On 4/7/21 2:42 PM, Claudio Imbrenda wrote: > Simple EDAT test. > > Signed-off-by: Claudio Imbrenda <imbrenda@xxxxxxxxxxxxx> > --- > s390x/Makefile | 1 + > s390x/edat.c | 279 ++++++++++++++++++++++++++++++++++++++++++++ > s390x/unittests.cfg | 3 + > 3 files changed, 283 insertions(+) > create mode 100644 s390x/edat.c > > diff --git a/s390x/Makefile b/s390x/Makefile > index b92de9c5..26bb1684 100644 > --- a/s390x/Makefile > +++ b/s390x/Makefile > @@ -21,6 +21,7 @@ tests += $(TEST_DIR)/css.elf > tests += $(TEST_DIR)/uv-guest.elf > tests += $(TEST_DIR)/sie.elf > tests += $(TEST_DIR)/mvpg.elf > +tests += $(TEST_DIR)/edat.elf > > tests_binary = $(patsubst %.elf,%.bin,$(tests)) > ifneq ($(HOST_KEY_DOCUMENT),) > diff --git a/s390x/edat.c b/s390x/edat.c > new file mode 100644 > index 00000000..edc3dc38 > --- /dev/null > +++ b/s390x/edat.c > @@ -0,0 +1,279 @@ > +/* SPDX-License-Identifier: GPL-2.0-only */ > +/* > + * EDAT test. > + * > + * Copyright (c) 2021 IBM Corp > + * > + * Authors: > + * Claudio Imbrenda <imbrenda@xxxxxxxxxxxxx> > + */ > +#include <libcflat.h> > +#include <vmalloc.h> > +#include <asm/facility.h> > +#include <asm/interrupt.h> > +#include <mmu.h> > +#include <asm/pgtable.h> > +#include <asm-generic/barrier.h> > + > +#define PGD_PAGE_SHIFT (REGION1_SHIFT - PAGE_SHIFT) > + > +#define LC_SIZE (2 * PAGE_SIZE) > +#define VIRT(x) ((void *)((unsigned long)(x) + (unsigned long)mem)) > + > +static uint8_t prefix_buf[LC_SIZE] __attribute__((aligned(LC_SIZE))); > +static unsigned int tmp[1024] __attribute__((aligned(PAGE_SIZE))); > +static void *root, *mem, *m; > +static struct lowcore *lc; > +volatile unsigned int *p; > + > +/* Expect a program interrupt, and clear the TEID */ > +static void expect_dat_fault(void) > +{ > + expect_pgm_int(); > + lc->trans_exc_id = 0; Any specific reason why you didn't want to add that to expect_pgm_int()? > +} > + > +/* > + * Check if a non-access-list protection exception happened for the given > + * address, in the primary address space. > + */ > +static bool check_pgm_prot(void *ptr) > +{ > + unsigned long teid = lc->trans_exc_id; > + > + if (lc->pgm_int_code != PGM_INT_CODE_PROTECTION) > + return false; > + /* > + * if for any reason PGM_TEID_M is not present, the rest of the > + * field is not meaningful, so no point in checking it > + */ > + if (~teid & PGM_TEID_M) > + return true; > + return (~teid & PGM_TEID_A) && > + ((teid & PGM_TEID_ADDR) == ((uint64_t)ptr & PAGE_MASK)) && > + !(teid & PGM_TEID_AI); I'm wondering if a bitfield would be more fun. If not you could move the AI check to the A check Also, do we need to check some of the variants of SEOP before using some of the bits? > +} > + > +static void test_dat(void) > +{ > + report_prefix_push("edat off"); > + /* disable EDAT */ > + ctl_clear_bit(0, CTL0_EDAT); > + > + /* Check some basics */ > + p[0] = 42; > + report(p[0] == 42, "pte, r/w"); > + p[0] = 0; > + > + /* Write protect the page and try to write, expect a fault */ > + protect_page(m, PAGE_ENTRY_P); > + expect_dat_fault(); > + p[0] = 42; > + unprotect_page(m, PAGE_ENTRY_P); > + report(!p[0] && check_pgm_prot(m), "pte, ro"); > + > + /* > + * The FC bit (for large pages) should be ignored because EDAT is > + * off. We set a value and then we try to read it back again after > + * setting the FC bit. This way we can check if large pages were > + * erroneously enabled despite EDAT being off. > + */ > + p[0] = 42; > + protect_dat_entry(m, SEGMENT_ENTRY_FC, 4); > + report(p[0] == 42, "pmd, fc=1, r/w"); > + unprotect_dat_entry(m, SEGMENT_ENTRY_FC, 4); > + p[0] = 0; > + > + /* > + * Segment protection should work even with EDAT off, try to write > + * anyway and expect a fault > + */ > + protect_dat_entry(m, SEGMENT_ENTRY_P, 4); > + expect_dat_fault(); > + p[0] = 42; > + report(!p[0] && check_pgm_prot(m), "pmd, ro"); > + unprotect_dat_entry(m, SEGMENT_ENTRY_P, 4); > + > + /* The FC bit should be ignored because EDAT is off, like above */ > + p[0] = 42; > + protect_dat_entry(m, REGION3_ENTRY_FC, 3); > + report(p[0] == 42, "pud, fc=1, r/w"); > + unprotect_dat_entry(m, REGION3_ENTRY_FC, 3); > + p[0] = 0; > + > + /* > + * Region1/2/3 protection should not work, because EDAT is off. > + * Protect the various region1/2/3 entries and write, expect the > + * write to be successful. > + */ > + protect_dat_entry(m, REGION_ENTRY_P, 3); > + p[0] = 42; > + report(p[0] == 42, "pud, ro"); > + unprotect_dat_entry(m, REGION_ENTRY_P, 3); > + p[0] = 0; > + > + protect_dat_entry(m, REGION_ENTRY_P, 2); > + p[0] = 42; > + report(p[0] == 42, "p4d, ro"); > + unprotect_dat_entry(m, REGION_ENTRY_P, 2); > + p[0] = 0; > + > + protect_dat_entry(m, REGION_ENTRY_P, 1); > + p[0] = 42; > + report(p[0] == 42, "pgd, ro"); > + unprotect_dat_entry(m, REGION_ENTRY_P, 1); > + p[0] = 0; > + > + report_prefix_pop(); > +} > + > +static void test_edat1(void) > +{ > + report_prefix_push("edat1"); > + /* Enable EDAT */ > + ctl_set_bit(0, CTL0_EDAT); > + p[0] = 0; > + > + /* > + * Segment protection should work normally, try to write and expect > + * a fault. > + */ > + expect_dat_fault(); > + protect_dat_entry(m, SEGMENT_ENTRY_P, 4); > + p[0] = 42; > + report(!p[0] && check_pgm_prot(m), "pmd, ro"); > + unprotect_dat_entry(m, SEGMENT_ENTRY_P, 4); > + > + /* > + * Region1/2/3 protection should work now, because EDAT is on. Try > + * to write anyway and expect a fault. > + */ > + expect_dat_fault(); > + protect_dat_entry(m, REGION_ENTRY_P, 3); > + p[0] = 42; > + report(!p[0] && check_pgm_prot(m), "pud, ro"); > + unprotect_dat_entry(m, REGION_ENTRY_P, 3); > + > + expect_dat_fault(); > + protect_dat_entry(m, REGION_ENTRY_P, 2); > + p[0] = 42; > + report(!p[0] && check_pgm_prot(m), "p4d, ro"); > + unprotect_dat_entry(m, REGION_ENTRY_P, 2); > + > + expect_dat_fault(); > + protect_dat_entry(m, REGION_ENTRY_P, 1); > + p[0] = 42; > + report(!p[0] && check_pgm_prot(m), "pgd, ro"); > + unprotect_dat_entry(m, REGION_ENTRY_P, 1); > + > + /* Large pages should work */ > + p[0] = 42; > + install_large_page(root, 0, mem); > + report(p[0] == 42, "pmd, large"); > + > + /* > + * Prefixing should not work with large pages. Since the lower > + * addresses are mapped with small pages, which are subject to > + * prefixing, and the pages mapped with large pages are not subject > + * to prefixing, this is the resulting scenario: > + * > + * virtual 0 = real 0 -> absolute prefix_buf > + * virtual prefix_buf = real prefix_buf -> absolute 0 > + * VIRT(0) -> absolute 0 > + * VIRT(prefix_buf) -> absolute prefix_buf > + * > + * The testcase checks if the memory at virtual 0 has the same > + * content as the memory at VIRT(prefix_buf) and the memory at > + * VIRT(0) has the same content as the memory at virtual prefix_buf. > + * If prefixing is erroneously applied for large pages, the testcase > + * will therefore fail. > + */ > + report(!memcmp(0, VIRT(prefix_buf), LC_SIZE) && > + !memcmp(prefix_buf, VIRT(0), LC_SIZE), > + "pmd, large, prefixing"); > + > + report_prefix_pop(); > +} > + > +static void test_edat2(void) > +{ > + report_prefix_push("edat2"); > + p[0] = 42; > + > + /* Huge pages should work */ > + install_huge_page(root, 0, mem); > + report(p[0] == 42, "pud, huge"); > + > + /* Prefixing should not work with huge pages, just like large pages */ > + report(!memcmp(0, VIRT(prefix_buf), LC_SIZE) && > + !memcmp(prefix_buf, VIRT(0), LC_SIZE), > + "pmd, large, prefixing"); > + > + report_prefix_pop(); > +} > + > +static unsigned int setup(void) > +{ > + bool has_edat1 = test_facility(8); > + bool has_edat2 = test_facility(78); > + unsigned long pa, va; > + > + if (has_edat2 && !has_edat1) > + report_abort("EDAT2 available, but EDAT1 not available"); > + > + /* Setup DAT 1:1 mapping and memory management */ > + setup_vm(); > + root = (void *)(stctg(1) & PAGE_MASK); > + > + /* > + * Get a pgd worth of virtual memory, so we can test things later > + * without interfering with the test code or the interrupt handler > + */ > + mem = alloc_vpages_aligned(BIT_ULL(PGD_PAGE_SHIFT), PGD_PAGE_SHIFT); > + assert(mem); > + va = (unsigned long)mem; > + > + /* Map the first 1GB of real memory */ > + for (pa = 0; pa < SZ_1G; pa += PAGE_SIZE, va += PAGE_SIZE) > + install_page(root, pa, (void *)va); > + > + /* > + * Move the lowcore to a known non-zero location. This is needed > + * later to check whether prefixing is working with large pages. > + */ > + assert((unsigned long)&prefix_buf < SZ_2G); > + memcpy(prefix_buf, 0, LC_SIZE); > + set_prefix((uint32_t)(uintptr_t)prefix_buf); > + /* Clear the old copy */ > + memset(prefix_buf, 0, LC_SIZE); > + > + /* m will point to tmp through the new virtual mapping */ > + m = VIRT(&tmp); > + /* p is the same as m but volatile */ > + p = (volatile unsigned int *)m; > + > + return has_edat1 + has_edat2; > +} > + > +int main(void) > +{ > + unsigned int edat; > + > + report_prefix_push("edat"); > + edat = setup(); > + > + test_dat(); > + > + if (edat) > + test_edat1(); > + else > + report_skip("EDAT not available"); > + > + if (edat >= 2) > + test_edat2(); > + else > + report_skip("EDAT2 not available"); > + > + report_prefix_pop(); > + return report_summary(); > +} > diff --git a/s390x/unittests.cfg b/s390x/unittests.cfg > index 9f81a608..a0ec8864 100644 > --- a/s390x/unittests.cfg > +++ b/s390x/unittests.cfg > @@ -103,3 +103,6 @@ file = sie.elf > [mvpg] > file = mvpg.elf > timeout = 10 > + > +[edat] > +file = edat.elf >