6/8bit"); - DEBUG_PRINTF_VBE("\tVGA: %s\n", - (info.capabilities & 0x2) == - 0 ? "compatible" : "not compatible"); - DEBUG_PRINTF_VBE("\tRAMDAC: %s\n", - (info.capabilities & 0x4) == - 0 ? "normal" : "use blank bit in Function 09h"); - - // argv[4] may be a pointer with enough space to return screen_info_t - // as input, it must contain a screen_info_input_t with the following content: - // byte[0:3] = "DDC\0" (zero-terminated signature header) - // byte[4:5] = reserved space for the return struct... just in case we ever change - // the struct and dont have reserved enough memory (and let's hope the struct - // never gets larger than 64KB) - // byte[6] = monitor port number for DDC requests ("only" one byte... so lets hope we never have more than 255 monitors... - // byte[7:8] = max. screen width (OF may want to limit this) - // byte[9] = required color depth in bpp - if (strncmp((char *) input.signature, "DDC", 4) != 0) { - printf - ("%s: Invalid input signature! expected: %s, is: %s\n", - __func__, "DDC", input.signature); - return -1; - } - if (input.size_reserved != sizeof(screen_info_t)) { - printf - ("%s: Size of return struct is wrong, required: %d, available: %d\n", - __func__, (int) sizeof(screen_info_t), - input.size_reserved); - return -1; - } - - vbe_ddc_info_t ddc_info; - ddc_info.port_number = input.monitor_number; - vbe_get_ddc_info(&ddc_info); - -#if 0 - DEBUG_PRINTF_VBE("DDC: edid_tranfer_time: %d\n", - ddc_info.edid_transfer_time); - DEBUG_PRINTF_VBE("DDC: ddc_level: %x\n", ddc_info.ddc_level); - DEBUG_PRINTF_VBE("DDC: EDID: \n"); - CHECK_DBG(DEBUG_VBE) { - dump(ddc_info.edid_block_zero, - sizeof(ddc_info.edid_block_zero)); - } -#endif -/* This could fail because of alignment issues, so use a longer form. - *((u64 *) ddc_info.edid_block_zero) != (u64) 0x00FFFFFFFFFFFF00ULL -*/ - if (ddc_info.edid_block_zero[0] != 0x00 || - ddc_info.edid_block_zero[1] != 0xFF || - ddc_info.edid_block_zero[2] != 0xFF || - ddc_info.edid_block_zero[3] != 0xFF || - ddc_info.edid_block_zero[4] != 0xFF || - ddc_info.edid_block_zero[5] != 0xFF || - ddc_info.edid_block_zero[6] != 0xFF || - ddc_info.edid_block_zero[7] != 0x00 ) { - // invalid EDID signature... probably no monitor - - output->display_type = 0x0; - return 0; - } else if ((ddc_info.edid_block_zero[20] & 0x80) != 0) { - // digital display - output->display_type = 2; - } else { - // analog - output->display_type = 1; - } - DEBUG_PRINTF_VBE("DDC: found display type %d\n", output->display_type); - memcpy(output->edid_block_zero, ddc_info.edid_block_zero, - sizeof(ddc_info.edid_block_zero)); - i = 0; - vbe_mode_info_t mode_info; - vbe_mode_info_t best_mode_info; - // initialize best_mode to 0 - memset(&best_mode_info, 0, sizeof(best_mode_info)); - while ((mode_info.video_mode = info.video_mode_list[i]) != 0xFFFF) { - //DEBUG_PRINTF_VBE("%x: Mode: %04x\n", i, mode_info.video_mode); - vbe_get_mode_info(&mode_info); - - // FIXME all these values are little endian! - - DEBUG_PRINTF_VBE("Video Mode 0x%04x available, %s\n", - mode_info.video_mode, - (le16_to_cpu(mode_info.vesa.mode_attributes) & 0x1) == - 0 ? "not supported" : "supported"); - DEBUG_PRINTF_VBE("\tTTY: %s\n", - (le16_to_cpu(mode_info.vesa.mode_attributes) & 0x4) == - 0 ? "no" : "yes"); - DEBUG_PRINTF_VBE("\tMode: %s %s\n", - (le16_to_cpu(mode_info.vesa.mode_attributes) & 0x8) == - 0 ? "monochrome" : "color", - (le16_to_cpu(mode_info.vesa.mode_attributes) & 0x10) == - 0 ? "text" : "graphics"); - DEBUG_PRINTF_VBE("\tVGA: %s\n", - (le16_to_cpu(mode_info.vesa.mode_attributes) & 0x20) == - 0 ? "compatible" : "not compatible"); - DEBUG_PRINTF_VBE("\tWindowed Mode: %s\n", - (le16_to_cpu(mode_info.vesa.mode_attributes) & 0x40) == - 0 ? "yes" : "no"); - DEBUG_PRINTF_VBE("\tFramebuffer: %s\n", - (le16_to_cpu(mode_info.vesa.mode_attributes) & 0x80) == - 0 ? "no" : "yes"); - DEBUG_PRINTF_VBE("\tResolution: %dx%d\n", - le16_to_cpu(mode_info.vesa.x_resolution), - le16_to_cpu(mode_info.vesa.y_resolution)); - DEBUG_PRINTF_VBE("\tChar Size: %dx%d\n", - mode_info.vesa.x_charsize, mode_info.vesa.y_charsize); - DEBUG_PRINTF_VBE("\tColor Depth: %dbpp\n", - mode_info.vesa.bits_per_pixel); - DEBUG_PRINTF_VBE("\tMemory Model: 0x%x\n", - mode_info.vesa.memory_model); - DEBUG_PRINTF_VBE("\tFramebuffer Offset: %08x\n", - le32_to_cpu(mode_info.vesa.phys_base_ptr)); - - if ((mode_info.vesa.bits_per_pixel == input.color_depth) - && (le16_to_cpu(mode_info.vesa.x_resolution) <= input.max_screen_width) - && ((le16_to_cpu(mode_info.vesa.mode_attributes) & 0x80) != 0) // framebuffer mode - && ((le16_to_cpu(mode_info.vesa.mode_attributes) & 0x10) != 0) // graphics - && ((le16_to_cpu(mode_info.vesa.mode_attributes) & 0x8) != 0) // color - && (le16_to_cpu(mode_info.vesa.x_resolution) > le16_to_cpu(best_mode_info.vesa.x_resolution))) // better than previous best_mode - { - // yiiiihaah... we found a new best mode - memcpy(&best_mode_info, &mode_info, sizeof(mode_info)); - } - i++; - } - - if (best_mode_info.video_mode != 0) { - DEBUG_PRINTF_VBE - ("Best Video Mode found: 0x%x, %dx%d, %dbpp, framebuffer_address: 0x%x\n", - best_mode_info.video_mode, - best_mode_info.vesa.x_resolution, - best_mode_info.vesa.y_resolution, - best_mode_info.vesa.bits_per_pixel, - le32_to_cpu(best_mode_info.vesa.phys_base_ptr)); - - //printf("Mode Info Dump:"); - //dump(best_mode_info.mode_info_block, 64); - - // set the video mode - vbe_set_mode(&best_mode_info); - - if ((info.capabilities & 0x1) != 0) { - // switch to 8 bit palette format - vbe_set_palette_format(8); - } - // setup a palette: - // - first 216 colors are mixed colors for each component in 6 steps - // (6*6*6=216) - // - then 10 shades of the three primary colors - // - then 10 shades of grey - // ------- - // = 256 colors - // - // - finally black is color 0 and white color FF (because SLOF expects it - // this way...) - // this resembles the palette that the kernel/X Server seems to expect... - - u8 mixed_color_values[6] = - { 0xFF, 0xDA, 0xB3, 0x87, 0x54, 0x00 }; - u8 primary_color_values[10] = - { 0xF3, 0xE7, 0xCD, 0xC0, 0xA5, 0x96, 0x77, 0x66, 0x3F, - 0x27 - }; - u8 mc_size = sizeof(mixed_color_values); - u8 prim_size = sizeof(primary_color_values); - - u8 curr_color_index; - u32 curr_color; - - u8 r, g, b; - // 216 mixed colors - for (r = 0; r < mc_size; r++) { - for (g = 0; g < mc_size; g++) { - for (b = 0; b < mc_size; b++) { - curr_color_index = - (r * mc_size * mc_size) + - (g * mc_size) + b; - curr_color = 0; - curr_color |= ((u32) mixed_color_values[r]) << 16; //red value - curr_color |= ((u32) mixed_color_values[g]) << 8; //green value - curr_color |= (u32) mixed_color_values[b]; //blue value - vbe_set_color(curr_color_index, - curr_color); - } - } - } - - // 10 shades of each primary color - // red - for (r = 0; r < prim_size; r++) { - curr_color_index = mc_size * mc_size * mc_size + r; - curr_color = ((u32) primary_color_values[r]) << 16; - vbe_set_color(curr_color_index, curr_color); - } - //green - for (g = 0; g < prim_size; g++) { - curr_color_index = - mc_size * mc_size * mc_size + prim_size + g; - curr_color = ((u32) primary_color_values[g]) << 8; - vbe_set_color(curr_color_index, curr_color); - } - //blue - for (b = 0; b < prim_size; b++) { - curr_color_index = - mc_size * mc_size * mc_size + prim_size * 2 + b; - curr_color = (u32) primary_color_values[b]; - vbe_set_color(curr_color_index, curr_color); - } - // 10 shades of grey - for (i = 0; i < prim_size; i++) { - curr_color_index = - mc_size * mc_size * mc_size + prim_size * 3 + i; - curr_color = 0; - curr_color |= ((u32) primary_color_values[i]) << 16; //red - curr_color |= ((u32) primary_color_values[i]) << 8; //green - curr_color |= ((u32) primary_color_values[i]); //blue - vbe_set_color(curr_color_index, curr_color); - } - - // SLOF is using color 0x0 (black) and 0xFF (white) to draw to the screen... - vbe_set_color(0x00, 0x00000000); - vbe_set_color(0xFF, 0x00FFFFFF); - - output->screen_width = le16_to_cpu(best_mode_info.vesa.x_resolution); - output->screen_height = le16_to_cpu(best_mode_info.vesa.y_resolution); - output->screen_linebytes = le16_to_cpu(best_mode_info.vesa.bytes_per_scanline); - output->color_depth = best_mode_info.vesa.bits_per_pixel; - output->framebuffer_address = - le32_to_cpu(best_mode_info.vesa.phys_base_ptr); - } else { - printf("%s: No suitable video mode found!\n", __func__); - //unset display_type... - output->display_type = 0; - } - return 0; -} -#endif - -vbe_mode_info_t mode_info; - -void vbe_set_graphics(void) -{ - u8 rval; - - vbe_info_t info; - rval = vbe_info(&info); - if (rval != 0) - return; - - DEBUG_PRINTF_VBE("VbeSignature: %s\n", info.signature); - DEBUG_PRINTF_VBE("VbeVersion: 0x%04x\n", info.version); - DEBUG_PRINTF_VBE("OemString: %s\n", info.oem_string_ptr); - DEBUG_PRINTF_VBE("Capabilities:\n"); - DEBUG_PRINTF_VBE("\tDAC: %s\n", - (info.capabilities & 0x1) == - 0 ? "fixed 6bit" : "switchable 6/8bit"); - DEBUG_PRINTF_VBE("\tVGA: %s\n", - (info.capabilities & 0x2) == - 0 ? "compatible" : "not compatible"); - DEBUG_PRINTF_VBE("\tRAMDAC: %s\n", - (info.capabilities & 0x4) == - 0 ? "normal" : "use blank bit in Function 09h"); - - mode_info.video_mode = (1 << 14) | CONFIG_FRAMEBUFFER_VESA_MODE; - vbe_get_mode_info(&mode_info); - vbe_set_mode(&mode_info); - -#if CONFIG_BOOTSPLASH - unsigned char *framebuffer = - (unsigned char *) le32_to_cpu(mode_info.vesa.phys_base_ptr); - DEBUG_PRINTF_VBE("FRAMEBUFFER: 0x%p\n", framebuffer); - - struct jpeg_decdata *decdata; - decdata = malloc(sizeof(*decdata)); - - /* Switching Intel IGD to 1MB video memory will break this. Who - * cares. */ - // int imagesize = 1024*768*2; - - unsigned char *jpeg = cbfs_find_file("bootsplash.jpg", CBFS_TYPE_BOOTSPLASH); - if (!jpeg) { - DEBUG_PRINTF_VBE("Could not find bootsplash.jpg\n"); - return; - } - DEBUG_PRINTF_VBE("Splash at %p ...\n", jpeg); - dump(jpeg, 64); - - int ret = 0; - DEBUG_PRINTF_VBE("Decompressing boot splash screen...\n"); - ret = jpeg_decode(jpeg, framebuffer, 1024, 768, 16, decdata); - DEBUG_PRINTF_VBE("returns %x\n", ret); -#endif -} - -void fill_lb_framebuffer(struct lb_framebuffer *framebuffer) -{ - framebuffer->physical_address = le32_to_cpu(mode_info.vesa.phys_base_ptr); - - framebuffer->x_resolution = le16_to_cpu(mode_info.vesa.x_resolution); - framebuffer->y_resolution = le16_to_cpu(mode_info.vesa.y_resolution); - framebuffer->bytes_per_line = le16_to_cpu(mode_info.vesa.bytes_per_scanline); - framebuffer->bits_per_pixel = mode_info.vesa.bits_per_pixel; - - framebuffer->red_mask_pos = mode_info.vesa.red_mask_pos; - framebuffer->red_mask_size = mode_info.vesa.red_mask_size; - - framebuffer->green_mask_pos = mode_info.vesa.green_mask_pos; - framebuffer->green_mask_size = mode_info.vesa.green_mask_size; - - framebuffer->blue_mask_pos = mode_info.vesa.blue_mask_pos; - framebuffer->blue_mask_size = mode_info.vesa.blue_mask_size; - - framebuffer->reserved_mask_pos = mode_info.vesa.reserved_mask_pos; - framebuffer->reserved_mask_size = mode_info.vesa.reserved_mask_size; -} - -void vbe_textmode_console(void) -{ - /* Wait, just a little bit more, pleeeease ;-) */ - delay(2); - - M.x86.R_EAX = 0x0003; - runInt10(); -} - -#endif diff --git a/src/devices/oprom/yabel/vbe.h b/src/devices/oprom/yabel/vbe.h deleted file mode 100644 index bf286bc12c..0000000000 --- a/src/devices/oprom/yabel/vbe.h +++ /dev/null @@ -1,23 +0,0 @@ -/****************************************************************************** - * Copyright (c) 2004, 2008 IBM Corporation - * All rights reserved. - * This program and the accompanying materials - * are made available under the terms of the BSD License - * which accompanies this distribution, and is available at - * http://www.opensource.org/licenses/bsd-license.php - * - * Contributors: - * IBM Corporation - initial implementation - *****************************************************************************/ - -#ifndef _BIOSEMU_VBE_H_ -#define _BIOSEMU_VBE_H_ - -struct lb_framebuffer; - -void vbe_set_graphics(void); -int vbe_mode_info_valid(void); -void fill_lb_framebuffer(struct lb_framebuffer *framebuffer); -void vbe_textmode_console(void); - -#endif -- cgit v1.2.3