Some of the non-privileged registers are at the same offset on each engine. We can improve our coverage for unknown HW layout by using the reported engine->mmio_base for relative offsets. Signed-off-by: Chris Wilson <chris@xxxxxxxxxxxxxxxxxx> --- tests/i915/gem_ctx_isolation.c | 164 ++++++++++++++++++++------------- 1 file changed, 100 insertions(+), 64 deletions(-) diff --git a/tests/i915/gem_ctx_isolation.c b/tests/i915/gem_ctx_isolation.c index 8b72a16ad..5b472d693 100644 --- a/tests/i915/gem_ctx_isolation.c +++ b/tests/i915/gem_ctx_isolation.c @@ -70,6 +70,7 @@ static const struct named_register { uint32_t ignore_bits; uint32_t write_mask; /* some registers bits do not exist */ bool masked; + bool relative; } nonpriv_registers[] = { { "NOPID", NOCTX, RCS0, 0x2094 }, { "MI_PREDICATE_RESULT_2", NOCTX, RCS0, 0x23bc }, @@ -109,7 +110,6 @@ static const struct named_register { { "PS_DEPTH_COUNT_1", GEN8, RCS0, 0x22f8, 2 }, { "BB_OFFSET", GEN8, RCS0, 0x2158, .ignore_bits = 0x7 }, { "MI_PREDICATE_RESULT_1", GEN8, RCS0, 0x241c }, - { "CS_GPR", GEN8, RCS0, 0x2600, 32 }, { "OA_CTX_CONTROL", GEN8, RCS0, 0x2360 }, { "OACTXID", GEN8, RCS0, 0x2364 }, { "PS_INVOCATION_COUNT_2", GEN8, RCS0, 0x2448, 2, .write_mask = ~0x3 }, @@ -138,79 +138,56 @@ static const struct named_register { { "CTX_PREEMPT", NOCTX /* GEN10 */, RCS0, 0x2248 }, { "CS_CHICKEN1", GEN11, RCS0, 0x2580, .masked = true }, - { "HDC_CHICKEN1", GEN_RANGE(10, 10), RCS0, 0x7304, .masked = true }, /* Privileged (enabled by w/a + FORCE_TO_NONPRIV) */ { "CTX_PREEMPT", NOCTX /* GEN9 */, RCS0, 0x2248 }, { "CS_CHICKEN1", GEN_RANGE(9, 10), RCS0, 0x2580, .masked = true }, { "COMMON_SLICE_CHICKEN2", GEN_RANGE(9, 9), RCS0, 0x7014, .masked = true }, - { "HDC_CHICKEN1", GEN_RANGE(9, 9), RCS0, 0x7304, .masked = true }, + { "HDC_CHICKEN1", GEN_RANGE(9, 10), RCS0, 0x7304, .masked = true }, { "SLICE_COMMON_ECO_CHICKEN1", GEN_RANGE(11, 11) /* + glk */, RCS0, 0x731c, .masked = true }, { "L3SQREG4", NOCTX /* GEN9:skl,kbl */, RCS0, 0xb118, .write_mask = ~0x1ffff0 }, { "HALF_SLICE_CHICKEN7", GEN_RANGE(11, 11), RCS0, 0xe194, .masked = true }, { "SAMPLER_MODE", GEN_RANGE(11, 11), RCS0, 0xe18c, .masked = true }, - { "BCS_GPR", GEN9, BCS0, 0x22600, 32 }, { "BCS_SWCTRL", GEN8, BCS0, 0x22200, .write_mask = 0x3, .masked = true }, { "MFC_VDBOX1", NOCTX, VCS0, 0x12800, 64 }, { "MFC_VDBOX2", NOCTX, VCS1, 0x1c800, 64 }, - { "VCS0_GPR", GEN_RANGE(9, 10), VCS0, 0x12600, 32 }, - { "VCS1_GPR", GEN_RANGE(9, 10), VCS1, 0x1c600, 32 }, - { "VECS_GPR", GEN_RANGE(9, 10), VECS0, 0x1a600, 32 }, - - { "VCS0_GPR", GEN11, VCS0, 0x1c0600, 32 }, - { "VCS1_GPR", GEN11, VCS1, 0x1c4600, 32 }, - { "VCS2_GPR", GEN11, VCS2, 0x1d0600, 32 }, - { "VCS3_GPR", GEN11, VCS3, 0x1d4600, 32 }, - { "VECS_GPR", GEN11, VECS0, 0x1c8600, 32 }, + { "xCS_GPR", GEN9, ALL, 0x600, 32, .relative = true }, {} }, ignore_registers[] = { { "RCS timestamp", GEN6, ~0u, 0x2358 }, { "BCS timestamp", GEN7, ~0u, 0x22358 }, - { "VCS0 timestamp", GEN_RANGE(7, 10), ~0u, 0x12358 }, - { "VCS1 timestamp", GEN_RANGE(7, 10), ~0u, 0x1c358 }, - { "VECS timestamp", GEN_RANGE(8, 10), ~0u, 0x1a358 }, - - { "VCS0 timestamp", GEN11, ~0u, 0x1c0358 }, - { "VCS1 timestamp", GEN11, ~0u, 0x1c4358 }, - { "VCS2 timestamp", GEN11, ~0u, 0x1d0358 }, - { "VCS3 timestamp", GEN11, ~0u, 0x1d4358 }, - { "VECS timestamp", GEN11, ~0u, 0x1c8358 }, + { "xCS timestamp", GEN8, ALL, 0x358, .relative = true }, /* huc read only */ - { "BSD0 0x2000", GEN11, ~0u, 0x1c0000 + 0x2000 }, - { "BSD0 0x2000", GEN11, ~0u, 0x1c0000 + 0x2014 }, - { "BSD0 0x2000", GEN11, ~0u, 0x1c0000 + 0x23b0 }, - - { "BSD1 0x2000", GEN11, ~0u, 0x1c4000 + 0x2000 }, - { "BSD1 0x2000", GEN11, ~0u, 0x1c4000 + 0x2014 }, - { "BSD1 0x2000", GEN11, ~0u, 0x1c4000 + 0x23b0 }, - - { "BSD2 0x2000", GEN11, ~0u, 0x1d0000 + 0x2000 }, - { "BSD2 0x2000", GEN11, ~0u, 0x1d0000 + 0x2014 }, - { "BSD2 0x2000", GEN11, ~0u, 0x1d0000 + 0x23b0 }, - - { "BSD3 0x2000", GEN11, ~0u, 0x1d4000 + 0x2000 }, - { "BSD3 0x2000", GEN11, ~0u, 0x1d4000 + 0x2014 }, - { "BSD3 0x2000", GEN11, ~0u, 0x1d4000 + 0x23b0 }, + { "BSD 0x2000", GEN11, ALL, 0x2000, .relative = true }, + { "BSD 0x2014", GEN11, ALL, 0x2014, .relative = true }, + { "BSD 0x23b0", GEN11, ALL, 0x23b0, .relative = true }, {} }; -static const char *register_name(uint32_t offset, char *buf, size_t len) +static const char * +register_name(uint32_t offset, uint32_t mmio_base, char *buf, size_t len) { for (const struct named_register *r = nonpriv_registers; r->name; r++) { unsigned int width = r->count ? 4*r->count : 4; - if (offset >= r->offset && offset < r->offset + width) { + uint32_t base; + + base = r->offset; + if (r->relative) + base += mmio_base; + + if (offset >= base && offset < base + width) { if (r->count <= 1) return r->name; snprintf(buf, len, "%s[%d]", - r->name, (offset - r->offset)/4); + r->name, (offset - base) / 4); return buf; } } @@ -218,22 +195,35 @@ static const char *register_name(uint32_t offset, char *buf, size_t len) return "unknown"; } -static const struct named_register *lookup_register(uint32_t offset) +static const struct named_register * +lookup_register(uint32_t offset, uint32_t mmio_base) { for (const struct named_register *r = nonpriv_registers; r->name; r++) { unsigned int width = r->count ? 4*r->count : 4; - if (offset >= r->offset && offset < r->offset + width) + uint32_t base; + + base = r->offset; + if (r->relative) + base += mmio_base; + + if (offset >= base && offset < base + width) return r; } return NULL; } -static bool ignore_register(uint32_t offset) +static bool ignore_register(uint32_t offset, uint32_t mmio_base) { for (const struct named_register *r = ignore_registers; r->name; r++) { unsigned int width = r->count ? 4*r->count : 4; - if (offset >= r->offset && offset < r->offset + width) + uint32_t base; + + base = r->offset; + if (r->relative) + base += mmio_base; + + if (offset >= base && offset < base + width) return true; } @@ -248,6 +238,7 @@ static void tmpl_regs(int fd, { const unsigned int gen_bit = 1 << intel_gen(intel_get_drm_devid(fd)); const unsigned int engine_bit = ENGINE(e->class, e->instance); + const uint32_t mmio_base = gem_engine_mmio_base(fd, e->name); unsigned int regs_size; uint32_t *regs; @@ -259,12 +250,20 @@ static void tmpl_regs(int fd, I915_GEM_DOMAIN_CPU, I915_GEM_DOMAIN_CPU); for (const struct named_register *r = nonpriv_registers; r->name; r++) { + uint32_t offset; + if (!(r->engine_mask & engine_bit)) continue; if (!(r->gen_mask & gen_bit)) continue; - for (unsigned count = r->count ?: 1, offset = r->offset; - count--; offset += 4) { + if (r->relative && !mmio_base) + continue; + + offset = r->offset; + if (r->relative) + offset += mmio_base; + + for (unsigned count = r->count ?: 1; count--; offset += 4) { uint32_t x = value; if (r->write_mask) x &= r->write_mask; @@ -284,6 +283,7 @@ static uint32_t read_regs(int fd, const unsigned int gen = intel_gen(intel_get_drm_devid(fd)); const unsigned int gen_bit = 1 << gen; const unsigned int engine_bit = ENGINE(e->class, e->instance); + const uint32_t mmio_base = gem_engine_mmio_base(fd, e->name); const bool r64b = gen >= 8; struct drm_i915_gem_exec_object2 obj[2]; struct drm_i915_gem_relocation_entry *reloc; @@ -311,13 +311,20 @@ static uint32_t read_regs(int fd, n = 0; for (const struct named_register *r = nonpriv_registers; r->name; r++) { + uint32_t offset; + if (!(r->engine_mask & engine_bit)) continue; if (!(r->gen_mask & gen_bit)) continue; + if (r->relative && !mmio_base) + continue; + + offset = r->offset; + if (r->relative) + offset += mmio_base; - for (unsigned count = r->count ?: 1, offset = r->offset; - count--; offset += 4) { + for (unsigned count = r->count ?: 1; count--; offset += 4) { *b++ = 0x24 << 23 | (1 + r64b); /* SRM */ *b++ = offset; reloc[n].target_handle = obj[0].handle; @@ -357,6 +364,7 @@ static void write_regs(int fd, { const unsigned int gen_bit = 1 << intel_gen(intel_get_drm_devid(fd)); const unsigned int engine_bit = ENGINE(e->class, e->instance); + const uint32_t mmio_base = gem_engine_mmio_base(fd, e->name); struct drm_i915_gem_exec_object2 obj; struct drm_i915_gem_execbuffer2 execbuf; unsigned int batch_size; @@ -372,12 +380,20 @@ static void write_regs(int fd, gem_set_domain(fd, obj.handle, I915_GEM_DOMAIN_CPU, I915_GEM_DOMAIN_CPU); for (const struct named_register *r = nonpriv_registers; r->name; r++) { + uint32_t offset; + if (!(r->engine_mask & engine_bit)) continue; if (!(r->gen_mask & gen_bit)) continue; - for (unsigned count = r->count ?: 1, offset = r->offset; - count--; offset += 4) { + if (r->relative && !mmio_base) + continue; + + offset = r->offset; + if (r->relative) + offset += mmio_base; + + for (unsigned count = r->count ?: 1; count--; offset += 4) { uint32_t x = value; if (r->write_mask) x &= r->write_mask; @@ -410,6 +426,7 @@ static void restore_regs(int fd, const unsigned int gen = intel_gen(intel_get_drm_devid(fd)); const unsigned int gen_bit = 1 << gen; const unsigned int engine_bit = ENGINE(e->class, e->instance); + const uint32_t mmio_base = gem_engine_mmio_base(fd, e->name); const bool r64b = gen >= 8; struct drm_i915_gem_exec_object2 obj[2]; struct drm_i915_gem_execbuffer2 execbuf; @@ -437,13 +454,20 @@ static void restore_regs(int fd, n = 0; for (const struct named_register *r = nonpriv_registers; r->name; r++) { + uint32_t offset; + if (!(r->engine_mask & engine_bit)) continue; if (!(r->gen_mask & gen_bit)) continue; + if (r->relative && !mmio_base) + continue; + + offset = r->offset; + if (r->relative) + offset += mmio_base; - for (unsigned count = r->count ?: 1, offset = r->offset; - count--; offset += 4) { + for (unsigned count = r->count ?: 1; count--; offset += 4) { *b++ = 0x29 << 23 | (1 + r64b); /* LRM */ *b++ = offset; reloc[n].target_handle = obj[0].handle; @@ -479,6 +503,7 @@ static void dump_regs(int fd, const int gen = intel_gen(intel_get_drm_devid(fd)); const unsigned int gen_bit = 1 << gen; const unsigned int engine_bit = ENGINE(e->class, e->instance); + const uint32_t mmio_base = gem_engine_mmio_base(fd, e->name); unsigned int regs_size; uint32_t *out; @@ -489,26 +514,36 @@ static void dump_regs(int fd, gem_set_domain(fd, regs, I915_GEM_DOMAIN_CPU, 0); for (const struct named_register *r = nonpriv_registers; r->name; r++) { + uint32_t offset; + if (!(r->engine_mask & engine_bit)) continue; if (!(r->gen_mask & gen_bit)) continue; + if (r->relative && !mmio_base) + continue; + + offset = r->offset; + if (r->relative) + offset += mmio_base; if (r->count <= 1) { igt_debug("0x%04x (%s): 0x%08x\n", - r->offset, r->name, out[r->offset/4]); + offset, r->name, out[offset / 4]); } else { for (unsigned x = 0; x < r->count; x++) igt_debug("0x%04x (%s[%d]): 0x%08x\n", - r->offset+4*x, r->name, x, - out[r->offset/4 + x]); + offset + 4 * x, r->name, x, + out[offset / 4 + x]); } } munmap(out, regs_size); } -static void compare_regs(int fd, uint32_t A, uint32_t B, const char *who) +static void compare_regs(int fd, const struct intel_execution_engine2 *e, + uint32_t A, uint32_t B, const char *who) { + const uint32_t mmio_base = gem_engine_mmio_base(fd, e->name); unsigned int num_errors; unsigned int regs_size; uint32_t *a, *b; @@ -532,11 +567,11 @@ static void compare_regs(int fd, uint32_t A, uint32_t B, const char *who) if (a[n] == b[n]) continue; - if (ignore_register(offset)) + if (ignore_register(offset, mmio_base)) continue; mask = ~0u; - r = lookup_register(offset); + r = lookup_register(offset, mmio_base); if (r && r->masked) mask >>= 16; if (r && r->ignore_bits) @@ -547,7 +582,7 @@ static void compare_regs(int fd, uint32_t A, uint32_t B, const char *who) igt_warn("Register 0x%04x (%s): A=%08x B=%08x\n", offset, - register_name(offset, buf, sizeof(buf)), + register_name(offset, mmio_base, buf, sizeof(buf)), a[n] & mask, b[n] & mask); num_errors++; } @@ -638,7 +673,7 @@ static void nonpriv(int fd, igt_spin_free(fd, spin); - compare_regs(fd, tmpl, regs[1], "nonpriv read/writes"); + compare_regs(fd, e, tmpl, regs[1], "nonpriv read/writes"); for (int n = 0; n < ARRAY_SIZE(regs); n++) gem_close(fd, regs[n]); @@ -708,8 +743,9 @@ static void isolation(int fd, igt_spin_free(fd, spin); if (!(flags & DIRTY1)) - compare_regs(fd, regs[0], tmp, "two reads of the same ctx"); - compare_regs(fd, regs[0], regs[1], "two virgin contexts"); + compare_regs(fd, e, regs[0], tmp, + "two reads of the same ctx"); + compare_regs(fd, e, regs[0], regs[1], "two virgin contexts"); for (int n = 0; n < ARRAY_SIZE(ctx); n++) { gem_close(fd, regs[n]); @@ -829,13 +865,13 @@ static void preservation(int fd, char buf[80]; snprintf(buf, sizeof(buf), "dirty %x context\n", values[v]); - compare_regs(fd, regs[v][0], regs[v][1], buf); + compare_regs(fd, e, regs[v][0], regs[v][1], buf); gem_close(fd, regs[v][0]); gem_close(fd, regs[v][1]); gem_context_destroy(fd, ctx[v]); } - compare_regs(fd, regs[num_values][0], regs[num_values][1], "clean"); + compare_regs(fd, e, regs[num_values][0], regs[num_values][1], "clean"); gem_context_destroy(fd, ctx[num_values]); } -- 2.25.0 _______________________________________________ Intel-gfx mailing list Intel-gfx@xxxxxxxxxxxxxxxxxxxxx https://lists.freedesktop.org/mailman/listinfo/intel-gfx