/* * Check decoding of s390_sthyi syscall. * * Copyright (c) 2018 The strace developers. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "tests.h" #include #if defined HAVE_ICONV_H && defined HAVE_ICONV_OPEN && defined __NR_s390_sthyi # include # include # include # include # include # include # include # define EBCDIC_MAX_LEN 16 # ifndef VERBOSE # define VERBOSE 0 # endif static inline bool print_0x8(const char *prefix, unsigned char *buf, unsigned int offs, bool zero) { if (!zero && !buf[offs]) return false; printf("%s=%#02hhx", prefix, buf[offs]); return true; } static inline bool print_u8(const char *prefix, unsigned char *buf, unsigned int offs, bool zero) { if (!zero && !buf[offs]) return false; printf("%s=%hhu", prefix, buf[offs]); return true; } static inline bool print_u16(const char *prefix, unsigned char *buf, unsigned int offs, bool zero) { uint16_t val = *(uint16_t *) (buf + offs); if (!zero && !val) return false; printf("%s=%" PRIu16, prefix, val); return true; } static inline bool print_x32(const char *prefix, unsigned char *buf, unsigned int offs, bool zero) { uint32_t val = *(uint32_t *) (buf + offs); if (!zero && !val) return false; printf("%s=%#" PRIx32, prefix, val); return true; } static inline bool print_weight(const char *prefix, unsigned char *buf, unsigned int offs, bool zero) { uint32_t val = *(uint32_t *) (buf + offs); if (print_x32(prefix, buf, offs, zero)) { if (val) printf(" /* %u %u/65536 cores */", val >> 16, val & 0xFFFF); else printf(" /* unlimited */"); return true; } return false; } static inline char * ebcdic2ascii(unsigned char *ebcdic, size_t size) { static char ascii_buf[EBCDIC_MAX_LEN]; char *ebcdic_pos = (char *) ebcdic; char *ascii_pos = ascii_buf; size_t ebcdic_left = size; size_t ascii_left = size; size_t ret; iconv_t cd = iconv_open("ASCII", "EBCDICUS"); if (size > sizeof(ascii_buf)) error_msg_and_fail("ebcdic2ascii: EBCDIC string is too big: " "%zu (maximum is %zu)", size, sizeof(ascii_buf)); if (cd == (iconv_t) -1) perror_msg_and_fail("ebcdic2ascii: unable to allocate a " "conversion descriptior for converting " "EBCDIC to ASCII"); while ((ret = iconv(cd, &ebcdic_pos, &ebcdic_left, &ascii_pos, &ascii_left)) == (size_t) -1) { switch (errno) { case EILSEQ: case EINVAL: /* That one is quite unexpected, actually */ if (!ebcdic_left || !ascii_left) goto ebcdic2ascii_end; *ascii_pos++ = ' '; ebcdic_pos++; ebcdic_left--; break; case E2BIG: perror_msg_and_fail("ebcdic2ascii: ran out of " "ASCII buffer unexpectedly"); default: perror_msg_and_fail("ebcdic2ascii: unexpected error"); } } ebcdic2ascii_end: iconv_close(cd); if (ebcdic_left != ascii_left) error_msg_and_fail("ebcdic2ascii: ASCII string differs in size " "from EBCDIC"); return ascii_buf; } static inline bool is_empty(unsigned char *ptr, size_t size) { size_t i; for (i = 0; !*ptr && i < size; ptr++, i++) ; return i == size; } static inline bool print_ebcdic(const char *prefix, unsigned char *addr, unsigned int offs, size_t size, bool zero, bool blank) { const char *ascii = ebcdic2ascii(addr + offs, size); if (!zero) { size_t i; for (i = 0; (addr[offs + i] == (blank ? 64 : 0)) && (i < size); i++) ; if (i == size) return false; } printf("%s=", prefix); print_quoted_hex((char *) (addr + offs), size); printf(" /* "); print_quoted_memory(ascii, size); printf(" */"); return true; } static void print_hypervisor_header(unsigned char *buf, int level, unsigned int offs_pos, unsigned int len_pos, bool mt) { uint16_t offs = *(uint16_t *) (buf + offs_pos); uint16_t hdr_size = *(uint16_t *) (buf + len_pos); unsigned char *cur; if (!offs) return; if (hdr_size < 32) error_msg_and_fail("sthyi: hypervisor %d section is too small " "(got %hu, 32 expected)", level, hdr_size); cur = buf + offs; printf(", /* hypervisor %d */ {infyflg1", level); print_0x8("", cur, 0, true); # if VERBOSE if (cur[0]) { bool printed = false; printf(" /* "); if (cur[0] & 0x80) { printf("0x80 - guest CPU usage had limiting is using " "the consumption method"); printed = true; } if (cur[0] & 0x40) { if (printed) printf(", "); printf("0x40 - LIMITHARD caps use prorated core time " "for capping"); printed = true; } if (cur[0] & 0x3F) { if (printed) printf(", "); printf("%#hhx - ???", cur[0] & 0x3F); } printf(" */"); } print_0x8(", infyflg2", cur, 1, false); print_0x8(", infyval1", cur, 2, false); print_0x8(", infyval2", cur, 3, false); print_u8(", infytype", cur, 4, true); if (cur[4] == 1) printf(" /* z/VM is the hypervisor */"); else printf(" /* unknown hypervisor type */"); if (cur[5]) printf(", reserved_1__=\"\\x%#02hhx\"", cur[5]); print_u8(", infycpt", cur, 6, mt); print_u8(", infyiflt", cur, 7, mt); # endif /* !VERBOSE */ print_ebcdic(", infysyid", cur, 8, 8, VERBOSE, true); print_ebcdic(", infyclnm", cur, 16, 8, VERBOSE, true); print_u16(", infyscps", cur, 24, VERBOSE); print_u16(", infydcps", cur, 26, VERBOSE); print_u16(", infysifl", cur, 28, VERBOSE); print_u16(", infydifl", cur, 30, VERBOSE); # if VERBOSE if (hdr_size > 32 && !is_empty(cur + 32, hdr_size - 32)) { printf(", "); print_quoted_hex((char *) (cur + 32), hdr_size - 32); } # else /* !VERBOSE */ printf(", ..."); # endif /* !VERBOSE */ printf("}"); } static void print_guest_header(unsigned char *buf, int level, unsigned int offs_pos, unsigned int len_pos) { uint16_t offs = *(uint16_t *) (buf + offs_pos); uint16_t hdr_size = *(uint16_t *) (buf + len_pos); unsigned char *cur; if (!offs) return; if (hdr_size < 56) error_msg_and_fail("sthyi: guest %d section is too small " "(got %hu, 56 expected)", level, hdr_size); cur = buf + offs; printf(", /* guest %d */ {infgflg1", level); print_0x8("", cur, 0, true); # if VERBOSE if (cur[0]) { bool printed = false; printf(" /* "); if (cur[0] & 0x80) { printf("0x80 - guest is mobility enabled"); printed = true; } if (cur[0] & 0x40) { if (printed) printf(", "); printf("0x40 - guest has multiple virtual CPU types"); printed = true; } if (cur[0] & 0x20) { if (printed) printf(", "); printf("0x20 - guest CP dispatch type has LIMITHARD " "cap"); printed = true; } if (cur[0] & 0x10) { if (printed) printf(", "); printf("0x10 - guest IFL dispatch type has LIMITHARD " "cap"); printed = true; } if (cur[0] & 0x08) { if (printed) printf(", "); printf("0x08 - virtual CPs are thread dispatched"); printed = true; } if (cur[0] & 0x04) { if (printed) printf(", "); printf("0x04 - virtual IFLs are thread dispatched"); printed = true; } if (cur[0] & 0x3) { if (printed) printf(", "); printf("%#hhx - ???", cur[0] & 0x3); } printf(" */"); } print_0x8(", infgflg2", cur, 1, false); print_0x8(", infgval1", cur, 2, false); print_0x8(", infgval2", cur, 3, false); # endif /* !VERBOSE */ print_ebcdic(", infgusid", cur, 4, 8, true, false); print_u16(", infgscps", cur, 12, VERBOSE); print_u16(", infgdcps", cur, 14, VERBOSE); # if VERBOSE print_u8(", infgcpdt", cur, 16, true); if (cur[16] == 0) printf(" /* General Purpose (CP) */"); else printf(" /* unknown */"); if (cur[17] || cur[18] || cur[19]) printf(", reserved_1__=\"\\x%#02hhx\\x%#02hhx\\x%#02hhx\"", cur[17], cur[18], cur[19]); # endif /* !VERBOSE */ print_weight(", infgcpcc", cur, 20, VERBOSE); print_u16(", infgsifl", cur, 24, VERBOSE); print_u16(", infgdifl", cur, 26, VERBOSE); # if VERBOSE print_u8(", infgifdt", cur, 28, true); if (cur[28] == 0) printf(" /* General Purpose (CP) */"); else if (cur[28] == 3) printf(" /* Integrated Facility for Linux (IFL) */"); else printf(" /* unknown */"); if (cur[29] || cur[30] || cur[31]) printf(", reserved_2__=\"\\x%#02hhx\\x%#02hhx\\x%#02hhx\"", cur[29], cur[30], cur[31]); # endif /* !VERBOSE */ print_weight(", infgifcc", cur, 32, VERBOSE); print_0x8(", infgpflg", cur, 36, true); # if VERBOSE if (cur[36]) { bool printed = false; printf(" /* "); if (cur[36] & 0x80) { printf("0x80 - CPU pool's CP virtual type has " "LIMITHARD cap"); printed = true; } if (cur[36] & 0x40) { if (printed) printf(", "); printf("0x40 - CPU pool's CP virtual type has " "CAPACITY cap"); printed = true; } if (cur[36] & 0x20) { if (printed) printf(", "); printf("0x20 - CPU pool's IFL virtual type has " "LIMITHARD cap"); printed = true; } if (cur[36] & 0x10) { if (printed) printf(", "); printf("0x10 - CPU pool's IFL virtual type has " "CAPACITY cap"); printed = true; } if (cur[36] & 0x08) { if (printed) printf(", "); printf("0x08 - CPU pool uses prorated core time"); printed = true; } if (cur[36] & 0x7) { if (printed) printf(", "); printf("%#hhx - ???", cur[36] & 0x7); } printf(" */"); } if (cur[37] || cur[38] || cur[39]) printf(", reserved_3__=\"\\x%#02hhx\\x%#02hhx\\x%#02hhx\"", cur[37], cur[38], cur[39]); print_ebcdic(", infgpnam", cur, 40, 8, false, true); print_weight(", infgpccc", cur, 48, true); print_weight(", infgpicc", cur, 52, true); if (hdr_size > 56 && !is_empty(cur + 56, hdr_size - 56)) { printf(", "); print_quoted_hex((char *) (cur + 56), hdr_size - 56); } # else /* !VERBOSE */ printf(", ..."); # endif /* !VERBOSE */ printf("}"); } static void print_sthyi(unsigned char *buf) { unsigned char *cur; uint16_t hdr_size; uint16_t offs; bool mt = false; hdr_size = *(uint16_t *) (buf + 10); if (hdr_size < 44) error_msg_and_fail("sthyi: header section is too small " "(got %hu, 44 expected)", hdr_size); /* INFHFLG1 */ print_0x8("{/* header */ {infhflg1", buf, 0, true); # if VERBOSE if (buf[0]) { bool printed = false; printf(" /* "); if (buf[0] & 0x80) { printf("0x80 - Global Performance Data unavailable"); printed = true; } if (buf[0] & 0x40) { if (printed) printf(", "); printf("0x40 - One or more hypervisor levels below " "this level does not support the STHYI " "instruction"); printed = true; } if (buf[0] & 0x20) { if (printed) printf(", "); printf("0x20 - Virtualization stack is incomplete"); printed = true; } if (buf[0] & 0x10) { if (printed) printf(", "); printf("0x10 - Execution environment is not within a " "logical partition"); printed = true; } if (buf[0] & 0xF) { if (printed) printf(", "); printf("%#hhx - ???", buf[0] & 0xF); } printf(" */"); } print_0x8(", infhflg2", buf, 1, false); print_0x8(", infhval1", buf, 2, false); print_0x8(", infhval2", buf, 3, false); /* Reserved */ if (buf[4] || buf[5] || buf[6]) printf(", reserved_1__=\"\\x%#02hhx\\x%#02hhx\\x%#02hhx\"", buf[4], buf[5], buf[6]); print_u8(", infhygct", buf, 7, true); print_u16(", infhtotl", buf, 8, true); print_u16(", infhdln", buf, 10, true); print_u16(", infmoff", buf, 12, true); print_u16(", infmlen", buf, 14, true); print_u16(", infpoff", buf, 16, true); print_u16(", infplen", buf, 18, true); print_u16(", infhoff1", buf, 20, true); print_u16(", infhlen1", buf, 22, true); print_u16(", infgoff1", buf, 24, true); print_u16(", infglen1", buf, 26, true); print_u16(", infhoff2", buf, 28, true); print_u16(", infhlen2", buf, 30, true); print_u16(", infgoff2", buf, 32, true); print_u16(", infglen2", buf, 34, true); print_u16(", infhoff3", buf, 36, true); print_u16(", infhlen3", buf, 38, true); print_u16(", infgoff3", buf, 40, true); print_u16(", infglen3", buf, 42, true); if (hdr_size > 44 && !is_empty(buf + 44, hdr_size - 44)) { printf(", "); print_quoted_hex((char *) (buf + 44), hdr_size - 44); } # else /* !VERBOSE */ printf(", ..."); # endif /* !VERBOSE */ printf("}"); /* Machine header */ offs = *(uint16_t *) (buf + 12); if (!offs) goto partition_hdr; hdr_size = *(uint16_t *) (buf + 14); if (hdr_size < 60) error_msg_and_fail("sthyi: machine section is too small " "(got %hu, 60 expected)", hdr_size); cur = buf + offs; printf(", /* machine */ {"); # if VERBOSE print_0x8("infmflg1", cur, 0, false); if (cur[0]) printf(", "); print_0x8("infmflg2", cur, 1, false); if (cur[1]) printf(", "); # endif /* !VERBOSE */ print_0x8("infmval1", cur, 2, true); bool cnt_valid = cur[2] & 0x80; # if VERBOSE bool id_valid = cur[2] & 0x40; bool name_valid = cur[2] & 0x20; printf(" /* processor count validity: %d, machine ID validity: %d, " "machine name validity: %d", !!cnt_valid, !!id_valid, !!name_valid); if (cur[2] & 0x1F) printf(", %#hhx - ???", cur[2] & 0x1F); printf(" */"); print_0x8(", infmval2", cur, 3, false); # endif /* !VERBOSE */ print_u16(", infmscps", cur, 4, cnt_valid); print_u16(", infmdcps", cur, 6, cnt_valid); print_u16(", infmsifl", cur, 8, cnt_valid); print_u16(", infmdifl", cur, 10, cnt_valid); # if VERBOSE print_ebcdic(", infmname", cur, 12, 8, name_valid, false); print_ebcdic(", infmtype", cur, 20, 4, id_valid, false); print_ebcdic(", infmmanu", cur, 24, 16, id_valid, false); print_ebcdic(", infmseq", cur, 40, 16, id_valid, false); print_ebcdic(", infmpman", cur, 56, 4, id_valid, false); if (hdr_size > 60 && !is_empty(cur + 60, hdr_size - 60)) { printf(", "); print_quoted_hex((char *) (cur + 60), hdr_size - 60); } # else /* !VERBOSE */ printf(", ..."); # endif /* !VERBOSE */ printf("}"); partition_hdr: /* Partition header */ offs = *(uint16_t *) (buf + 16); if (!offs) goto hv_hdr; hdr_size = *(uint16_t *) (buf + 18); if (hdr_size < 56) error_msg_and_fail("sthyi: partition section is too small " "(got %hu, 56 expected)", hdr_size); cur = buf + offs; print_0x8(", /* partition */ {infpflg1", cur, 0, true); mt = !!(cur[0] & 0x80); # if VERBOSE if (cur[0]) { bool printed = false; printf(" /* "); if (cur[0] & 0x80) { printf("0x80 - multithreading is enabled"); printed = true; } if (cur[0] & 0x7F) { if (printed) printf(", "); printf("%#hhx - ???", cur[0] & 0x7F); } printf(" */"); } print_0x8(", infpflg2", cur, 1, false); # endif /* !VERBOSE */ print_0x8(", infpval1", cur, 2, true); bool pcnt_valid = cur[2] & 0x80; bool pid_valid = cur[2] & 0x10; # if VERBOSE bool pwcap_valid = cur[2] & 0x40; bool pacap_valid = cur[2] & 0x20; bool lpar_valid = cur[2] & 0x08; # endif /* !VERBOSE */ # if VERBOSE printf(" /* processor count validity: %d, partition weight-based " "capacity validity: %d, partition absolute capacity validity: " "%d, partition ID validity: %d, LPAR group absolute capacity " "capping information validity: %d", !!pcnt_valid, !!pwcap_valid, !!pacap_valid, !!pid_valid, !!lpar_valid); if (cur[2] & 0x7) printf(", %#hhx - ???", cur[2] & 0x7); printf(" */"); print_0x8(", infpval2", cur, 3, false); # endif /* !VERBOSE */ print_u16(", infppnum", cur, 4, pid_valid); print_u16(", infpscps", cur, 6, pcnt_valid); print_u16(", infpdcps", cur, 8, pcnt_valid); print_u16(", infpsifl", cur, 10, pcnt_valid); print_u16(", infpdifl", cur, 12, pcnt_valid); # if VERBOSE if (cur[14] || cur[15]) printf(", reserved_1__=\"\\x%#02hhx\\x%#02hhx\"", cur[14], cur[15]); # endif /* !VERBOSE */ print_ebcdic(", infppnam", cur, 16, 8, pid_valid, false); # if VERBOSE print_weight(", infpwbcp", cur, 24, pwcap_valid); print_weight(", infpabcp", cur, 28, pacap_valid); print_weight(", infpwbif", cur, 32, pwcap_valid); print_weight(", infpabif", cur, 36, pacap_valid); if (print_ebcdic(", infplgnm", cur, 40, 8, false, false)) { print_weight(", infplgcp", cur, 48, false); print_weight(", infplgif", cur, 52, false); } else { if (lpar_valid) { printf(", infplgnm="); print_quoted_hex((char *) (cur + 40), 8); } print_x32(", infplgcp", cur, 48, false); print_x32(", infplgif", cur, 52, false); } if (hdr_size > 56 && !is_empty(cur + 56, hdr_size - 56)) { printf(", "); print_quoted_hex((char *) (cur + 56), hdr_size - 56); } # else /* !VERBOSE */ printf(", ..."); # endif /* !VERBOSE */ printf("}"); hv_hdr: /* Hypervisor/guest headers */ print_hypervisor_header(buf, 1, 20, 22, mt); print_guest_header(buf, 1, 24, 26); print_hypervisor_header(buf, 2, 28, 30, mt); print_guest_header(buf, 2, 32, 34); print_hypervisor_header(buf, 3, 36, 38, mt); print_guest_header(buf, 3, 40, 42); printf("}"); } int main(void) { static const kernel_ulong_t bogus_func = (kernel_ulong_t) 0xdeafbeefdeadc0deULL; static const kernel_ulong_t bogus_resp_buf = (kernel_ulong_t) 0xfacefeedac0ffeedULL; static const kernel_ulong_t bogus_ret_code = (kernel_ulong_t) 0xf00dfa57decaffedULL; static const kernel_ulong_t bogus_flags = (kernel_ulong_t) 0xfee1deadfa57beefULL; unsigned char *buf = tail_alloc(PAGE_SIZE); TAIL_ALLOC_OBJECT_CONST_PTR(uint64_t, ret); long rc; rc = syscall(__NR_s390_sthyi, 0, 0, 0, 0); printf("s390_sthyi(STHYI_FC_CP_IFL_CAP, NULL, NULL, 0) = %s\n", sprintrc(rc)); rc = syscall(__NR_s390_sthyi, bogus_func, bogus_resp_buf, bogus_ret_code, bogus_flags); printf("s390_sthyi(%#llx /* STHYI_FC_??? */, %#llx, %#llx, %#llx) = " "%s\n", (unsigned long long) bogus_func, (unsigned long long) bogus_resp_buf, (unsigned long long) bogus_ret_code, (unsigned long long) bogus_flags, sprintrc(rc)); rc = syscall(__NR_s390_sthyi, bogus_func, buf, ret, 0); printf("s390_sthyi(%#llx /* STHYI_FC_??? */, %p, %p, 0) = %s\n", (unsigned long long) bogus_func, buf, ret, sprintrc(rc)); rc = syscall(__NR_s390_sthyi, 0, buf, ret, 0); if (rc) error_msg_and_skip("syscall(__NR_s390_sthyi, 0, buf, ret, 0) " "returned unexpected value of %ld", rc); printf("s390_sthyi(STHYI_FC_CP_IFL_CAP, "); print_sthyi(buf); printf(", [0], 0) = 0\n"); puts("+++ exited with 0 +++"); return 0; } #else SKIP_MAIN_UNDEFINED("HAVE_ICONV_H && HAVE_ICONV_OPEN && __NR_s390_sthyi") #endif