Stand-alone SCI/SCIF emulation code, by Magnus Damm.

git-svn-id: svn://svn.savannah.nongnu.org/qemu/trunk@3270 c046a42c-6fe2-441c-8c8c-71466251a162
This commit is contained in:
ths 2007-09-29 19:43:54 +00:00
parent cd1a3f6840
commit 2f062c7227
6 changed files with 325 additions and 585 deletions

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@ -476,7 +476,7 @@ CPPFLAGS += -DHAS_AUDIO
endif endif
ifeq ($(TARGET_BASE_ARCH), sh4) ifeq ($(TARGET_BASE_ARCH), sh4)
VL_OBJS+= shix.o r2d.o sh7750.o sh7750_regnames.o tc58128.o VL_OBJS+= shix.o r2d.o sh7750.o sh7750_regnames.o tc58128.o
VL_OBJS+= sh_timer.o ptimer.o VL_OBJS+= sh_timer.o ptimer.o sh_serial.o
endif endif
ifeq ($(TARGET_BASE_ARCH), m68k) ifeq ($(TARGET_BASE_ARCH), m68k)
VL_OBJS+= an5206.o mcf5206.o ptimer.o mcf_uart.o mcf_intc.o mcf5208.o mcf_fec.o VL_OBJS+= an5206.o mcf5206.o ptimer.o mcf_uart.o mcf_intc.o mcf5208.o mcf_fec.o

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@ -27,13 +27,6 @@
#include "sh7750_regs.h" #include "sh7750_regs.h"
#include "sh7750_regnames.h" #include "sh7750_regnames.h"
typedef struct {
uint8_t data[16];
uint8_t length; /* Number of characters in the FIFO */
uint8_t write_idx; /* Index of first character to write */
uint8_t read_idx; /* Index of first character to read */
} fifo;
#define NB_DEVICES 4 #define NB_DEVICES 4
typedef struct SH7750State { typedef struct SH7750State {
@ -43,27 +36,6 @@ typedef struct SH7750State {
uint32_t periph_freq; uint32_t periph_freq;
/* SDRAM controller */ /* SDRAM controller */
uint16_t rfcr; uint16_t rfcr;
/* First serial port */
CharDriverState *serial1;
uint8_t scscr1;
uint8_t scsmr1;
uint8_t scbrr1;
uint8_t scssr1;
uint8_t scssr1_read;
uint8_t sctsr1;
uint8_t sctsr1_loaded;
uint8_t sctdr1;
uint8_t scrdr1;
/* Second serial port */
CharDriverState *serial2;
uint16_t sclsr2;
uint16_t scscr2;
uint16_t scfcr2;
uint16_t scfsr2;
uint16_t scsmr2;
uint8_t scbrr2;
fifo serial2_receive_fifo;
fifo serial2_transmit_fifo;
/* IO ports */ /* IO ports */
uint16_t gpioic; uint16_t gpioic;
uint32_t pctra; uint32_t pctra;
@ -84,263 +56,6 @@ typedef struct SH7750State {
} SH7750State; } SH7750State;
/**********************************************************************
First serial port
**********************************************************************/
static int serial1_can_receive(void *opaque)
{
SH7750State *s = opaque;
return s->scscr1 & SH7750_SCSCR_RE;
}
static void serial1_receive_char(SH7750State * s, uint8_t c)
{
if (s->scssr1 & SH7750_SCSSR1_RDRF) {
s->scssr1 |= SH7750_SCSSR1_ORER;
return;
}
s->scrdr1 = c;
s->scssr1 |= SH7750_SCSSR1_RDRF;
}
static void serial1_receive(void *opaque, const uint8_t * buf, int size)
{
SH7750State *s = opaque;
int i;
for (i = 0; i < size; i++) {
serial1_receive_char(s, buf[i]);
}
}
static void serial1_event(void *opaque, int event)
{
assert(0);
}
static void serial1_maybe_send(SH7750State * s)
{
uint8_t c;
if (s->scssr1 & SH7750_SCSSR1_TDRE)
return;
c = s->sctdr1;
s->scssr1 |= SH7750_SCSSR1_TDRE | SH7750_SCSSR1_TEND;
if (s->scscr1 & SH7750_SCSCR_TIE) {
fprintf(stderr, "interrupts for serial port 1 not implemented\n");
assert(0);
}
/* XXXXX Check for errors in write */
qemu_chr_write(s->serial1, &c, 1);
}
static void serial1_change_scssr1(SH7750State * s, uint8_t mem_value)
{
uint8_t new_flags;
/* If transmit disable, TDRE and TEND stays up */
if ((s->scscr1 & SH7750_SCSCR_TE) == 0) {
mem_value |= SH7750_SCSSR1_TDRE | SH7750_SCSSR1_TEND;
}
/* Only clear bits which have been read before and do not set any bit
in the flags */
new_flags = s->scssr1 & ~s->scssr1_read; /* Preserve unread flags */
new_flags &= mem_value | ~s->scssr1_read; /* Clear read flags */
s->scssr1 = (new_flags & 0xf8) | (mem_value & 1);
s->scssr1_read &= mem_value;
/* If TDRE has been cleared, TEND will also be cleared */
if ((s->scssr1 & SH7750_SCSSR1_TDRE) == 0) {
s->scssr1 &= ~SH7750_SCSSR1_TEND;
}
/* Check for transmission to start */
serial1_maybe_send(s);
}
static void serial1_update_parameters(SH7750State * s)
{
QEMUSerialSetParams ssp;
if (s->scsmr1 & SH7750_SCSMR_CHR_7)
ssp.data_bits = 7;
else
ssp.data_bits = 8;
if (s->scsmr1 & SH7750_SCSMR_PE) {
if (s->scsmr1 & SH7750_SCSMR_PM_ODD)
ssp.parity = 'O';
else
ssp.parity = 'E';
} else
ssp.parity = 'N';
if (s->scsmr1 & SH7750_SCSMR_STOP_2)
ssp.stop_bits = 2;
else
ssp.stop_bits = 1;
fprintf(stderr, "SCSMR1=%04x SCBRR1=%02x\n", s->scsmr1, s->scbrr1);
ssp.speed = s->periph_freq /
(32 * s->scbrr1 * (1 << (2 * (s->scsmr1 & 3)))) - 1;
fprintf(stderr, "data bits=%d, stop bits=%d, parity=%c, speed=%d\n",
ssp.data_bits, ssp.stop_bits, ssp.parity, ssp.speed);
qemu_chr_ioctl(s->serial1, CHR_IOCTL_SERIAL_SET_PARAMS, &ssp);
}
static void scscr1_changed(SH7750State * s)
{
if (s->scscr1 & (SH7750_SCSCR_TE | SH7750_SCSCR_RE)) {
if (!s->serial1) {
fprintf(stderr, "serial port 1 not bound to anything\n");
assert(0);
}
serial1_update_parameters(s);
}
if ((s->scscr1 & SH7750_SCSCR_RE) == 0) {
s->scssr1 |= SH7750_SCSSR1_TDRE;
}
}
static void init_serial1(SH7750State * s, int serial_nb)
{
CharDriverState *chr;
s->scssr1 = 0x84;
chr = serial_hds[serial_nb];
if (!chr) {
fprintf(stderr,
"no serial port associated to SH7750 first serial port\n");
return;
}
s->serial1 = chr;
qemu_chr_add_handlers(chr, serial1_can_receive,
serial1_receive, serial1_event, s);
}
/**********************************************************************
Second serial port
**********************************************************************/
static int serial2_can_receive(void *opaque)
{
SH7750State *s = opaque;
static uint8_t max_fifo_size[] = { 15, 1, 4, 6, 8, 10, 12, 14 };
return s->serial2_receive_fifo.length <
max_fifo_size[(s->scfcr2 >> 9) & 7];
}
static void serial2_adjust_receive_flags(SH7750State * s)
{
static uint8_t max_fifo_size[] = { 1, 4, 8, 14 };
/* XXXXX Add interrupt generation */
if (s->serial2_receive_fifo.length >=
max_fifo_size[(s->scfcr2 >> 7) & 3]) {
s->scfsr2 |= SH7750_SCFSR2_RDF;
s->scfsr2 &= ~SH7750_SCFSR2_DR;
} else {
s->scfsr2 &= ~SH7750_SCFSR2_RDF;
if (s->serial2_receive_fifo.length > 0)
s->scfsr2 |= SH7750_SCFSR2_DR;
else
s->scfsr2 &= ~SH7750_SCFSR2_DR;
}
}
static void serial2_append_char(SH7750State * s, uint8_t c)
{
if (s->serial2_receive_fifo.length == 16) {
/* Overflow */
s->sclsr2 |= SH7750_SCLSR2_ORER;
return;
}
s->serial2_receive_fifo.data[s->serial2_receive_fifo.write_idx++] = c;
s->serial2_receive_fifo.length++;
serial2_adjust_receive_flags(s);
}
static void serial2_receive(void *opaque, const uint8_t * buf, int size)
{
SH7750State *s = opaque;
int i;
for (i = 0; i < size; i++)
serial2_append_char(s, buf[i]);
}
static void serial2_event(void *opaque, int event)
{
/* XXXXX */
assert(0);
}
static void serial2_update_parameters(SH7750State * s)
{
QEMUSerialSetParams ssp;
if (s->scsmr2 & SH7750_SCSMR_CHR_7)
ssp.data_bits = 7;
else
ssp.data_bits = 8;
if (s->scsmr2 & SH7750_SCSMR_PE) {
if (s->scsmr2 & SH7750_SCSMR_PM_ODD)
ssp.parity = 'O';
else
ssp.parity = 'E';
} else
ssp.parity = 'N';
if (s->scsmr2 & SH7750_SCSMR_STOP_2)
ssp.stop_bits = 2;
else
ssp.stop_bits = 1;
fprintf(stderr, "SCSMR2=%04x SCBRR2=%02x\n", s->scsmr2, s->scbrr2);
ssp.speed = s->periph_freq /
(32 * s->scbrr2 * (1 << (2 * (s->scsmr2 & 3)))) - 1;
fprintf(stderr, "data bits=%d, stop bits=%d, parity=%c, speed=%d\n",
ssp.data_bits, ssp.stop_bits, ssp.parity, ssp.speed);
qemu_chr_ioctl(s->serial2, CHR_IOCTL_SERIAL_SET_PARAMS, &ssp);
}
static void scscr2_changed(SH7750State * s)
{
if (s->scscr2 & (SH7750_SCSCR_TE | SH7750_SCSCR_RE)) {
if (!s->serial2) {
fprintf(stderr, "serial port 2 not bound to anything\n");
assert(0);
}
serial2_update_parameters(s);
}
}
static void init_serial2(SH7750State * s, int serial_nb)
{
CharDriverState *chr;
s->scfsr2 = 0x0060;
chr = serial_hds[serial_nb];
if (!chr) {
fprintf(stderr,
"no serial port associated to SH7750 second serial port\n");
return;
}
s->serial2 = chr;
qemu_chr_add_handlers(chr, serial2_can_receive,
serial2_receive, serial1_event, s);
}
static void init_serial_ports(SH7750State * s)
{
init_serial1(s, 0);
init_serial2(s, 1);
}
/********************************************************************** /**********************************************************************
I/O ports I/O ports
@ -472,17 +187,7 @@ static void ignore_access(const char *kind, target_phys_addr_t addr)
static uint32_t sh7750_mem_readb(void *opaque, target_phys_addr_t addr) static uint32_t sh7750_mem_readb(void *opaque, target_phys_addr_t addr)
{ {
SH7750State *s = opaque;
uint8_t r;
switch (addr) { switch (addr) {
case SH7750_SCSSR1_A7:
r = s->scssr1;
s->scssr1_read |= r;
return s->scssr1;
case SH7750_SCRDR1_A7:
s->scssr1 &= ~SH7750_SCSSR1_RDRF;
return s->scrdr1;
default: default:
error_access("byte read", addr); error_access("byte read", addr);
assert(0); assert(0);
@ -492,20 +197,12 @@ static uint32_t sh7750_mem_readb(void *opaque, target_phys_addr_t addr)
static uint32_t sh7750_mem_readw(void *opaque, target_phys_addr_t addr) static uint32_t sh7750_mem_readw(void *opaque, target_phys_addr_t addr)
{ {
SH7750State *s = opaque; SH7750State *s = opaque;
uint16_t r;
switch (addr) { switch (addr) {
case SH7750_RFCR_A7: case SH7750_RFCR_A7:
fprintf(stderr, fprintf(stderr,
"Read access to refresh count register, incrementing\n"); "Read access to refresh count register, incrementing\n");
return s->rfcr++; return s->rfcr++;
case SH7750_SCLSR2_A7:
/* Read and clear overflow bit */
r = s->sclsr2;
s->sclsr2 = 0;
return r;
case SH7750_SCSFR2_A7:
return s->scfsr2;
case SH7750_PDTRA_A7: case SH7750_PDTRA_A7:
return porta_lines(s); return porta_lines(s);
case SH7750_PDTRB_A7: case SH7750_PDTRB_A7:
@ -554,34 +251,12 @@ static uint32_t sh7750_mem_readl(void *opaque, target_phys_addr_t addr)
static void sh7750_mem_writeb(void *opaque, target_phys_addr_t addr, static void sh7750_mem_writeb(void *opaque, target_phys_addr_t addr,
uint32_t mem_value) uint32_t mem_value)
{ {
SH7750State *s = opaque;
switch (addr) { switch (addr) {
/* PRECHARGE ? XXXXX */ /* PRECHARGE ? XXXXX */
case SH7750_PRECHARGE0_A7: case SH7750_PRECHARGE0_A7:
case SH7750_PRECHARGE1_A7: case SH7750_PRECHARGE1_A7:
ignore_access("byte write", addr); ignore_access("byte write", addr);
return; return;
case SH7750_SCBRR2_A7:
s->scbrr2 = mem_value;
return;
case SH7750_SCSCR1_A7:
s->scscr1 = mem_value;
scscr1_changed(s);
return;
case SH7750_SCSMR1_A7:
s->scsmr1 = mem_value;
return;
case SH7750_SCBRR1_A7:
s->scbrr1 = mem_value;
return;
case SH7750_SCTDR1_A7:
s->scssr1 &= ~SH7750_SCSSR1_TEND;
s->sctdr1 = mem_value;
return;
case SH7750_SCSSR1_A7:
serial1_change_scssr1(s, mem_value);
return;
default: default:
error_access("byte write", addr); error_access("byte write", addr);
assert(0); assert(0);
@ -596,8 +271,6 @@ static void sh7750_mem_writew(void *opaque, target_phys_addr_t addr,
switch (addr) { switch (addr) {
/* SDRAM controller */ /* SDRAM controller */
case SH7750_SCBRR1_A7:
case SH7750_SCBRR2_A7:
case SH7750_BCR2_A7: case SH7750_BCR2_A7:
case SH7750_BCR3_A7: case SH7750_BCR3_A7:
case SH7750_RTCOR_A7: case SH7750_RTCOR_A7:
@ -620,19 +293,6 @@ static void sh7750_mem_writew(void *opaque, target_phys_addr_t addr,
fprintf(stderr, "Write access to refresh count register\n"); fprintf(stderr, "Write access to refresh count register\n");
s->rfcr = mem_value; s->rfcr = mem_value;
return; return;
case SH7750_SCLSR2_A7:
s->sclsr2 = mem_value;
return;
case SH7750_SCSCR2_A7:
s->scscr2 = mem_value;
scscr2_changed(s);
return;
case SH7750_SCFCR2_A7:
s->scfcr2 = mem_value;
return;
case SH7750_SCSMR2_A7:
s->scsmr2 = mem_value;
return;
case SH7750_GPIOIC_A7: case SH7750_GPIOIC_A7:
s->gpioic = mem_value; s->gpioic = mem_value;
if (mem_value != 0) { if (mem_value != 0) {
@ -734,7 +394,10 @@ SH7750State *sh7750_init(CPUSH4State * cpu)
sh7750_mem_read, sh7750_mem_read,
sh7750_mem_write, s); sh7750_mem_write, s);
cpu_register_physical_memory(0x1c000000, 0x04000000, sh7750_io_memory); cpu_register_physical_memory(0x1c000000, 0x04000000, sh7750_io_memory);
init_serial_ports(s);
sh_serial_init(0x1fe00000, 0, s->periph_freq, serial_hds[0]);
sh_serial_init(0x1fe80000, SH_SERIAL_FEAT_SCIF,
s->periph_freq, serial_hds[1]);
tmu012_init(0x1fd80000, tmu012_init(0x1fd80000,
TMU012_FEAT_TOCR | TMU012_FEAT_3CHAN | TMU012_FEAT_EXTCLK, TMU012_FEAT_TOCR | TMU012_FEAT_3CHAN | TMU012_FEAT_EXTCLK,

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@ -70,24 +70,6 @@ static regname_t regnames[] = {
REGNAME(SH7750_CHCR2_A7) REGNAME(SH7750_CHCR2_A7)
REGNAME(SH7750_CHCR3_A7) REGNAME(SH7750_CHCR3_A7)
REGNAME(SH7750_DMAOR_A7) REGNAME(SH7750_DMAOR_A7)
REGNAME(SH7750_SCRDR1_A7)
REGNAME(SH7750_SCRDR2_A7)
REGNAME(SH7750_SCTDR1_A7)
REGNAME(SH7750_SCTDR2_A7)
REGNAME(SH7750_SCSMR1_A7)
REGNAME(SH7750_SCSMR2_A7)
REGNAME(SH7750_SCSCR1_A7)
REGNAME(SH7750_SCSCR2_A7)
REGNAME(SH7750_SCSSR1_A7)
REGNAME(SH7750_SCSFR2_A7)
REGNAME(SH7750_SCSPTR1_A7)
REGNAME(SH7750_SCSPTR2_A7)
REGNAME(SH7750_SCBRR1_A7)
REGNAME(SH7750_SCBRR2_A7)
REGNAME(SH7750_SCFCR2_A7)
REGNAME(SH7750_SCFDR2_A7)
REGNAME(SH7750_SCLSR2_A7)
REGNAME(SH7750_SCSCMR1_A7)
REGNAME(SH7750_PCTRA_A7) REGNAME(SH7750_PCTRA_A7)
REGNAME(SH7750_PDTRA_A7) REGNAME(SH7750_PDTRA_A7)
REGNAME(SH7750_PCTRB_A7) REGNAME(SH7750_PCTRB_A7)

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@ -1168,231 +1168,6 @@
#define SH7750_DMAOR_NMIF 0x00000002 /* NMI Flag */ #define SH7750_DMAOR_NMIF 0x00000002 /* NMI Flag */
#define SH7750_DMAOR_DME 0x00000001 /* DMAC Master Enable */ #define SH7750_DMAOR_DME 0x00000001 /* DMAC Master Enable */
/*
* Serial Communication Interface - SCI
* Serial Communication Interface with FIFO - SCIF
*/
/* SCI Receive Data Register (byte, read-only) - SCRDR1, SCFRDR2 */
#define SH7750_SCRDR_REGOFS(n) ((n) == 1 ? 0xE00014 : 0xE80014) /* offset */
#define SH7750_SCRDR(n) SH7750_P4_REG32(SH7750_SCRDR_REGOFS(n))
#define SH7750_SCRDR1 SH7750_SCRDR(1)
#define SH7750_SCRDR2 SH7750_SCRDR(2)
#define SH7750_SCRDR_A7(n) SH7750_A7_REG32(SH7750_SCRDR_REGOFS(n))
#define SH7750_SCRDR1_A7 SH7750_SCRDR_A7(1)
#define SH7750_SCRDR2_A7 SH7750_SCRDR_A7(2)
/* SCI Transmit Data Register (byte) - SCTDR1, SCFTDR2 */
#define SH7750_SCTDR_REGOFS(n) ((n) == 1 ? 0xE0000C : 0xE8000C) /* offset */
#define SH7750_SCTDR(n) SH7750_P4_REG32(SH7750_SCTDR_REGOFS(n))
#define SH7750_SCTDR1 SH7750_SCTDR(1)
#define SH7750_SCTDR2 SH7750_SCTDR(2)
#define SH7750_SCTDR_A7(n) SH7750_A7_REG32(SH7750_SCTDR_REGOFS(n))
#define SH7750_SCTDR1_A7 SH7750_SCTDR_A7(1)
#define SH7750_SCTDR2_A7 SH7750_SCTDR_A7(2)
/* SCI Serial Mode Register - SCSMR1(byte), SCSMR2(half) */
#define SH7750_SCSMR_REGOFS(n) ((n) == 1 ? 0xE00000 : 0xE80000) /* offset */
#define SH7750_SCSMR(n) SH7750_P4_REG32(SH7750_SCSMR_REGOFS(n))
#define SH7750_SCSMR1 SH7750_SCSMR(1)
#define SH7750_SCSMR2 SH7750_SCSMR(2)
#define SH7750_SCSMR_A7(n) SH7750_A7_REG32(SH7750_SCSMR_REGOFS(n))
#define SH7750_SCSMR1_A7 SH7750_SCSMR_A7(1)
#define SH7750_SCSMR2_A7 SH7750_SCSMR_A7(2)
#define SH7750_SCSMR1_CA 0x80 /* Communication Mode (C/A\): */
#define SH7750_SCSMR1_CA_ASYNC 0x00 /* Asynchronous Mode */
#define SH7750_SCSMR1_CA_SYNC 0x80 /* Synchronous Mode */
#define SH7750_SCSMR_CHR 0x40 /* Character Length: */
#define SH7750_SCSMR_CHR_8 0x00 /* 8-bit data */
#define SH7750_SCSMR_CHR_7 0x40 /* 7-bit data */
#define SH7750_SCSMR_PE 0x20 /* Parity Enable */
#define SH7750_SCSMR_PM 0x10 /* Parity Mode: */
#define SH7750_SCSMR_PM_EVEN 0x00 /* Even Parity */
#define SH7750_SCSMR_PM_ODD 0x10 /* Odd Parity */
#define SH7750_SCSMR_STOP 0x08 /* Stop Bit Length: */
#define SH7750_SCSMR_STOP_1 0x00 /* 1 stop bit */
#define SH7750_SCSMR_STOP_2 0x08 /* 2 stop bit */
#define SH7750_SCSMR1_MP 0x04 /* Multiprocessor Mode */
#define SH7750_SCSMR_CKS 0x03 /* Clock Select */
#define SH7750_SCSMR_CKS_S 0
#define SH7750_SCSMR_CKS_DIV1 0x00 /* Periph clock */
#define SH7750_SCSMR_CKS_DIV4 0x01 /* Periph clock / 4 */
#define SH7750_SCSMR_CKS_DIV16 0x02 /* Periph clock / 16 */
#define SH7750_SCSMR_CKS_DIV64 0x03 /* Periph clock / 64 */
/* SCI Serial Control Register - SCSCR1(byte), SCSCR2(half) */
#define SH7750_SCSCR_REGOFS(n) ((n) == 1 ? 0xE00008 : 0xE80008) /* offset */
#define SH7750_SCSCR(n) SH7750_P4_REG32(SH7750_SCSCR_REGOFS(n))
#define SH7750_SCSCR1 SH7750_SCSCR(1)
#define SH7750_SCSCR2 SH7750_SCSCR(2)
#define SH7750_SCSCR_A7(n) SH7750_A7_REG32(SH7750_SCSCR_REGOFS(n))
#define SH7750_SCSCR1_A7 SH7750_SCSCR_A7(1)
#define SH7750_SCSCR2_A7 SH7750_SCSCR_A7(2)
#define SH7750_SCSCR_TIE 0x80 /* Transmit Interrupt Enable */
#define SH7750_SCSCR_RIE 0x40 /* Receive Interrupt Enable */
#define SH7750_SCSCR_TE 0x20 /* Transmit Enable */
#define SH7750_SCSCR_RE 0x10 /* Receive Enable */
#define SH7750_SCSCR1_MPIE 0x08 /* Multiprocessor Interrupt Enable */
#define SH7750_SCSCR2_REIE 0x08 /* Receive Error Interrupt Enable */
#define SH7750_SCSCR1_TEIE 0x04 /* Transmit End Interrupt Enable */
#define SH7750_SCSCR1_CKE 0x03 /* Clock Enable: */
#define SH7750_SCSCR_CKE_INTCLK 0x00 /* Use Internal Clock */
#define SH7750_SCSCR_CKE_EXTCLK 0x02 /* Use External Clock from SCK */
#define SH7750_SCSCR1_CKE_ASYNC_SCK_CLKOUT 0x01 /* Use SCK as a clock output
in asynchronous mode */
/* SCI Serial Status Register - SCSSR1(byte), SCSFR2(half) */
#define SH7750_SCSSR_REGOFS(n) ((n) == 1 ? 0xE00010 : 0xE80010) /* offset */
#define SH7750_SCSSR(n) SH7750_P4_REG32(SH7750_SCSSR_REGOFS(n))
#define SH7750_SCSSR1 SH7750_SCSSR(1)
#define SH7750_SCSFR2 SH7750_SCSSR(2)
#define SH7750_SCSSR_A7(n) SH7750_A7_REG32(SH7750_SCSSR_REGOFS(n))
#define SH7750_SCSSR1_A7 SH7750_SCSSR_A7(1)
#define SH7750_SCSFR2_A7 SH7750_SCSSR_A7(2)
#define SH7750_SCSSR1_TDRE 0x80 /* Transmit Data Register Empty */
#define SH7750_SCSSR1_RDRF 0x40 /* Receive Data Register Full */
#define SH7750_SCSSR1_ORER 0x20 /* Overrun Error */
#define SH7750_SCSSR1_FER 0x10 /* Framing Error */
#define SH7750_SCSSR1_PER 0x08 /* Parity Error */
#define SH7750_SCSSR1_TEND 0x04 /* Transmit End */
#define SH7750_SCSSR1_MPB 0x02 /* Multiprocessor Bit */
#define SH7750_SCSSR1_MPBT 0x01 /* Multiprocessor Bit Transfer */
#define SH7750_SCFSR2_PERN 0xF000 /* Number of Parity Errors */
#define SH7750_SCFSR2_PERN_S 12
#define SH7750_SCFSR2_FERN 0x0F00 /* Number of Framing Errors */
#define SH7750_SCFSR2_FERN_S 8
#define SH7750_SCFSR2_ER 0x0080 /* Receive Error */
#define SH7750_SCFSR2_TEND 0x0040 /* Transmit End */
#define SH7750_SCFSR2_TDFE 0x0020 /* Transmit FIFO Data Empty */
#define SH7750_SCFSR2_BRK 0x0010 /* Break Detect */
#define SH7750_SCFSR2_FER 0x0008 /* Framing Error */
#define SH7750_SCFSR2_PER 0x0004 /* Parity Error */
#define SH7750_SCFSR2_RDF 0x0002 /* Receive FIFO Data Full */
#define SH7750_SCFSR2_DR 0x0001 /* Receive Data Ready */
/* SCI Serial Port Register - SCSPTR1(byte) */
#define SH7750_SCSPTR1_REGOFS 0xE0001C /* offset */
#define SH7750_SCSPTR1 SH7750_P4_REG32(SH7750_SCSPTR1_REGOFS)
#define SH7750_SCSPTR1_A7 SH7750_A7_REG32(SH7750_SCSPTR1_REGOFS)
#define SH7750_SCSPTR1_EIO 0x80 /* Error Interrupt Only */
#define SH7750_SCSPTR1_SPB1IO 0x08 /* 1: Output SPB1DT bit to SCK pin */
#define SH7750_SCSPTR1_SPB1DT 0x04 /* Serial Port Clock Port Data */
#define SH7750_SCSPTR1_SPB0IO 0x02 /* 1: Output SPB0DT bit to TxD pin */
#define SH7750_SCSPTR1_SPB0DT 0x01 /* Serial Port Break Data */
/* SCIF Serial Port Register - SCSPTR2(half) */
#define SH7750_SCSPTR2_REGOFS 0xE80020 /* offset */
#define SH7750_SCSPTR2 SH7750_P4_REG32(SH7750_SCSPTR2_REGOFS)
#define SH7750_SCSPTR2_A7 SH7750_A7_REG32(SH7750_SCSPTR2_REGOFS)
#define SH7750_SCSPTR2_RTSIO 0x80 /* 1: Output RTSDT bit to RTS2\ pin */
#define SH7750_SCSPTR2_RTSDT 0x40 /* RTS Port Data */
#define SH7750_SCSPTR2_CTSIO 0x20 /* 1: Output CTSDT bit to CTS2\ pin */
#define SH7750_SCSPTR2_CTSDT 0x10 /* CTS Port Data */
#define SH7750_SCSPTR2_SPB2IO 0x02 /* 1: Output SPBDT bit to TxD2 pin */
#define SH7750_SCSPTR2_SPB2DT 0x01 /* Serial Port Break Data */
/* SCI Bit Rate Register - SCBRR1(byte), SCBRR2(byte) */
#define SH7750_SCBRR_REGOFS(n) ((n) == 1 ? 0xE00004 : 0xE80004) /* offset */
#define SH7750_SCBRR(n) SH7750_P4_REG32(SH7750_SCBRR_REGOFS(n))
#define SH7750_SCBRR1 SH7750_SCBRR_P4(1)
#define SH7750_SCBRR2 SH7750_SCBRR_P4(2)
#define SH7750_SCBRR_A7(n) SH7750_A7_REG32(SH7750_SCBRR_REGOFS(n))
#define SH7750_SCBRR1_A7 SH7750_SCBRR_A7(1)
#define SH7750_SCBRR2_A7 SH7750_SCBRR_A7(2)
/* SCIF FIFO Control Register - SCFCR2(half) */
#define SH7750_SCFCR2_REGOFS 0xE80018 /* offset */
#define SH7750_SCFCR2 SH7750_P4_REG32(SH7750_SCFCR2_REGOFS)
#define SH7750_SCFCR2_A7 SH7750_A7_REG32(SH7750_SCFCR2_REGOFS)
#define SH7750_SCFCR2_RSTRG 0x700 /* RTS2\ Output Active Trigger; RTS2\
signal goes to high level when the
number of received data stored in
FIFO exceeds the trigger number */
#define SH7750_SCFCR2_RSTRG_15 0x000 /* 15 bytes */
#define SH7750_SCFCR2_RSTRG_1 0x000 /* 1 byte */
#define SH7750_SCFCR2_RSTRG_4 0x000 /* 4 bytes */
#define SH7750_SCFCR2_RSTRG_6 0x000 /* 6 bytes */
#define SH7750_SCFCR2_RSTRG_8 0x000 /* 8 bytes */
#define SH7750_SCFCR2_RSTRG_10 0x000 /* 10 bytes */
#define SH7750_SCFCR2_RSTRG_14 0x000 /* 14 bytes */
#define SH7750_SCFCR2_RTRG 0x0C0 /* Receive FIFO Data Number Trigger,
Receive Data Full (RDF) Flag sets
when number of receive data bytes is
equal or greater than the trigger
number */
#define SH7750_SCFCR2_RTRG_1 0x000 /* 1 byte */
#define SH7750_SCFCR2_RTRG_4 0x040 /* 4 bytes */
#define SH7750_SCFCR2_RTRG_8 0x080 /* 8 bytes */
#define SH7750_SCFCR2_RTRG_14 0x0C0 /* 14 bytes */
#define SH7750_SCFCR2_TTRG 0x030 /* Transmit FIFO Data Number Trigger,
Transmit FIFO Data Register Empty (TDFE)
flag sets when the number of remaining
transmit data bytes is equal or less
than the trigger number */
#define SH7750_SCFCR2_TTRG_8 0x000 /* 8 bytes */
#define SH7750_SCFCR2_TTRG_4 0x010 /* 4 bytes */
#define SH7750_SCFCR2_TTRG_2 0x020 /* 2 bytes */
#define SH7750_SCFCR2_TTRG_1 0x030 /* 1 byte */
#define SH7750_SCFCR2_MCE 0x008 /* Modem Control Enable */
#define SH7750_SCFCR2_TFRST 0x004 /* Transmit FIFO Data Register Reset,
invalidates the transmit data in the
transmit FIFO */
#define SH7750_SCFCR2_RFRST 0x002 /* Receive FIFO Data Register Reset,
invalidates the receive data in the
receive FIFO data register and resets
it to the empty state */
#define SH7750_SCFCR2_LOOP 0x001 /* Loopback Test */
/* SCIF FIFO Data Count Register - SCFDR2(half, read-only) */
#define SH7750_SCFDR2_REGOFS 0xE8001C /* offset */
#define SH7750_SCFDR2 SH7750_P4_REG32(SH7750_SCFDR2_REGOFS)
#define SH7750_SCFDR2_A7 SH7750_A7_REG32(SH7750_SCFDR2_REGOFS)
#define SH7750_SCFDR2_T 0x1F00 /* Number of untransmitted data bytes
in transmit FIFO */
#define SH7750_SCFDR2_T_S 8
#define SH7750_SCFDR2_R 0x001F /* Number of received data bytes in
receive FIFO */
#define SH7750_SCFDR2_R_S 0
/* SCIF Line Status Register - SCLSR2(half, read-only) */
#define SH7750_SCLSR2_REGOFS 0xE80024 /* offset */
#define SH7750_SCLSR2 SH7750_P4_REG32(SH7750_SCLSR2_REGOFS)
#define SH7750_SCLSR2_A7 SH7750_A7_REG32(SH7750_SCLSR2_REGOFS)
#define SH7750_SCLSR2_ORER 0x0001 /* Overrun Error */
/*
* SCI-based Smart Card Interface
*/
/* Smart Card Mode Register - SCSCMR1(byte) */
#define SH7750_SCSCMR1_REGOFS 0xE00018 /* offset */
#define SH7750_SCSCMR1 SH7750_P4_REG32(SH7750_SCSCMR1_REGOFS)
#define SH7750_SCSCMR1_A7 SH7750_A7_REG32(SH7750_SCSCMR1_REGOFS)
#define SH7750_SCSCMR1_SDIR 0x08 /* Smart Card Data Transfer Direction: */
#define SH7750_SCSCMR1_SDIR_LSBF 0x00 /* LSB-first */
#define SH7750_SCSCMR1_SDIR_MSBF 0x08 /* MSB-first */
#define SH7750_SCSCMR1_SINV 0x04 /* Smart Card Data Inversion */
#define SH7750_SCSCMR1_SMIF 0x01 /* Smart Card Interface Mode Select */
/* Smart-card specific bits in other registers */
/* SCSMR1: */
#define SH7750_SCSMR1_GSM 0x80 /* GSM mode select */
/* SCSSR1: */
#define SH7750_SCSSR1_ERS 0x10 /* Error Signal Status */
/* /*
* I/O Ports * I/O Ports
*/ */

315
hw/sh_serial.c Normal file
View File

@ -0,0 +1,315 @@
/*
* QEMU SCI/SCIF serial port emulation
*
* Copyright (c) 2007 Magnus Damm
*
* Based on serial.c - QEMU 16450 UART emulation
* Copyright (c) 2003-2004 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "vl.h"
#include <assert.h>
//#define DEBUG_SERIAL
#define SH_SERIAL_FLAG_TEND (1 << 0)
#define SH_SERIAL_FLAG_TDE (1 << 1)
#define SH_SERIAL_FLAG_RDF (1 << 2)
#define SH_SERIAL_FLAG_BRK (1 << 3)
#define SH_SERIAL_FLAG_DR (1 << 4)
typedef struct {
uint8_t smr;
uint8_t brr;
uint8_t scr;
uint8_t dr; /* ftdr / tdr */
uint8_t sr; /* fsr / ssr */
uint16_t fcr;
uint8_t sptr;
uint8_t rx_fifo[16]; /* frdr / rdr */
uint8_t rx_cnt;
target_phys_addr_t base;
int freq;
int feat;
int flags;
CharDriverState *chr;
} sh_serial_state;
static void sh_serial_ioport_write(void *opaque, uint32_t offs, uint32_t val)
{
sh_serial_state *s = opaque;
unsigned char ch;
#ifdef DEBUG_SERIAL
printf("sh_serial: write base=0x%08lx offs=0x%02x val=0x%02x\n",
(unsigned long) s->base, offs, val);
#endif
switch(offs) {
case 0x00: /* SMR */
s->smr = val & ((s->feat & SH_SERIAL_FEAT_SCIF) ? 0x7b : 0xff);
return;
case 0x04: /* BRR */
s->brr = val;
return;
case 0x08: /* SCR */
s->scr = val & ((s->feat & SH_SERIAL_FEAT_SCIF) ? 0xfb : 0xff);
if (!(val & (1 << 5)))
s->flags |= SH_SERIAL_FLAG_TEND;
return;
case 0x0c: /* FTDR / TDR */
if (s->chr) {
ch = val;
qemu_chr_write(s->chr, &ch, 1);
}
s->dr = val;
s->flags &= ~SH_SERIAL_FLAG_TDE;
return;
#if 0
case 0x14: /* FRDR / RDR */
ret = 0;
break;
#endif
}
if (s->feat & SH_SERIAL_FEAT_SCIF) {
switch(offs) {
case 0x10: /* FSR */
if (!(val & (1 << 6)))
s->flags &= ~SH_SERIAL_FLAG_TEND;
if (!(val & (1 << 5)))
s->flags &= ~SH_SERIAL_FLAG_TDE;
if (!(val & (1 << 4)))
s->flags &= ~SH_SERIAL_FLAG_BRK;
if (!(val & (1 << 1)))
s->flags &= ~SH_SERIAL_FLAG_RDF;
if (!(val & (1 << 0)))
s->flags &= ~SH_SERIAL_FLAG_DR;
return;
case 0x18: /* FCR */
s->fcr = val;
return;
case 0x20: /* SPTR */
s->sptr = val;
return;
case 0x24: /* LSR */
return;
}
}
else {
#if 0
switch(offs) {
case 0x0c:
ret = s->dr;
break;
case 0x10:
ret = 0;
break;
case 0x1c:
ret = s->sptr;
break;
}
#endif
}
fprintf(stderr, "sh_serial: unsupported write to 0x%02x\n", offs);
assert(0);
}
static uint32_t sh_serial_ioport_read(void *opaque, uint32_t offs)
{
sh_serial_state *s = opaque;
uint32_t ret = ~0;
#if 0
switch(offs) {
case 0x00:
ret = s->smr;
break;
case 0x04:
ret = s->brr;
break;
case 0x08:
ret = s->scr;
break;
case 0x14:
ret = 0;
break;
}
#endif
if (s->feat & SH_SERIAL_FEAT_SCIF) {
switch(offs) {
case 0x10: /* FSR */
ret = 0;
if (s->flags & SH_SERIAL_FLAG_TEND)
ret |= (1 << 6);
if (s->flags & SH_SERIAL_FLAG_TDE)
ret |= (1 << 5);
if (s->flags & SH_SERIAL_FLAG_BRK)
ret |= (1 << 4);
if (s->flags & SH_SERIAL_FLAG_RDF)
ret |= (1 << 1);
if (s->flags & SH_SERIAL_FLAG_DR)
ret |= (1 << 0);
if (s->scr & (1 << 5))
s->flags |= SH_SERIAL_FLAG_TDE | SH_SERIAL_FLAG_TEND;
break;
#if 0
case 0x18:
ret = s->fcr;
break;
#endif
case 0x1c:
ret = s->rx_cnt;
break;
case 0x20:
ret = s->sptr;
break;
case 0x24:
ret = 0;
break;
}
}
else {
#if 0
switch(offs) {
case 0x0c:
ret = s->dr;
break;
case 0x10:
ret = 0;
break;
case 0x1c:
ret = s->sptr;
break;
}
#endif
}
#ifdef DEBUG_SERIAL
printf("sh_serial: read base=0x%08lx offs=0x%02x val=0x%x\n",
(unsigned long) s->base, offs, ret);
#endif
if (ret & ~((1 << 16) - 1)) {
fprintf(stderr, "sh_serial: unsupported read from 0x%02x\n", offs);
assert(0);
}
return ret;
}
static int sh_serial_can_receive(sh_serial_state *s)
{
return 0;
}
static void sh_serial_receive_byte(sh_serial_state *s, int ch)
{
}
static void sh_serial_receive_break(sh_serial_state *s)
{
}
static int sh_serial_can_receive1(void *opaque)
{
sh_serial_state *s = opaque;
return sh_serial_can_receive(s);
}
static void sh_serial_receive1(void *opaque, const uint8_t *buf, int size)
{
sh_serial_state *s = opaque;
sh_serial_receive_byte(s, buf[0]);
}
static void sh_serial_event(void *opaque, int event)
{
sh_serial_state *s = opaque;
if (event == CHR_EVENT_BREAK)
sh_serial_receive_break(s);
}
uint32_t sh_serial_read (void *opaque, target_phys_addr_t addr)
{
sh_serial_state *s = opaque;
return sh_serial_ioport_read(s, addr - s->base);
}
void sh_serial_write (void *opaque,
target_phys_addr_t addr, uint32_t value)
{
sh_serial_state *s = opaque;
sh_serial_ioport_write(s, addr - s->base, value);
}
static CPUReadMemoryFunc *sh_serial_readfn[] = {
&sh_serial_read,
&sh_serial_read,
&sh_serial_read,
};
static CPUWriteMemoryFunc *sh_serial_writefn[] = {
&sh_serial_write,
&sh_serial_write,
&sh_serial_write,
};
void sh_serial_init (target_phys_addr_t base, int feat,
uint32_t freq, CharDriverState *chr)
{
sh_serial_state *s;
int s_io_memory;
s = qemu_mallocz(sizeof(sh_serial_state));
if (!s)
return;
s->base = base;
s->feat = feat;
s->flags = SH_SERIAL_FLAG_TEND | SH_SERIAL_FLAG_TDE;
s->smr = 0;
s->brr = 0xff;
s->scr = 0;
s->sptr = 0;
if (feat & SH_SERIAL_FEAT_SCIF) {
s->fcr = 0;
}
else {
s->dr = 0xff;
}
s->rx_cnt = 0;
s_io_memory = cpu_register_io_memory(0, sh_serial_readfn,
sh_serial_writefn, s);
cpu_register_physical_memory(base, 0x28, s_io_memory);
s->chr = chr;
if (chr)
qemu_chr_add_handlers(chr, sh_serial_can_receive1, sh_serial_receive1,
sh_serial_event, s);
}

5
vl.h
View File

@ -1523,6 +1523,11 @@ int sh7750_register_io_device(struct SH7750State *s,
#define TMU012_FEAT_EXTCLK (1 << 2) #define TMU012_FEAT_EXTCLK (1 << 2)
void tmu012_init(uint32_t base, int feat, uint32_t freq); void tmu012_init(uint32_t base, int feat, uint32_t freq);
/* sh_serial.c */
#define SH_SERIAL_FEAT_SCIF (1 << 0)
void sh_serial_init (target_phys_addr_t base, int feat,
uint32_t freq, CharDriverState *chr);
/* tc58128.c */ /* tc58128.c */
int tc58128_init(struct SH7750State *s, char *zone1, char *zone2); int tc58128_init(struct SH7750State *s, char *zone1, char *zone2);