#include <stdint.h> #include <inttypes.h> #include <stdlib.h> #include <string.h> #include <stdio.h> #include "../../../none/tests/s390x/opcodes.h" /* Define various input buffers. */ /* U+0000 to U+d7ff: Result is 2 bytes for each uint32_t U+dc00 to U+ffff: Result is 2 bytes for each uint32_t */ uint32_t pattern2[] = { 0x0000, 0xd7ff, /* corner cases */ 0xdc00, 0xffff, /* corner cases */ 0xabba, 0xf00d, 0xd00f, 0x1234 /* misc */ }; /* U+00010000 to U+0010ffff: Result is 4 bytes for each uint32_t */ uint32_t pattern4[] = { 0x00010000, 0x0010ffff, /* corner cases */ 0x00010123, 0x00023456, 0x000789ab, 0x00100000 /* misc */ }; static void do_cu42(uint16_t *dst, uint64_t dst_len, uint32_t *src, uint64_t src_len) { /* build up the register pairs */ register uint32_t *source asm("4") = src; register uint64_t source_len asm("5") = src_len; register uint16_t *dest asm("2") = dst; register uint64_t dest_len asm("3") = dst_len; asm volatile( CU42(2,4) : "+d"(dest), "+d"(source), "+d"(source_len), "+d"(dest_len) : : "memory", "cc"); } int main() { /*------------------------------------------------------------*/ /* Write to a too small buffer */ /*------------------------------------------------------------*/ /* Write 2 bytes into buffer of length 1 */ do_cu42(malloc(1), 10, pattern2, 4); // complaint (2 bytes) /* Write 2 bytes into buffer of length 2 */ do_cu42(malloc(2), 10, pattern2, 4); // no complaint /* Write 4 bytes into buffer of length 1 */ do_cu42(malloc(1), 10, pattern4, 4); // complaint (4 bytes) /* Write 4 bytes into buffer of length 2 */ do_cu42(malloc(2), 10, pattern4, 4); // complaint (4 bytes) /* Write 4 bytes into buffer of length 3 */ do_cu42(malloc(3), 10, pattern4, 4); // complaint (4 bytes) /* Write 4 bytes into buffer of length 4 */ do_cu42(malloc(4), 10, pattern4, 4); // no complaint /*------------------------------------------------------------*/ /* Read uninitialised data */ /*------------------------------------------------------------*/ uint16_t buf[100]; uint8_t *input; /* Input buffer is completely uninitialised */ input = malloc(10); do_cu42(buf, sizeof buf, (void *)input, 4); // complaint /* Read 4 bytes from input buffer. First byte is uninitialised */ input = malloc(10); input[1] = input[2] = input[3] = 0x0; do_cu42(buf, sizeof buf, (void *)input, 4); // complaint /* Read 4 bytes from input buffer. Second byte is uninitialised */ input = malloc(10); input[0] = input[2] = input[3] = 0x0; do_cu42(buf, sizeof buf, (void *)input, 4); // complaint /* Read 4 bytes from input buffer. Third byte is uninitialised */ input = malloc(10); input[0] = input[1] = input[3] = 0x0; do_cu42(buf, sizeof buf, (void *)input, 4); // complaint /* Read 4 bytes from input buffer. Fourth byte is uninitialised */ input = malloc(10); input[0] = input[1] = input[2] = 0x0; do_cu42(buf, sizeof buf, (void *)input, 4); // complaint /* Read 4 bytes from input buffer. All bytes are initialised */ input = malloc(10); memset(input, 0, 4); do_cu42(buf, sizeof buf, (void *)input, 4); // no complaint /* Read 8 bytes from input buffer. This iterates once. In the 1st iteration all input bytes are initialised in the 2nd iteration all input bytes are uninitialised. */ input = malloc(10); memset(input, 0, 4); do_cu42(buf, sizeof buf, (void *)input, 8); // complaint /* Write to NULL */ // do_cu42(NULL, 10, pattern1, sizeof pattern1); // complaint return 0; }