/* * Licensed under GPLv2 or later, see file LICENSE in this source tree. * Copyright (C) 2000, Jan-Derk Bakker (J.D.Bakker@its.tudelft.nl) * Copyright (C) 2008, BusyBox Team. -solar 4/26/08 */ //usage:#define devmem_trivial_usage //usage: "ADDRESS [WIDTH [VALUE]]" //usage:#define devmem_full_usage "\n\n" //usage: "Read/write from physical address\n" //usage: "\n ADDRESS Address to act upon" //usage: "\n WIDTH Width (8/16/...)" //usage: "\n VALUE Data to be written" #include "libbb.h" int devmem_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; int devmem_main(int argc UNUSED_PARAM, char **argv) { void *map_base, *virt_addr; uint64_t read_result; uint64_t writeval = writeval; /* for compiler */ off_t target; unsigned page_size, mapped_size, offset_in_page; int fd; unsigned width = 8 * sizeof(int); /* devmem ADDRESS [WIDTH [VALUE]] */ // TODO: options? // -r: read and output only the value in hex, with 0x prefix // -w: write only, no reads before or after, and no output // or make this behavior default? // Let's try this and see how users react. /* ADDRESS */ if (!argv[1]) bb_show_usage(); errno = 0; target = bb_strtoull(argv[1], NULL, 0); /* allows hex, oct etc */ /* WIDTH */ if (argv[2]) { if (isdigit(argv[2][0]) || argv[2][1]) width = xatou(argv[2]); else { static const char bhwl[] ALIGN1 = "bhwl"; static const uint8_t sizes[] ALIGN1 = { 8 * sizeof(char), 8 * sizeof(short), 8 * sizeof(int), 8 * sizeof(long), 0 /* bad */ }; width = strchrnul(bhwl, (argv[2][0] | 0x20)) - bhwl; width = sizes[width]; } /* VALUE */ if (argv[3]) writeval = bb_strtoull(argv[3], NULL, 0); } else { /* argv[2] == NULL */ /* make argv[3] to be a valid thing to fetch */ argv--; } if (errno) bb_show_usage(); /* one of bb_strtouXX failed */ fd = xopen("/dev/mem", argv[3] ? (O_RDWR | O_SYNC) : (O_RDONLY | O_SYNC)); mapped_size = page_size = getpagesize(); offset_in_page = (unsigned)target & (page_size - 1); if (offset_in_page + width > page_size) { /* This access spans pages. * Must map two pages to make it possible: */ mapped_size *= 2; } map_base = mmap(NULL, mapped_size, argv[3] ? (PROT_READ | PROT_WRITE) : PROT_READ, MAP_SHARED, fd, target & ~(off_t)(page_size - 1)); if (map_base == MAP_FAILED) bb_perror_msg_and_die("mmap"); // printf("Memory mapped at address %p.\n", map_base); virt_addr = (char*)map_base + offset_in_page; if (!argv[3]) { switch (width) { case 8: read_result = *(volatile uint8_t*)virt_addr; break; case 16: read_result = *(volatile uint16_t*)virt_addr; break; case 32: read_result = *(volatile uint32_t*)virt_addr; break; case 64: read_result = *(volatile uint64_t*)virt_addr; break; default: bb_error_msg_and_die("bad width"); } // printf("Value at address 0x%"OFF_FMT"X (%p): 0x%llX\n", // target, virt_addr, // (unsigned long long)read_result); /* Zero-padded output shows the width of access just done */ printf("0x%0*llX\n", (width >> 2), (unsigned long long)read_result); } else { switch (width) { case 8: *(volatile uint8_t*)virt_addr = writeval; // read_result = *(volatile uint8_t*)virt_addr; break; case 16: *(volatile uint16_t*)virt_addr = writeval; // read_result = *(volatile uint16_t*)virt_addr; break; case 32: *(volatile uint32_t*)virt_addr = writeval; // read_result = *(volatile uint32_t*)virt_addr; break; case 64: *(volatile uint64_t*)virt_addr = writeval; // read_result = *(volatile uint64_t*)virt_addr; break; default: bb_error_msg_and_die("bad width"); } // printf("Written 0x%llX; readback 0x%llX\n", // (unsigned long long)writeval, // (unsigned long long)read_result); } if (ENABLE_FEATURE_CLEAN_UP) { if (munmap(map_base, mapped_size) == -1) bb_perror_msg_and_die("munmap"); close(fd); } return EXIT_SUCCESS; }