I am working on a C program that will run in user space on an embedded ARM GNU/Linux system. I need to read data from a char device node /dev/fpga_sram. Within the C program, a buffer has been allocated using malloc, as shown below.
uint16_t *buff; uint32_t num = 4194304 * 3; buff = (uint16_t *)malloc(num * sizeof(uint16_t));
Using the read() function, I would like to read data into a certain index of the buffer, as demonstrated in the code snippet below.
int ret; int fd; int ptr_loc; ptr_loc = 0; fd = open("/dev/fpga_sram", O_RDONLY); ret = read(fd, &(buff[ptr_loc]), 4194304 * sizeof(uint16_t)); close(fd);
The reason why I want to do this is because the buffer needs to be filled with different reads from the device node /dev/fpga_sram at different times. The buffer size is greater than the total number of bytes read, so I would anticipate assigning ptr_loc to another index, as demonstrated below.
ptr_loc = 4194304; fd = open("/dev/fpga_sram", O_RDONLY); ret = read(fd, &(buff[ptr_loc]), 4194304 * sizeof(uint16_t)); close(fd);
However, when I try to access data stored in the buffer, I receive a segfault:
printf("i = 0, data = %u\n", buff); // this line of code causes segfault
What am I doing wrong here, and is it possible to read from the device node with a pointer to a buffer location? I would assume that reading from the device node would be similar to reading from a file in GNU/Linux.