2 * The serial port interface routines implement a simple polled i/o
3 * interface to a standard serial port. Due to the space restrictions
4 * for the boot blocks, no BIOS support is used (since BIOS requires
5 * expensive real/protected mode switches), instead the rudimentary
6 * BIOS support is duplicated here.
8 * The base address and speed for the i/o port are passed from the
9 * Makefile in the COMCONSOLE and CONSPEED preprocessor macros. The
10 * line control parameters are currently hard-coded to 8 bits, no
11 * parity, 1 stop bit (8N1). This can be changed in init_serial().
16 #include <gpxe/init.h>
19 #include "config/serial.h"
21 /* Set default values if none specified */
24 #define COMCONSOLE 0x3f8
44 #define UART_BASE ( COMCONSOLE )
47 #define UART_BAUD ( COMSPEED )
49 #if ((115200%UART_BAUD) != 0)
50 #error Bad ttys0 baud rate
53 #define COMBRD (115200/UART_BAUD)
55 /* Line Control Settings */
56 #define UART_LCS ( ( ( (COMDATA) - 5 ) << 0 ) | \
57 ( ( (COMPARITY) ) << 3 ) | \
58 ( ( (COMSTOP) - 1 ) << 2 ) )
75 #define UART_LSR_TEMPT 0x40 /* Transmitter empty */
76 #define UART_LSR_THRE 0x20 /* Transmit-hold-register empty */
77 #define UART_LSR_BI 0x10 /* Break interrupt indicator */
78 #define UART_LSR_FE 0x08 /* Frame error indicator */
79 #define UART_LSR_PE 0x04 /* Parity error indicator */
80 #define UART_LSR_OE 0x02 /* Overrun error indicator */
81 #define UART_LSR_DR 0x01 /* Receiver data ready */
87 #define uart_readb(addr) readb((addr))
88 #define uart_writeb(val,addr) writeb((val),(addr))
90 #define uart_readb(addr) inb((addr))
91 #define uart_writeb(val,addr) outb((val),(addr))
94 struct console_driver serial_console __console_driver
;
97 * void serial_putc(int ch);
98 * Write character `ch' to port UART_BASE.
100 static void serial_putc ( int ch
) {
103 i
= 1000; /* timeout */
105 status
= uart_readb(UART_BASE
+ UART_LSR
);
106 if (status
& UART_LSR_THRE
) {
107 /* TX buffer emtpy */
108 uart_writeb(ch
, UART_BASE
+ UART_TBR
);
116 * int serial_getc(void);
117 * Read a character from port UART_BASE.
119 static int serial_getc ( void ) {
123 status
= uart_readb(UART_BASE
+ UART_LSR
);
124 } while((status
& 1) == 0);
125 ch
= uart_readb(UART_BASE
+ UART_RBR
); /* fetch (first) character */
126 ch
&= 0x7f; /* remove any parity bits we get */
127 if (ch
== 0x7f) { /* Make DEL... look like BS */
134 * int serial_ischar(void);
135 * If there is a character in the input buffer of port UART_BASE,
136 * return nonzero; otherwise return 0.
138 static int serial_ischar ( void ) {
140 status
= uart_readb(UART_BASE
+ UART_LSR
); /* line status reg; */
141 return status
& 1; /* rx char available */
145 * int serial_init(void);
146 * Initialize port UART_BASE to speed COMSPEED, line settings 8N1.
148 static void serial_init ( void ) {
152 DBG ( "Serial port %#x initialising\n", UART_BASE
);
159 lcs
= uart_readb(UART_BASE
+ UART_LCR
) & 0x7f;
160 uart_writeb(0x80 | lcs
, UART_BASE
+ UART_LCR
);
161 divisor
= (uart_readb(UART_BASE
+ UART_DLM
) << 8) | uart_readb(UART_BASE
+ UART_DLL
);
162 uart_writeb(lcs
, UART_BASE
+ UART_LCR
);
165 /* Set Baud Rate Divisor to COMSPEED, and test to see if the
166 * serial port appears to be present.
168 uart_writeb(0x80 | lcs
, UART_BASE
+ UART_LCR
);
169 uart_writeb(0xaa, UART_BASE
+ UART_DLL
);
170 if (uart_readb(UART_BASE
+ UART_DLL
) != 0xaa) {
171 DBG ( "Serial port %#x UART_DLL failed\n", UART_BASE
);
174 uart_writeb(0x55, UART_BASE
+ UART_DLL
);
175 if (uart_readb(UART_BASE
+ UART_DLL
) != 0x55) {
176 DBG ( "Serial port %#x UART_DLL failed\n", UART_BASE
);
179 uart_writeb(divisor
& 0xff, UART_BASE
+ UART_DLL
);
180 if (uart_readb(UART_BASE
+ UART_DLL
) != (divisor
& 0xff)) {
181 DBG ( "Serial port %#x UART_DLL failed\n", UART_BASE
);
184 uart_writeb(0xaa, UART_BASE
+ UART_DLM
);
185 if (uart_readb(UART_BASE
+ UART_DLM
) != 0xaa) {
186 DBG ( "Serial port %#x UART_DLM failed\n", UART_BASE
);
189 uart_writeb(0x55, UART_BASE
+ UART_DLM
);
190 if (uart_readb(UART_BASE
+ UART_DLM
) != 0x55) {
191 DBG ( "Serial port %#x UART_DLM failed\n", UART_BASE
);
194 uart_writeb((divisor
>> 8) & 0xff, UART_BASE
+ UART_DLM
);
195 if (uart_readb(UART_BASE
+ UART_DLM
) != ((divisor
>> 8) & 0xff)) {
196 DBG ( "Serial port %#x UART_DLM failed\n", UART_BASE
);
199 uart_writeb(lcs
, UART_BASE
+ UART_LCR
);
201 /* disable interrupts */
202 uart_writeb(0x0, UART_BASE
+ UART_IER
);
205 uart_writeb(0x00, UART_BASE
+ UART_FCR
);
207 /* Set clear to send, so flow control works... */
208 uart_writeb((1<<1), UART_BASE
+ UART_MCR
);
211 /* Flush the input buffer. */
214 * throw away (unconditionally the first time)
216 (void) uart_readb(UART_BASE
+ UART_RBR
);
217 /* line status reg */
218 status
= uart_readb(UART_BASE
+ UART_LSR
);
219 } while(status
& UART_LSR_DR
);
220 serial_console
.disabled
= 0;
226 * void serial_fini(void);
227 * Cleanup our use of the serial port, in particular flush the
228 * output buffer so we don't accidentially lose characters.
230 static void serial_fini ( void ) {
232 if (serial_console
.disabled
) {
233 /* no serial interface */
236 /* Flush the output buffer to avoid dropping characters,
237 * if we are reinitializing the serial port.
239 i
= 10000; /* timeout */
241 status
= uart_readb(UART_BASE
+ UART_LSR
);
242 } while((--i
> 0) && !(status
& UART_LSR_TEMPT
));
243 /* Don't mark it as disabled; it's still usable */
246 struct console_driver serial_console __console_driver
= {
247 .putchar
= serial_putc
,
248 .getchar
= serial_getc
,
249 .iskey
= serial_ischar
,
253 /** Serial console startup function */
254 struct startup_fn serial_startup_fn
__startup_fn ( STARTUP_NORMAL
) = {
255 .startup
= serial_init
,
256 .shutdown
= serial_fini
,
260 * Serial console initialisation function
262 * Initialise console early on so that it is available to capture
263 * early debug messages. It is safe to call serial_init() multiple
266 struct init_fn serial_init_fn
__init_fn ( INIT_EARLY
) = {
267 .initialise
= serial_init
,