console: Add support for the 16550 UART

And rebuild various binaries

Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org>
pull/213/head
Benjamin Herrenschmidt 5 years ago
parent cc10f6b289
commit d654667304

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@ -515,79 +515,117 @@ e8010010ebc1fff0
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@ -79,6 +79,10 @@
#define UART_REG_TX 0x00 #define UART_REG_TX 0x00
#define UART_REG_DLL 0x00 #define UART_REG_DLL 0x00
#define UART_REG_IER 0x04 #define UART_REG_IER 0x04
#define UART_REG_IER_RDI 0x01
#define UART_REG_IER_THRI 0x02
#define UART_REG_IER_RLSI 0x04
#define UART_REG_IER_MSI 0x08
#define UART_REG_DLM 0x04 #define UART_REG_DLM 0x04
#define UART_REG_IIR 0x08 #define UART_REG_IIR 0x08
#define UART_REG_FCR 0x08 #define UART_REG_FCR 0x08

@ -5,22 +5,29 @@
#include "microwatt_soc.h" #include "microwatt_soc.h"
#include "io.h" #include "io.h"


#define UART_FREQ 115200 #define UART_BAUDS 115200


/* /*
* Core UART functions to implement for a port * Core UART functions to implement for a port
*/ */


static uint64_t potato_uart_base; bool uart_is_std;

static uint64_t uart_base;

static unsigned long uart_divisor(unsigned long uart_freq, unsigned long bauds)
{
return uart_freq / (bauds * 16);
}


static uint64_t potato_uart_reg_read(int offset) static uint64_t potato_uart_reg_read(int offset)
{ {
return readq(potato_uart_base + offset); return readq(uart_base + offset);
} }


static void potato_uart_reg_write(int offset, uint64_t val) static void potato_uart_reg_write(int offset, uint64_t val)
{ {
writeq(val, potato_uart_base + offset); writeq(val, uart_base + offset);
} }


static int potato_uart_rx_empty(void) static int potato_uart_rx_empty(void)
@ -65,22 +72,13 @@ static void potato_uart_write(char c)
potato_uart_reg_write(POTATO_CONSOLE_TX, val); potato_uart_reg_write(POTATO_CONSOLE_TX, val);
} }


static unsigned long potato_uart_divisor(unsigned long proc_freq, unsigned long uart_freq) static void potato_uart_init(uint64_t uart_freq)
{
return proc_freq / (uart_freq * 16) - 1;
}

void potato_uart_init(void)
{ {
uint64_t proc_freq; unsigned long div = uart_divisor(uart_freq, UART_BAUDS) - 1;

potato_uart_reg_write(POTATO_CONSOLE_CLOCK_DIV, div);
potato_uart_base = UART_BASE;
proc_freq = readq(SYSCON_BASE + SYS_REG_CLKINFO) & SYS_REG_CLKINFO_FREQ_MASK;

potato_uart_reg_write(POTATO_CONSOLE_CLOCK_DIV, potato_uart_divisor(proc_freq, UART_FREQ));
} }


void potato_uart_set_irq_en(bool rx_irq, bool tx_irq) static void potato_uart_set_irq_en(bool rx_irq, bool tx_irq)
{ {
uint64_t en = 0; uint64_t en = 0;


@ -91,25 +89,76 @@ void potato_uart_set_irq_en(bool rx_irq, bool tx_irq)
potato_uart_reg_write(POTATO_CONSOLE_IRQ_EN, en); potato_uart_reg_write(POTATO_CONSOLE_IRQ_EN, en);
} }


void potato_uart_irq_dis(void) static bool std_uart_rx_empty(void)
{ {
potato_uart_reg_write(POTATO_CONSOLE_IRQ_EN, 0x00); return !(readb(uart_base + UART_REG_LSR) & UART_REG_LSR_DR);
} }


int getchar(void) static uint8_t std_uart_read(void)
{ {
while (potato_uart_rx_empty()) return readb(uart_base + UART_REG_RX);
/* Do nothing */ ; }


return potato_uart_read(); static bool std_uart_tx_full(void)
{
return !(readb(uart_base + UART_REG_LSR) & UART_REG_LSR_THRE);
} }


int putchar(int c) static void std_uart_write(uint8_t c)
{
writeb(c, uart_base + UART_REG_TX);
}

static void std_uart_set_irq_en(bool rx_irq, bool tx_irq)
{
uint8_t ier = 0;

if (tx_irq)
ier |= UART_REG_IER_THRI;
if (rx_irq)
ier |= UART_REG_IER_RDI;
writeb(ier, uart_base + UART_REG_IER);
}

static void std_uart_init(uint64_t uart_freq)
{
unsigned long div = uart_divisor(uart_freq, UART_BAUDS);
writeb(UART_REG_LCR_DLAB, uart_base + UART_REG_LCR);
writeb(div & 0xff, uart_base + UART_REG_DLL);
writeb(div >> 8, uart_base + UART_REG_DLM);
writeb(UART_REG_LCR_8BIT, uart_base + UART_REG_LCR);
writeb(UART_REG_MCR_DTR |
UART_REG_MCR_RTS, uart_base + UART_REG_MCR);
writeb(UART_REG_FCR_EN_FIFO |
UART_REG_FCR_CLR_RCVR |
UART_REG_FCR_CLR_XMIT, uart_base + UART_REG_FCR);
}

int getchar(void)
{ {
while (potato_uart_tx_full()) if (uart_is_std) {
/* Do Nothing */; while (std_uart_rx_empty())
/* Do nothing */ ;
return std_uart_read();
} else {
while (potato_uart_rx_empty())
/* Do nothing */ ;
return potato_uart_read();
}
}


potato_uart_write(c); int putchar(int c)
{
if (uart_is_std) {
while(std_uart_tx_full())
/* Do Nothing */;
std_uart_write(c);
} else {
while (potato_uart_tx_full())
/* Do Nothing */;
potato_uart_write(c);
}
return c; return c;
} }


@ -140,10 +189,35 @@ size_t strlen(const char *s)


void console_init(void) void console_init(void)
{ {
potato_uart_init(); uint64_t sys_info;
uint64_t proc_freq;
uint64_t uart_info = 0;
uint64_t uart_freq = 0;

proc_freq = readq(SYSCON_BASE + SYS_REG_CLKINFO) & SYS_REG_CLKINFO_FREQ_MASK;
sys_info = readq(SYSCON_BASE + SYS_REG_INFO);

if (sys_info & SYS_REG_INFO_HAS_LARGE_SYSCON) {
uart_info = readq(SYSCON_BASE + SYS_REG_UART0_INFO);
uart_freq = uart_info & 0xffffffff;
}
if (uart_freq == 0)
uart_freq = proc_freq;

uart_base = UART_BASE;
if (uart_info & SYS_REG_UART_IS_16550) {
uart_is_std = true;
std_uart_init(proc_freq);
} else {
uart_is_std = false;
potato_uart_init(proc_freq);
}
} }


void console_set_irq_en(bool rx_irq, bool tx_irq) void console_set_irq_en(bool rx_irq, bool tx_irq)
{ {
potato_uart_set_irq_en(rx_irq, tx_irq); if (uart_is_std)
std_uart_set_irq_en(rx_irq, tx_irq);
else
potato_uart_set_irq_en(rx_irq, tx_irq);
} }

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