rolf liu wrote:
Pete,
To try if 8250.c can work under db1550/linux 2.6.12, I turn off the
au1x00_uart.c config and just compiled in the 8250 support. When I
boot the kernel, nothing comes up through the console, which should be
provided by 8250 support, by 8250_early.c?
You can't just enable the serial.c (8250). The UARTs for the Au1x00 are
memory mapped, but are accessed thru the functions au_readx and
au_writex. If you take a look at the au1x00_uart.c you can see that the
functions for serial register access contains access to the au1x00
registers thru au_readl and au_writel. The serial.c does some more
things, that does not belong to 8250 (and successors), but to the way
how the chips are attached to the bus. I see the need to write a more
modular structure:
One 8250.c that does only the serial chip stuff and one module per
chip-access-method (serial_io.c, serial_pci.c, serial_mm.c,
serial_au1x00.c, ...). These modules must know how to access the
registers, but not what they mean. 8250.c does not know how to access
the registers, but what to do with it.
Thats teamwork.
That could be adopted to more chips that have a registers to access. I
think about the i8255 3-port io chip or the i8254-CTC and there are many
more.
There must be a callback for interrupts like it exists for the parallel
port stuff.
Could look like that:
struct register_access_s
{
void (*delete_resource) (struct register_access_s *);
...
int (*writel) (struct register_access_s *bus, long reg, u32 value);
int (*writew) (struct register_access_s *bus, long reg, u16 value);
int (*writeb) (struct register_access_s *bus, long reg, u8 value);
...
int (*readl) (struct register_access_s *bus, long reg, u32 *value);
int (*readw) (struct register_access_s *bus, long reg, u16 *value);
int (*readb) (struct register_access_s *bus, long reg, u8 *value);
...
void *private;
};
struct register_access_s *create_au1x00_register_access (u32
au1x00_register_address, size_t size, u32 irq);
struct register_access_s *create_io_register_access (u16 io_address,
size_t size, u32 irq);
struct register_access_s *create_mm_register_access (void *vaddress,
size_t size, u32 irq);
struct register_access_s *au1x00_uart0_regs =
create_au1x00_register_access (UART0_ADDR, 8, AU1000_UART0_INT);
struct register_access_s *uart0_regs = create_io_register_access (0x3E0,
8, 4);
register_8250 (au1x00_uart0_regs, ...);
register_8250 (uart0_regs, ...);
au1x00_uart0_regs->delete_resource (au1x00_uart0_regs);
...
uart3_regs->delete_resource (uart3_regs);
May be a chip can have more than one interrupts and does not have even one.
Michael
