@JoachimPileborg what value does it suit in my situation as it is a memory region ?1000 or 1024 ?

@Dino len: If suppose uart4 controller has 10 32bit registers then len would be 10 * 4bytes = 40 bytes. Name, would be usually device or module name, which will be used for "proc" file system purpose.

@GauthamKantharaju.Thanks Gautam.But how will I get to know the number of registers? The register manual of the UART(omap 4460) has many number of registers.should I Count all of these?/will it be mentioned elsewhere? Also some registers are having the same address.what does this count for?

@Dino, Consider all the registers to be safe and will be mapped also and can be used at later point of time if needed. UART related registers will be mentioned in OMAP technical reference manual TRM. Yes for ex: UART "THR" and "RHR" and some other registers will be having the same address. Based on for ex: EFR register configuration, supported registers are mapped and used.

@GauthamKantharaju Thank you

@GauthamKantharaju.Can you please answer this question link.

@GauthamKantharaju.When I use request_mem_region I am getting an error "undeclared (first use in this function).As per the LDD book the interface for memory allocation is defined in linux/ioport.h.Hence i am just calling like 'req_mem = (*request_mem_region)(UART_BASE,UART_SIZE,UART_DRIV)' and this is the same with ioremap function.Will the function name change since the function is defined for kernel 2.6 and below But I am using 3.4. Please help .Iam stuck

@GauthamKantharaju :: Can you please answer this Question

@Dino, request_mem_region is present in linux 3.4 kernel lxr.free-electrons.com/ident?v=3.4;i=request_mem_region. Before requesting, check if the requested region is already requested i.e. by checking the output of "cat /proc/iomem", in such case you can directly go ahead and use "ioremap" and configure the UART related registers. Share your code snippet if possible.

@GauthamKantharaju: Yeah the requested region is already present in /proc/iomem.So I have skipped request_mem_region and using only ioremap.After the pad configuration(UART4), I am doing a software reset which fails as the loop goes to infinite loop.device name is "tty0uart".

@Dino, maybe polling logic w.r.t reset bit is not correct and thus it's going to infinite loop. Check and give me link to your code snippet or add it here.

@GauthamKantharaju:I still have doubt whether data has written exactly to a mentioned address. unsigned long pad_value = 0xFFF8FFF8; /* Pad Configuration */ pad_map = ioremap(UART4_PADCONF_RX_TX,4); if(pad_map == NULL) { printk(KERN_ALERT " unable to pad_remap \n"); } writel(pad_value,pad_map); /* Software reset */ serial_out(&uper,UART_OMAP_SYSC,swreset); while(((serial_in(&uper,UART_OMAP_SYSS)) & 0x01)!= 1 );

@GauthamKantharaju:serial out and serial_in goes like this static inline void serial_out(struct uart_omap_port *up, int offset, int value) { offset <<= up->port.regshift; writew(value,io_map + offset); }static inline unsigned int serial_in(struct uart_omap_port *up, int offset) { offset <<= up->port.regshift; return readw(io_map + offset); }

@Dino, use ioread[8|16|32] and iowrite[8|16|32] instead of writew or readw. Is "io_map" is the return virtual address from ioremap?

@GauthamKantharaju:Yeah I will try using ioread.yeah ioremap is defined as io_map = ioremap(UART4_BASE,UART_SIZE);#define UART4_BASE 0x4806E000 #define UART_SIZE 256

@GauthamKantharaju:offset seems fine as the value is for regshift is always 2.Since this method and the offset is defined in the omap-serial.c I had retained the same

Even after using ioread and iowrite there is no change in the result.