drivers/obio.c - openbios - Git at Google

 /*
  *   OpenBIOS Sparc OBIO driver
  *
  *   (C) 2004 Stefan Reinauer
  *   (C) 2005 Ed Schouten <ed@fxq.nl>
  *
  *   This program is free software; you can redistribute it and/or
  *   modify it under the terms of the GNU General Public License
  *   version 2
  *
  */

 #include "config.h"
 #include "libopenbios/bindings.h"
 #include "kernel/kernel.h"
 #include "libc/byteorder.h"
 #include "libc/vsprintf.h"

 #include "drivers/drivers.h"
 #include "arch/common/nvram.h"
 #include "libopenbios/ofmem.h"
 #include "obio.h"
 #include "escc.h"

 #define	PROMDEV_KBD	0		/* input from keyboard */
 #define	PROMDEV_SCREEN	0		/* output to screen */
 #define	PROMDEV_TTYA	1		/* in/out to ttya */


 void
 ob_new_obio_device(const char *name, const char *type)
 {
     push_str("/obio");
     fword("find-device");
     fword("new-device");

     push_str(name);
     fword("device-name");

     if (type) {
         push_str(type);
         fword("device-type");
     }
 }

 static unsigned long
 map_reg(uint64_t base, uint64_t offset, unsigned long size, int map,
         int phys_hi)
 {
     PUSH(phys_hi);
     fword("encode-int");
     PUSH(offset);
     fword("encode-int");
     fword("encode+");
     PUSH(size);
     fword("encode-int");
     fword("encode+");
     push_str("reg");
     fword("property");

     if (map) {
         unsigned long addr;

         addr = (unsigned long)ofmem_map_io(base + offset, size);

         PUSH(addr);
         fword("encode-int");
         push_str("address");
         fword("property");
         return addr;
     }
     return 0;
 }

 unsigned long
 ob_reg(uint64_t base, uint64_t offset, unsigned long size, int map)
 {
     return map_reg(base, offset, size, map, 0);
 }

 void
 ob_intr(int intr)
 {
     PUSH(intr);
     fword("encode-int");
     PUSH(0);
     fword("encode-int");
     fword("encode+");
     push_str("intr");
     fword("property");
 }

 void
 ob_eccmemctl_init(uint64_t base)
 {
     uint32_t version, *regs;
     const char *mc_type;

     push_str("/");
     fword("find-device");
     fword("new-device");

     push_str("eccmemctl");
     fword("device-name");

     PUSH(0x20);
     fword("encode-int");
     push_str("width");
     fword("property");

     regs = (uint32_t *)map_reg(ECC_BASE, 0, ECC_SIZE, 1, ECC_BASE >> 32);

     version = regs[0];
     switch (version) {
     case 0x00000000:
         mc_type = "MCC";
         break;
     case 0x10000000:
         mc_type = "EMC";
         break;
     default:
     case 0x20000000:
         mc_type = "SMC";
         break;
     }
     push_str(mc_type);
     fword("encode-string");
     push_str("mc-type");
     fword("property");

     fword("finish-device");
 }

 static unsigned char *nvram;

 #define NVRAM_OB_START   (0)
 #define NVRAM_OB_SIZE    ((NVRAM_IDPROM - NVRAM_OB_START) & ~15)

 void
 arch_nvram_get(char *data)
 {
     memcpy(data, &nvram[NVRAM_OB_START], NVRAM_OB_SIZE);
 }

 void
 arch_nvram_put(char *data)
 {
     memcpy(&nvram[NVRAM_OB_START], data, NVRAM_OB_SIZE);
 }

 int
 arch_nvram_size(void)
 {
     return NVRAM_OB_SIZE;
 }

 void
 ss5_init(uint64_t base)
 {
     ob_new_obio_device("slavioconfig", NULL);

     ob_reg(base, SLAVIO_SCONFIG, SCONFIG_REGS, 0);

     fword("finish-device");
 }

 static void
 ob_nvram_init(uint64_t base, uint64_t offset)
 {
     ob_new_obio_device("eeprom", NULL);

     nvram = (unsigned char *)ob_reg(base, offset, NVRAM_SIZE, 1);

     PUSH((unsigned long)nvram);
     fword("encode-int");
     push_str("address");
     fword("property");

     push_str("mk48t08");
     fword("model");

     fword("finish-device");

     // Add /idprom
     push_str("/");
     fword("find-device");

     PUSH((long)&nvram[NVRAM_IDPROM]);
     PUSH(32);
     fword("encode-bytes");
     push_str("idprom");
     fword("property");
 }

 static void
 ob_fd_init(uint64_t base, uint64_t offset, int intr)
 {
     unsigned long addr;

     ob_new_obio_device("SUNW,fdtwo", "block");

     addr = ob_reg(base, offset, FD_REGS, 1);

     ob_intr(intr);

     fword("is-deblocker");

     ob_floppy_init("/obio", "SUNW,fdtwo", 0, addr);

     fword("finish-device");
 }

 static void
 ob_auxio_init(uint64_t base, uint64_t offset)
 {
     ob_new_obio_device("auxio", NULL);

     ob_reg(base, offset, AUXIO_REGS, 1);

     fword("finish-device");
 }

 volatile unsigned char *power_reg;
 volatile unsigned int *reset_reg;

 static void
 sparc32_power_off(void)
 {
     *power_reg = 1;
 }

 static void
 sparc32_reset_all(void)
 {
     *reset_reg = 1;
 }

 // AUX 2 (Software Powerdown Control) and reset
 static void
 ob_aux2_reset_init(uint64_t base, uint64_t offset, int intr)
 {
     ob_new_obio_device("power", NULL);

     power_reg = (void *)ob_reg(base, offset, AUXIO2_REGS, 1);

     bind_func("sparc32-power-off", sparc32_power_off);
     push_str("' sparc32-power-off to power-off");
     fword("eval");

     // Not in device tree
     reset_reg = (unsigned int *)ofmem_map_io(base + (uint64_t)SLAVIO_RESET, RESET_REGS);

     bind_func("sparc32-reset-all", sparc32_reset_all);
     push_str("' sparc32-reset-all to reset-all");
     fword("eval");

     ob_intr(intr);

     fword("finish-device");
 }

 volatile struct sun4m_timer_regs *counter_regs;

 static void
 ob_counter_init(uint64_t base, unsigned long offset, int ncpu)
 {
     int i;

     ob_new_obio_device("counter", NULL);

     for (i = 0; i < ncpu; i++) {
         PUSH(0);
         fword("encode-int");
         if (i != 0) fword("encode+");
         PUSH(offset + (i * PAGE_SIZE));
         fword("encode-int");
         fword("encode+");
         PUSH(COUNTER_REGS);
         fword("encode-int");
         fword("encode+");
     }

     PUSH(0);
     fword("encode-int");
     fword("encode+");
     PUSH(offset + 0x10000);
     fword("encode-int");
     fword("encode+");
     PUSH(COUNTER_REGS);
     fword("encode-int");
     fword("encode+");

     push_str("reg");
     fword("property");


     counter_regs = (struct sun4m_timer_regs *)ofmem_map_io(base + (uint64_t)offset, sizeof(*counter_regs));
     counter_regs->cfg = 0xfffffffe;
     counter_regs->l10_timer_limit = 0;
     counter_regs->cpu_timers[0].l14_timer_limit = 0x9c4000;    /* see comment in obio.h */
     counter_regs->cpu_timers[0].cntrl = 1;

     for (i = 0; i < ncpu; i++) {
         PUSH((unsigned long)&counter_regs->cpu_timers[i]);
         fword("encode-int");
         if (i != 0)
             fword("encode+");
     }
     PUSH((unsigned long)&counter_regs->l10_timer_limit);
     fword("encode-int");
     fword("encode+");
     push_str("address");
     fword("property");

     fword("finish-device");
 }

 static volatile struct sun4m_intregs *intregs;

 static void
 ob_interrupt_init(uint64_t base, unsigned long offset, int ncpu)
 {
     int i;

     ob_new_obio_device("interrupt", NULL);

     for (i = 0; i < ncpu; i++) {
         PUSH(0);
         fword("encode-int");
         if (i != 0) fword("encode+");
         PUSH(offset + (i * PAGE_SIZE));
         fword("encode-int");
         fword("encode+");
         PUSH(INTERRUPT_REGS);
         fword("encode-int");
         fword("encode+");
     }

     PUSH(0);
     fword("encode-int");
     fword("encode+");
     PUSH(offset + 0x10000);
     fword("encode-int");
     fword("encode+");
     PUSH(INTERRUPT_REGS);
     fword("encode-int");
     fword("encode+");

     push_str("reg");
     fword("property");

     intregs = (struct sun4m_intregs *)ofmem_map_io(base | (uint64_t)offset, sizeof(*intregs));
     intregs->clear = ~SUN4M_INT_MASKALL;
     intregs->cpu_intregs[0].clear = ~0x17fff;

     for (i = 0; i < ncpu; i++) {
         PUSH((unsigned long)&intregs->cpu_intregs[i]);
         fword("encode-int");
         if (i != 0)
             fword("encode+");
     }
     PUSH((unsigned long)&intregs->tbt);
     fword("encode-int");
     fword("encode+");
     push_str("address");
     fword("property");

     fword("finish-device");
 }

 /* SMP CPU boot structure */
 struct smp_cfg {
     uint32_t smp_ctx;
     uint32_t smp_ctxtbl;
     uint32_t smp_entry;
     uint32_t valid;
 };

 static struct smp_cfg *smp_header;

 int
 start_cpu(unsigned int pc, unsigned int context_ptr, unsigned int context, int cpu)
 {
     if (!cpu)
         return -1;

     cpu &= 7;

     smp_header->smp_entry = pc;
     smp_header->smp_ctxtbl = context_ptr;
     smp_header->smp_ctx = context;
     smp_header->valid = cpu;

     intregs->cpu_intregs[cpu].set = SUN4M_SOFT_INT(14);

     return 0;
 }

 static void
 ob_smp_init(unsigned long mem_size)
 {
     // See arch/sparc32/entry.S for memory layout
     smp_header = (struct smp_cfg *)ofmem_map_io((uint64_t)(mem_size - 0x100),
                                           sizeof(struct smp_cfg));
 }

 static void
 ob_set_obio_ranges(uint64_t base)
 {
     push_str("/obio");
     fword("find-device");
     PUSH(0);
     fword("encode-int");
     PUSH(0);
     fword("encode-int");
     fword("encode+");
     PUSH(base >> 32);
     fword("encode-int");
     fword("encode+");
     PUSH(base & 0xffffffff);
     fword("encode-int");
     fword("encode+");
     PUSH(SLAVIO_SIZE);
     fword("encode-int");
     fword("encode+");
     push_str("ranges");
     fword("property");
 }


 int
 ob_obio_init(uint64_t slavio_base, unsigned long fd_offset,
              unsigned long counter_offset, unsigned long intr_offset,
              int intr_ncpu, unsigned long aux1_offset, unsigned long aux2_offset,
              unsigned long mem_size)
 {

     // All devices were integrated to NCR89C105, see
     // http://www.ibiblio.org/pub/historic-linux/early-ports/Sparc/NCR/NCR89C105.txt

     //printk("Initializing OBIO devices...\n");
     ob_set_obio_ranges(slavio_base);

     // Zilog Z8530 serial ports, see http://www.zilog.com
     // Must be before zs@0,0 or Linux won't boot
     ob_zs_init(slavio_base, SLAVIO_ZS1, ZS_INTR, 0, 0);

     ob_zs_init(slavio_base, SLAVIO_ZS, ZS_INTR, 1, 1);

     // M48T08 NVRAM, see http://www.st.com
     ob_nvram_init(slavio_base, SLAVIO_NVRAM);

     // 82078 FDC
     if (fd_offset != (unsigned long) -1)
         ob_fd_init(slavio_base, fd_offset, FD_INTR);

     ob_auxio_init(slavio_base, aux1_offset);

     if (aux2_offset != (unsigned long) -1)
         ob_aux2_reset_init(slavio_base, aux2_offset, AUXIO2_INTR);

     ob_counter_init(slavio_base, counter_offset, intr_ncpu);

     ob_interrupt_init(slavio_base, intr_offset, intr_ncpu);

     ob_smp_init(mem_size);

     return 0;
 }
	/*
	* OpenBIOS Sparc OBIO driver
	*
	* (C) 2004 Stefan Reinauer
	* (C) 2005 Ed Schouten <ed@fxq.nl>
	*
	* This program is free software; you can redistribute it and/or
	* modify it under the terms of the GNU General Public License
	* version 2
	*
	*/

	#include "config.h"
	#include "libopenbios/bindings.h"
	#include "kernel/kernel.h"
	#include "libc/byteorder.h"
	#include "libc/vsprintf.h"

	#include "drivers/drivers.h"
	#include "arch/common/nvram.h"
	#include "libopenbios/ofmem.h"
	#include "obio.h"
	#include "escc.h"

	#define PROMDEV_KBD 0 /* input from keyboard */
	#define PROMDEV_SCREEN 0 /* output to screen */
	#define PROMDEV_TTYA 1 /* in/out to ttya */


	void
	ob_new_obio_device(const char name, const char type)
	{
	push_str("/obio");
	fword("find-device");
	fword("new-device");

	push_str(name);
	fword("device-name");

	if (type) {
	push_str(type);
	fword("device-type");
	}
	}

	static unsigned long
	map_reg(uint64_t base, uint64_t offset, unsigned long size, int map,
	int phys_hi)
	{
	PUSH(phys_hi);
	fword("encode-int");
	PUSH(offset);
	fword("encode-int");
	fword("encode+");
	PUSH(size);
	fword("encode-int");
	fword("encode+");
	push_str("reg");
	fword("property");

	if (map) {
	unsigned long addr;

	addr = (unsigned long)ofmem_map_io(base + offset, size);

	PUSH(addr);
	fword("encode-int");
	push_str("address");
	fword("property");
	return addr;
	}
	return 0;
	}

	unsigned long
	ob_reg(uint64_t base, uint64_t offset, unsigned long size, int map)
	{
	return map_reg(base, offset, size, map, 0);
	}

	void
	ob_intr(int intr)
	{
	PUSH(intr);
	fword("encode-int");
	PUSH(0);
	fword("encode-int");
	fword("encode+");
	push_str("intr");
	fword("property");
	}

	void
	ob_eccmemctl_init(uint64_t base)
	{
	uint32_t version, *regs;
	const char *mc_type;

	push_str("/");
	fword("find-device");
	fword("new-device");

	push_str("eccmemctl");
	fword("device-name");

	PUSH(0x20);
	fword("encode-int");
	push_str("width");
	fword("property");

	regs = (uint32_t *)map_reg(ECC_BASE, 0, ECC_SIZE, 1, ECC_BASE >> 32);

	version = regs[0];
	switch (version) {
	case 0x00000000:
	mc_type = "MCC";
	break;
	case 0x10000000:
	mc_type = "EMC";
	break;
	default:
	case 0x20000000:
	mc_type = "SMC";
	break;
	}
	push_str(mc_type);
	fword("encode-string");
	push_str("mc-type");
	fword("property");

	fword("finish-device");
	}

	static unsigned char *nvram;

	#define NVRAM_OB_START (0)
	#define NVRAM_OB_SIZE ((NVRAM_IDPROM - NVRAM_OB_START) & ~15)

	void
	arch_nvram_get(char *data)
	{
	memcpy(data, &nvram[NVRAM_OB_START], NVRAM_OB_SIZE);
	}

	void
	arch_nvram_put(char *data)
	{
	memcpy(&nvram[NVRAM_OB_START], data, NVRAM_OB_SIZE);
	}

	int
	arch_nvram_size(void)
	{
	return NVRAM_OB_SIZE;
	}

	void
	ss5_init(uint64_t base)
	{
	ob_new_obio_device("slavioconfig", NULL);

	ob_reg(base, SLAVIO_SCONFIG, SCONFIG_REGS, 0);

	fword("finish-device");
	}

	static void
	ob_nvram_init(uint64_t base, uint64_t offset)
	{
	ob_new_obio_device("eeprom", NULL);

	nvram = (unsigned char *)ob_reg(base, offset, NVRAM_SIZE, 1);

	PUSH((unsigned long)nvram);
	fword("encode-int");
	push_str("address");
	fword("property");

	push_str("mk48t08");
	fword("model");

	fword("finish-device");

	// Add /idprom
	push_str("/");
	fword("find-device");

	PUSH((long)&nvram[NVRAM_IDPROM]);
	PUSH(32);
	fword("encode-bytes");
	push_str("idprom");
	fword("property");
	}

	static void
	ob_fd_init(uint64_t base, uint64_t offset, int intr)
	{
	unsigned long addr;

	ob_new_obio_device("SUNW,fdtwo", "block");

	addr = ob_reg(base, offset, FD_REGS, 1);

	ob_intr(intr);

	fword("is-deblocker");

	ob_floppy_init("/obio", "SUNW,fdtwo", 0, addr);

	fword("finish-device");
	}

	static void
	ob_auxio_init(uint64_t base, uint64_t offset)
	{
	ob_new_obio_device("auxio", NULL);

	ob_reg(base, offset, AUXIO_REGS, 1);

	fword("finish-device");
	}

	volatile unsigned char *power_reg;
	volatile unsigned int *reset_reg;

	static void
	sparc32_power_off(void)
	{
	*power_reg = 1;
	}

	static void
	sparc32_reset_all(void)
	{
	*reset_reg = 1;
	}

	// AUX 2 (Software Powerdown Control) and reset
	static void
	ob_aux2_reset_init(uint64_t base, uint64_t offset, int intr)
	{
	ob_new_obio_device("power", NULL);

	power_reg = (void *)ob_reg(base, offset, AUXIO2_REGS, 1);

	bind_func("sparc32-power-off", sparc32_power_off);
	push_str("' sparc32-power-off to power-off");
	fword("eval");

	// Not in device tree
	reset_reg = (unsigned int *)ofmem_map_io(base + (uint64_t)SLAVIO_RESET, RESET_REGS);

	bind_func("sparc32-reset-all", sparc32_reset_all);
	push_str("' sparc32-reset-all to reset-all");
	fword("eval");

	ob_intr(intr);

	fword("finish-device");
	}

	volatile struct sun4m_timer_regs *counter_regs;

	static void
	ob_counter_init(uint64_t base, unsigned long offset, int ncpu)
	{
	int i;

	ob_new_obio_device("counter", NULL);

	for (i = 0; i < ncpu; i++) {
	PUSH(0);
	fword("encode-int");
	if (i != 0) fword("encode+");
	PUSH(offset + (i * PAGE_SIZE));
	fword("encode-int");
	fword("encode+");
	PUSH(COUNTER_REGS);
	fword("encode-int");
	fword("encode+");
	}

	PUSH(0);
	fword("encode-int");
	fword("encode+");
	PUSH(offset + 0x10000);
	fword("encode-int");
	fword("encode+");
	PUSH(COUNTER_REGS);
	fword("encode-int");
	fword("encode+");

	push_str("reg");
	fword("property");


	counter_regs = (struct sun4m_timer_regs )ofmem_map_io(base + (uint64_t)offset, sizeof(counter_regs));
	counter_regs->cfg = 0xfffffffe;
	counter_regs->l10_timer_limit = 0;
	counter_regs->cpu_timers[0].l14_timer_limit = 0x9c4000; /* see comment in obio.h */
	counter_regs->cpu_timers[0].cntrl = 1;

	for (i = 0; i < ncpu; i++) {
	PUSH((unsigned long)&counter_regs->cpu_timers[i]);
	fword("encode-int");
	if (i != 0)
	fword("encode+");
	}
	PUSH((unsigned long)&counter_regs->l10_timer_limit);
	fword("encode-int");
	fword("encode+");
	push_str("address");
	fword("property");

	fword("finish-device");
	}

	static volatile struct sun4m_intregs *intregs;

	static void
	ob_interrupt_init(uint64_t base, unsigned long offset, int ncpu)
	{
	int i;

	ob_new_obio_device("interrupt", NULL);

	for (i = 0; i < ncpu; i++) {
	PUSH(0);
	fword("encode-int");
	if (i != 0) fword("encode+");
	PUSH(offset + (i * PAGE_SIZE));
	fword("encode-int");
	fword("encode+");
	PUSH(INTERRUPT_REGS);
	fword("encode-int");
	fword("encode+");
	}

	PUSH(0);
	fword("encode-int");
	fword("encode+");
	PUSH(offset + 0x10000);
	fword("encode-int");
	fword("encode+");
	PUSH(INTERRUPT_REGS);
	fword("encode-int");
	fword("encode+");

	push_str("reg");
	fword("property");

	intregs = (struct sun4m_intregs )ofmem_map_io(base \| (uint64_t)offset, sizeof(intregs));
	intregs->clear = ~SUN4M_INT_MASKALL;
	intregs->cpu_intregs[0].clear = ~0x17fff;

	for (i = 0; i < ncpu; i++) {
	PUSH((unsigned long)&intregs->cpu_intregs[i]);
	fword("encode-int");
	if (i != 0)
	fword("encode+");
	}
	PUSH((unsigned long)&intregs->tbt);
	fword("encode-int");
	fword("encode+");
	push_str("address");
	fword("property");

	fword("finish-device");
	}

	/* SMP CPU boot structure */
	struct smp_cfg {
	uint32_t smp_ctx;
	uint32_t smp_ctxtbl;
	uint32_t smp_entry;
	uint32_t valid;
	};

	static struct smp_cfg *smp_header;

	int
	start_cpu(unsigned int pc, unsigned int context_ptr, unsigned int context, int cpu)
	{
	if (!cpu)
	return -1;

	cpu &= 7;

	smp_header->smp_entry = pc;
	smp_header->smp_ctxtbl = context_ptr;
	smp_header->smp_ctx = context;
	smp_header->valid = cpu;

	intregs->cpu_intregs[cpu].set = SUN4M_SOFT_INT(14);

	return 0;
	}

	static void
	ob_smp_init(unsigned long mem_size)
	{
	// See arch/sparc32/entry.S for memory layout
	smp_header = (struct smp_cfg *)ofmem_map_io((uint64_t)(mem_size - 0x100),
	sizeof(struct smp_cfg));
	}

	static void
	ob_set_obio_ranges(uint64_t base)
	{
	push_str("/obio");
	fword("find-device");
	PUSH(0);
	fword("encode-int");
	PUSH(0);
	fword("encode-int");
	fword("encode+");
	PUSH(base >> 32);
	fword("encode-int");
	fword("encode+");
	PUSH(base & 0xffffffff);
	fword("encode-int");
	fword("encode+");
	PUSH(SLAVIO_SIZE);
	fword("encode-int");
	fword("encode+");
	push_str("ranges");
	fword("property");
	}


	int
	ob_obio_init(uint64_t slavio_base, unsigned long fd_offset,
	unsigned long counter_offset, unsigned long intr_offset,
	int intr_ncpu, unsigned long aux1_offset, unsigned long aux2_offset,
	unsigned long mem_size)
	{

	// All devices were integrated to NCR89C105, see
	// http://www.ibiblio.org/pub/historic-linux/early-ports/Sparc/NCR/NCR89C105.txt

	//printk("Initializing OBIO devices...\n");
	ob_set_obio_ranges(slavio_base);

	// Zilog Z8530 serial ports, see http://www.zilog.com
	// Must be before zs@0,0 or Linux won't boot
	ob_zs_init(slavio_base, SLAVIO_ZS1, ZS_INTR, 0, 0);

	ob_zs_init(slavio_base, SLAVIO_ZS, ZS_INTR, 1, 1);

	// M48T08 NVRAM, see http://www.st.com
	ob_nvram_init(slavio_base, SLAVIO_NVRAM);

	// 82078 FDC
	if (fd_offset != (unsigned long) -1)
	ob_fd_init(slavio_base, fd_offset, FD_INTR);

	ob_auxio_init(slavio_base, aux1_offset);

	if (aux2_offset != (unsigned long) -1)
	ob_aux2_reset_init(slavio_base, aux2_offset, AUXIO2_INTR);

	ob_counter_init(slavio_base, counter_offset, intr_ncpu);

	ob_interrupt_init(slavio_base, intr_offset, intr_ncpu);

	ob_smp_init(mem_size);

	return 0;
	}