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|
/*
* © Copyright 2018 Alyssa Rosenzweig
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
*/
#include <sys/poll.h>
#include <errno.h>
#include "pan_context.h"
#include "pan_swizzle.h"
#include "pan_format.h"
#include "util/macros.h"
#include "util/u_format.h"
#include "util/u_inlines.h"
#include "util/u_upload_mgr.h"
#include "util/u_memory.h"
#include "util/half_float.h"
#include "indices/u_primconvert.h"
#include "tgsi/tgsi_parse.h"
#include "pan_screen.h"
#include "pan_blending.h"
#include "pan_blend_shaders.h"
#include "pan_util.h"
#include "pan_wallpaper.h"
static int performance_counter_number = 0;
extern const char *pan_counters_base;
/* Do not actually send anything to the GPU; merely generate the cmdstream as fast as possible. Disables framebuffer writes */
//#define DRY_RUN
/* AFBC is enabled on a per-resource basis (AFBC enabling is theoretically
* indepdent between color buffers and depth/stencil). To enable, we allocate
* the AFBC metadata buffer and mark that it is enabled. We do -not- actually
* edit the fragment job here. This routine should be called ONCE per
* AFBC-compressed buffer, rather than on every frame. */
static void
panfrost_enable_afbc(struct panfrost_context *ctx, struct panfrost_resource *rsrc, bool ds)
{
if (ctx->require_sfbd) {
DBG("AFBC not supported yet on SFBD\n");
assert(0);
}
struct pipe_context *gallium = (struct pipe_context *) ctx;
struct panfrost_screen *screen = pan_screen(gallium->screen);
/* AFBC metadata is 16 bytes per tile */
int tile_w = (rsrc->base.width0 + (MALI_TILE_LENGTH - 1)) >> MALI_TILE_SHIFT;
int tile_h = (rsrc->base.height0 + (MALI_TILE_LENGTH - 1)) >> MALI_TILE_SHIFT;
int bytes_per_pixel = util_format_get_blocksize(rsrc->base.format);
int stride = bytes_per_pixel * ALIGN(rsrc->base.width0, 16);
stride *= 2; /* TODO: Should this be carried over? */
int main_size = stride * rsrc->base.height0;
rsrc->bo->afbc_metadata_size = tile_w * tile_h * 16;
/* Allocate the AFBC slab itself, large enough to hold the above */
screen->driver->allocate_slab(screen, &rsrc->bo->afbc_slab,
(rsrc->bo->afbc_metadata_size + main_size + 4095) / 4096,
true, 0, 0, 0);
rsrc->bo->layout = PAN_AFBC;
/* Compressed textured reads use a tagged pointer to the metadata */
rsrc->bo->gpu = rsrc->bo->afbc_slab.gpu | (ds ? 0 : 1);
rsrc->bo->cpu = rsrc->bo->afbc_slab.cpu;
rsrc->bo->gem_handle = rsrc->bo->afbc_slab.gem_handle;
}
static void
panfrost_enable_checksum(struct panfrost_context *ctx, struct panfrost_resource *rsrc)
{
struct pipe_context *gallium = (struct pipe_context *) ctx;
struct panfrost_screen *screen = pan_screen(gallium->screen);
int tile_w = (rsrc->base.width0 + (MALI_TILE_LENGTH - 1)) >> MALI_TILE_SHIFT;
int tile_h = (rsrc->base.height0 + (MALI_TILE_LENGTH - 1)) >> MALI_TILE_SHIFT;
/* 8 byte checksum per tile */
rsrc->bo->checksum_stride = tile_w * 8;
int pages = (((rsrc->bo->checksum_stride * tile_h) + 4095) / 4096);
screen->driver->allocate_slab(screen, &rsrc->bo->checksum_slab, pages, false, 0, 0, 0);
rsrc->bo->has_checksum = true;
}
/* Framebuffer descriptor */
static void
panfrost_set_framebuffer_resolution(struct mali_single_framebuffer *fb, int w, int h)
{
fb->width = MALI_POSITIVE(w);
fb->height = MALI_POSITIVE(h);
/* No idea why this is needed, but it's how resolution_check is
* calculated. It's not clear to us yet why the hardware wants this.
* The formula itself was discovered mostly by manual bruteforce and
* aggressive algebraic simplification. */
fb->resolution_check = ((w + h) / 3) << 4;
}
struct mali_single_framebuffer
panfrost_emit_sfbd(struct panfrost_context *ctx)
{
struct mali_single_framebuffer framebuffer = {
.unknown2 = 0x1f,
.format = 0x30000000,
.clear_flags = 0x1000,
.unknown_address_0 = ctx->scratchpad.gpu,
.unknown_address_1 = ctx->misc_0.gpu,
.unknown_address_2 = ctx->misc_0.gpu + 40960,
.tiler_flags = 0xf0,
.tiler_heap_free = ctx->tiler_heap.gpu,
.tiler_heap_end = ctx->tiler_heap.gpu + ctx->tiler_heap.size,
};
panfrost_set_framebuffer_resolution(&framebuffer, ctx->pipe_framebuffer.width, ctx->pipe_framebuffer.height);
return framebuffer;
}
struct bifrost_framebuffer
panfrost_emit_mfbd(struct panfrost_context *ctx)
{
struct bifrost_framebuffer framebuffer = {
/* It is not yet clear what tiler_meta means or how it's
* calculated, but we can tell the lower 32-bits are a
* (monotonically increasing?) function of tile count and
* geometry complexity; I suspect it defines a memory size of
* some kind? for the tiler. It's really unclear at the
* moment... but to add to the confusion, the hardware is happy
* enough to accept a zero in this field, so we don't even have
* to worry about it right now.
*
* The byte (just after the 32-bit mark) is much more
* interesting. The higher nibble I've only ever seen as 0xF,
* but the lower one I've seen as 0x0 or 0xF, and it's not
* obvious what the difference is. But what -is- obvious is
* that when the lower nibble is zero, performance is severely
* degraded compared to when the lower nibble is set.
* Evidently, that nibble enables some sort of fast path,
* perhaps relating to caching or tile flush? Regardless, at
* this point there's no clear reason not to set it, aside from
* substantially increased memory requirements (of the misc_0
* buffer) */
.tiler_meta = ((uint64_t) 0xff << 32) | 0x0,
.width1 = MALI_POSITIVE(ctx->pipe_framebuffer.width),
.height1 = MALI_POSITIVE(ctx->pipe_framebuffer.height),
.width2 = MALI_POSITIVE(ctx->pipe_framebuffer.width),
.height2 = MALI_POSITIVE(ctx->pipe_framebuffer.height),
.unk1 = 0x1080,
/* TODO: MRT */
.rt_count_1 = MALI_POSITIVE(1),
.rt_count_2 = 4,
.unknown2 = 0x1f,
/* Corresponds to unknown_address_X of SFBD */
.scratchpad = ctx->scratchpad.gpu,
.tiler_scratch_start = ctx->misc_0.gpu,
/* The constant added here is, like the lower word of
* tiler_meta, (loosely) another product of framebuffer size
* and geometry complexity. It must be sufficiently large for
* the tiler_meta fast path to work; if it's too small, there
* will be DATA_INVALID_FAULTs. Conversely, it must be less
* than the total size of misc_0, or else there's no room. It's
* possible this constant configures a partition between two
* parts of misc_0? We haven't investigated the functionality,
* as these buffers are internally used by the hardware
* (presumably by the tiler) but not seemingly touched by the driver
*/
.tiler_scratch_middle = ctx->misc_0.gpu + 0xf0000,
.tiler_heap_start = ctx->tiler_heap.gpu,
.tiler_heap_end = ctx->tiler_heap.gpu + ctx->tiler_heap.size,
};
return framebuffer;
}
/* Are we currently rendering to the screen (rather than an FBO)? */
bool
panfrost_is_scanout(struct panfrost_context *ctx)
{
/* If there is no color buffer, it's an FBO */
if (!ctx->pipe_framebuffer.nr_cbufs)
return false;
/* If we're too early that no framebuffer was sent, it's scanout */
if (!ctx->pipe_framebuffer.cbufs[0])
return true;
return ctx->pipe_framebuffer.cbufs[0]->texture->bind & PIPE_BIND_DISPLAY_TARGET ||
ctx->pipe_framebuffer.cbufs[0]->texture->bind & PIPE_BIND_SCANOUT ||
ctx->pipe_framebuffer.cbufs[0]->texture->bind & PIPE_BIND_SHARED;
}
/* Maps float 0.0-1.0 to int 0x00-0xFF */
static uint8_t
normalised_float_to_u8(float f)
{
return (uint8_t) (int) (f * 255.0f);
}
static void
panfrost_clear(
struct pipe_context *pipe,
unsigned buffers,
const union pipe_color_union *color,
double depth, unsigned stencil)
{
struct panfrost_context *ctx = pan_context(pipe);
struct panfrost_job *job = panfrost_get_job_for_fbo(ctx);
if (buffers & PIPE_CLEAR_COLOR) {
/* Alpha clear only meaningful without alpha channel, TODO less ad hoc */
bool has_alpha = util_format_has_alpha(ctx->pipe_framebuffer.cbufs[0]->format);
float clear_alpha = has_alpha ? color->f[3] : 1.0f;
uint32_t packed_color =
(normalised_float_to_u8(clear_alpha) << 24) |
(normalised_float_to_u8(color->f[2]) << 16) |
(normalised_float_to_u8(color->f[1]) << 8) |
(normalised_float_to_u8(color->f[0]) << 0);
job->clear_color = packed_color;
}
if (buffers & PIPE_CLEAR_DEPTH) {
job->clear_depth = depth;
}
if (buffers & PIPE_CLEAR_STENCIL) {
job->clear_stencil = stencil;
}
job->clear |= buffers;
}
static mali_ptr
panfrost_attach_vt_mfbd(struct panfrost_context *ctx)
{
/* MFBD needs a sequential semi-render target upload, but what exactly this is, is beyond me for now */
struct bifrost_render_target rts_list[] = {
{
.chunknown = {
.unk = 0x30005,
},
.framebuffer = ctx->misc_0.gpu,
.zero2 = 0x3,
},
};
/* Allocate memory for the three components */
int size = 1024 + sizeof(ctx->vt_framebuffer_mfbd) + sizeof(rts_list);
struct panfrost_transfer transfer = panfrost_allocate_transient(ctx, size);
/* Opaque 1024-block */
rts_list[0].chunknown.pointer = transfer.gpu;
memcpy(transfer.cpu + 1024, &ctx->vt_framebuffer_mfbd, sizeof(ctx->vt_framebuffer_mfbd));
memcpy(transfer.cpu + 1024 + sizeof(ctx->vt_framebuffer_mfbd), rts_list, sizeof(rts_list));
return (transfer.gpu + 1024) | MALI_MFBD;
}
static mali_ptr
panfrost_attach_vt_sfbd(struct panfrost_context *ctx)
{
return panfrost_upload_transient(ctx, &ctx->vt_framebuffer_sfbd, sizeof(ctx->vt_framebuffer_sfbd)) | MALI_SFBD;
}
static void
panfrost_attach_vt_framebuffer(struct panfrost_context *ctx)
{
mali_ptr framebuffer = ctx->require_sfbd ?
panfrost_attach_vt_sfbd(ctx) :
panfrost_attach_vt_mfbd(ctx);
ctx->payload_vertex.postfix.framebuffer = framebuffer;
ctx->payload_tiler.postfix.framebuffer = framebuffer;
}
/* Reset per-frame context, called on context initialisation as well as after
* flushing a frame */
static void
panfrost_invalidate_frame(struct panfrost_context *ctx)
{
unsigned transient_count = ctx->transient_pools[ctx->cmdstream_i].entry_index*ctx->transient_pools[0].entry_size + ctx->transient_pools[ctx->cmdstream_i].entry_offset;
DBG("Uploaded transient %d bytes\n", transient_count);
/* Rotate cmdstream */
if ((++ctx->cmdstream_i) == (sizeof(ctx->transient_pools) / sizeof(ctx->transient_pools[0])))
ctx->cmdstream_i = 0;
if (ctx->require_sfbd)
ctx->vt_framebuffer_sfbd = panfrost_emit_sfbd(ctx);
else
ctx->vt_framebuffer_mfbd = panfrost_emit_mfbd(ctx);
/* Reset varyings allocated */
ctx->varying_height = 0;
/* The transient cmdstream is dirty every frame; the only bits worth preserving
* (textures, shaders, etc) are in other buffers anyways */
ctx->transient_pools[ctx->cmdstream_i].entry_index = 0;
ctx->transient_pools[ctx->cmdstream_i].entry_offset = 0;
/* Regenerate payloads */
panfrost_attach_vt_framebuffer(ctx);
if (ctx->rasterizer)
ctx->dirty |= PAN_DIRTY_RASTERIZER;
/* XXX */
ctx->dirty |= PAN_DIRTY_SAMPLERS | PAN_DIRTY_TEXTURES;
}
/* In practice, every field of these payloads should be configurable
* arbitrarily, which means these functions are basically catch-all's for
* as-of-yet unwavering unknowns */
static void
panfrost_emit_vertex_payload(struct panfrost_context *ctx)
{
struct midgard_payload_vertex_tiler payload = {
.prefix = {
.workgroups_z_shift = 32,
.workgroups_x_shift_2 = 0x2,
.workgroups_x_shift_3 = 0x5,
},
.gl_enables = 0x4 | (ctx->is_t6xx ? 0 : 0x2),
};
memcpy(&ctx->payload_vertex, &payload, sizeof(payload));
}
static void
panfrost_emit_tiler_payload(struct panfrost_context *ctx)
{
struct midgard_payload_vertex_tiler payload = {
.prefix = {
.workgroups_z_shift = 32,
.workgroups_x_shift_2 = 0x2,
.workgroups_x_shift_3 = 0x6,
.zero1 = 0xffff, /* Why is this only seen on test-quad-textured? */
},
};
memcpy(&ctx->payload_tiler, &payload, sizeof(payload));
}
static unsigned
translate_tex_wrap(enum pipe_tex_wrap w)
{
switch (w) {
case PIPE_TEX_WRAP_REPEAT:
return MALI_WRAP_REPEAT;
case PIPE_TEX_WRAP_CLAMP_TO_EDGE:
return MALI_WRAP_CLAMP_TO_EDGE;
case PIPE_TEX_WRAP_CLAMP_TO_BORDER:
return MALI_WRAP_CLAMP_TO_BORDER;
case PIPE_TEX_WRAP_MIRROR_REPEAT:
return MALI_WRAP_MIRRORED_REPEAT;
default:
assert(0);
return 0;
}
}
static unsigned
translate_tex_filter(enum pipe_tex_filter f)
{
switch (f) {
case PIPE_TEX_FILTER_NEAREST:
return MALI_NEAREST;
case PIPE_TEX_FILTER_LINEAR:
return MALI_LINEAR;
default:
assert(0);
return 0;
}
}
static unsigned
translate_mip_filter(enum pipe_tex_mipfilter f)
{
return (f == PIPE_TEX_MIPFILTER_LINEAR) ? MALI_MIP_LINEAR : 0;
}
static unsigned
panfrost_translate_compare_func(enum pipe_compare_func in)
{
switch (in) {
case PIPE_FUNC_NEVER:
return MALI_FUNC_NEVER;
case PIPE_FUNC_LESS:
return MALI_FUNC_LESS;
case PIPE_FUNC_EQUAL:
return MALI_FUNC_EQUAL;
case PIPE_FUNC_LEQUAL:
return MALI_FUNC_LEQUAL;
case PIPE_FUNC_GREATER:
return MALI_FUNC_GREATER;
case PIPE_FUNC_NOTEQUAL:
return MALI_FUNC_NOTEQUAL;
case PIPE_FUNC_GEQUAL:
return MALI_FUNC_GEQUAL;
case PIPE_FUNC_ALWAYS:
return MALI_FUNC_ALWAYS;
}
assert (0);
return 0; /* Unreachable */
}
static unsigned
panfrost_translate_alt_compare_func(enum pipe_compare_func in)
{
switch (in) {
case PIPE_FUNC_NEVER:
return MALI_ALT_FUNC_NEVER;
case PIPE_FUNC_LESS:
return MALI_ALT_FUNC_LESS;
case PIPE_FUNC_EQUAL:
return MALI_ALT_FUNC_EQUAL;
case PIPE_FUNC_LEQUAL:
return MALI_ALT_FUNC_LEQUAL;
case PIPE_FUNC_GREATER:
return MALI_ALT_FUNC_GREATER;
case PIPE_FUNC_NOTEQUAL:
return MALI_ALT_FUNC_NOTEQUAL;
case PIPE_FUNC_GEQUAL:
return MALI_ALT_FUNC_GEQUAL;
case PIPE_FUNC_ALWAYS:
return MALI_ALT_FUNC_ALWAYS;
}
assert (0);
return 0; /* Unreachable */
}
static unsigned
panfrost_translate_stencil_op(enum pipe_stencil_op in)
{
switch (in) {
case PIPE_STENCIL_OP_KEEP:
return MALI_STENCIL_KEEP;
case PIPE_STENCIL_OP_ZERO:
return MALI_STENCIL_ZERO;
case PIPE_STENCIL_OP_REPLACE:
return MALI_STENCIL_REPLACE;
case PIPE_STENCIL_OP_INCR:
return MALI_STENCIL_INCR;
case PIPE_STENCIL_OP_DECR:
return MALI_STENCIL_DECR;
case PIPE_STENCIL_OP_INCR_WRAP:
return MALI_STENCIL_INCR_WRAP;
case PIPE_STENCIL_OP_DECR_WRAP:
return MALI_STENCIL_DECR_WRAP;
case PIPE_STENCIL_OP_INVERT:
return MALI_STENCIL_INVERT;
}
assert (0);
return 0; /* Unreachable */
}
static void
panfrost_make_stencil_state(const struct pipe_stencil_state *in, struct mali_stencil_test *out)
{
out->ref = 0; /* Gallium gets it from elsewhere */
out->mask = in->valuemask;
out->func = panfrost_translate_compare_func(in->func);
out->sfail = panfrost_translate_stencil_op(in->fail_op);
out->dpfail = panfrost_translate_stencil_op(in->zfail_op);
out->dppass = panfrost_translate_stencil_op(in->zpass_op);
}
static void
panfrost_default_shader_backend(struct panfrost_context *ctx)
{
struct mali_shader_meta shader = {
.alpha_coverage = ~MALI_ALPHA_COVERAGE(0.000000),
.unknown2_3 = MALI_DEPTH_FUNC(MALI_FUNC_ALWAYS) | 0x3010,
.unknown2_4 = MALI_NO_MSAA | 0x4e0,
};
if (ctx->is_t6xx) {
shader.unknown2_4 |= 0x10;
}
struct pipe_stencil_state default_stencil = {
.enabled = 0,
.func = PIPE_FUNC_ALWAYS,
.fail_op = MALI_STENCIL_KEEP,
.zfail_op = MALI_STENCIL_KEEP,
.zpass_op = MALI_STENCIL_KEEP,
.writemask = 0xFF,
.valuemask = 0xFF
};
panfrost_make_stencil_state(&default_stencil, &shader.stencil_front);
shader.stencil_mask_front = default_stencil.writemask;
panfrost_make_stencil_state(&default_stencil, &shader.stencil_back);
shader.stencil_mask_back = default_stencil.writemask;
if (default_stencil.enabled)
shader.unknown2_4 |= MALI_STENCIL_TEST;
memcpy(&ctx->fragment_shader_core, &shader, sizeof(shader));
}
/* Generates a vertex/tiler job. This is, in some sense, the heart of the
* graphics command stream. It should be called once per draw, accordding to
* presentations. Set is_tiler for "tiler" jobs (fragment shader jobs, but in
* Mali parlance, "fragment" refers to framebuffer writeout). Clear it for
* vertex jobs. */
struct panfrost_transfer
panfrost_vertex_tiler_job(struct panfrost_context *ctx, bool is_tiler, bool is_elided_tiler)
{
/* Each draw call corresponds to two jobs, and we want to offset to leave room for the set-value job */
int draw_job_index = 1 + (2 * ctx->draw_count);
struct mali_job_descriptor_header job = {
.job_type = is_tiler ? JOB_TYPE_TILER : JOB_TYPE_VERTEX,
.job_index = draw_job_index + (is_tiler ? 1 : 0),
#ifdef __LP64__
.job_descriptor_size = 1,
#endif
};
/* Only non-elided tiler jobs have dependencies which are known at this point */
if (is_tiler && !is_elided_tiler) {
/* Tiler jobs depend on vertex jobs */
job.job_dependency_index_1 = draw_job_index;
/* Tiler jobs also depend on the previous tiler job */
if (ctx->draw_count)
job.job_dependency_index_2 = draw_job_index - 1;
}
struct midgard_payload_vertex_tiler *payload = is_tiler ? &ctx->payload_tiler : &ctx->payload_vertex;
/* There's some padding hacks on 32-bit */
#ifdef __LP64__
int offset = 0;
#else
int offset = 4;
#endif
struct panfrost_transfer transfer = panfrost_allocate_transient(ctx, sizeof(job) + sizeof(*payload));
memcpy(transfer.cpu, &job, sizeof(job));
memcpy(transfer.cpu + sizeof(job) - offset, payload, sizeof(*payload));
return transfer;
}
/* Generates a set value job. It's unclear what exactly this does, why it's
* necessary, and when to call it. */
static void
panfrost_set_value_job(struct panfrost_context *ctx)
{
struct mali_job_descriptor_header job = {
.job_type = JOB_TYPE_SET_VALUE,
.job_descriptor_size = 1,
.job_index = 1 + (2 * ctx->draw_count),
};
struct mali_payload_set_value payload = {
.out = ctx->misc_0.gpu,
.unknown = 0x3,
};
struct panfrost_transfer transfer = panfrost_allocate_transient(ctx, sizeof(job) + sizeof(payload));
memcpy(transfer.cpu, &job, sizeof(job));
memcpy(transfer.cpu + sizeof(job), &payload, sizeof(payload));
ctx->u_set_value_job = (struct mali_job_descriptor_header *) transfer.cpu;
ctx->set_value_job = transfer.gpu;
}
static mali_ptr
panfrost_emit_varyings(
struct panfrost_context *ctx,
union mali_attr *slot,
unsigned stride,
unsigned count)
{
mali_ptr varying_address = ctx->varying_mem.gpu + ctx->varying_height;
/* Fill out the descriptor */
slot->elements = varying_address | MALI_ATTR_LINEAR;
slot->stride = stride;
slot->size = stride * count;
ctx->varying_height += ALIGN(slot->size, 64);
assert(ctx->varying_height < ctx->varying_mem.size);
return varying_address;
}
static void
panfrost_emit_point_coord(union mali_attr *slot)
{
slot->elements = MALI_VARYING_POINT_COORD | MALI_ATTR_LINEAR;
slot->stride = slot->size = 0;
}
static void
panfrost_emit_varying_descriptor(
struct panfrost_context *ctx,
unsigned invocation_count)
{
/* Load the shaders */
struct panfrost_shader_state *vs = &ctx->vs->variants[ctx->vs->active_variant];
struct panfrost_shader_state *fs = &ctx->fs->variants[ctx->fs->active_variant];
/* Allocate the varying descriptor */
size_t vs_size = sizeof(struct mali_attr_meta) * vs->tripipe->varying_count;
size_t fs_size = sizeof(struct mali_attr_meta) * fs->tripipe->varying_count;
struct panfrost_transfer trans = panfrost_allocate_transient(ctx,
vs_size + fs_size);
memcpy(trans.cpu, vs->varyings, vs_size);
memcpy(trans.cpu + vs_size, fs->varyings, fs_size);
ctx->payload_vertex.postfix.varying_meta = trans.gpu;
ctx->payload_tiler.postfix.varying_meta = trans.gpu + vs_size;
/* Buffer indices must be in this order per our convention */
union mali_attr varyings[PIPE_MAX_ATTRIBS];
unsigned idx = 0;
/* General varyings -- use the VS's, since those are more likely to be
* accurate on desktop */
panfrost_emit_varyings(ctx, &varyings[idx++],
vs->general_varying_stride, invocation_count);
/* fp32 vec4 gl_Position */
ctx->payload_tiler.postfix.position_varying =
panfrost_emit_varyings(ctx, &varyings[idx++],
sizeof(float) * 4, invocation_count);
if (vs->writes_point_size || fs->reads_point_coord) {
/* fp16 vec1 gl_PointSize */
ctx->payload_tiler.primitive_size.pointer =
panfrost_emit_varyings(ctx, &varyings[idx++],
2, invocation_count);
}
if (fs->reads_point_coord) {
/* Special descriptor */
panfrost_emit_point_coord(&varyings[idx++]);
}
mali_ptr varyings_p = panfrost_upload_transient(ctx, &varyings, idx * sizeof(union mali_attr));
ctx->payload_vertex.postfix.varyings = varyings_p;
ctx->payload_tiler.postfix.varyings = varyings_p;
}
/* Emits attributes and varying descriptors, which should be called every draw,
* excepting some obscure circumstances */
static void
panfrost_emit_vertex_data(struct panfrost_context *ctx)
{
/* TODO: Only update the dirtied buffers */
union mali_attr attrs[PIPE_MAX_ATTRIBS];
unsigned invocation_count = MALI_NEGATIVE(ctx->payload_tiler.prefix.invocation_count);
for (int i = 0; i < ctx->vertex_buffer_count; ++i) {
struct pipe_vertex_buffer *buf = &ctx->vertex_buffers[i];
struct panfrost_resource *rsrc = (struct panfrost_resource *) (buf->buffer.resource);
/* Let's figure out the layout of the attributes in memory so
* we can be smart about size computation. The idea is to
* figure out the maximum src_offset, which tells us the latest
* spot a vertex could start. Meanwhile, we figure out the size
* of the attribute memory (assuming interleaved
* representation) and tack on the max src_offset for a
* reasonably good upper bound on the size.
*
* Proving correctness is left as an exercise to the reader.
*/
unsigned max_src_offset = 0;
for (unsigned j = 0; j < ctx->vertex->num_elements; ++j) {
if (ctx->vertex->pipe[j].vertex_buffer_index != i) continue;
max_src_offset = MAX2(max_src_offset, ctx->vertex->pipe[j].src_offset);
}
/* Offset vertex count by draw_start to make sure we upload enough */
attrs[i].stride = buf->stride;
attrs[i].size = buf->stride * (ctx->payload_vertex.draw_start + invocation_count) + max_src_offset;
/* Vertex elements are -already- GPU-visible, at
* rsrc->gpu. However, attribute buffers must be 64 aligned. If
* it is not, for now we have to duplicate the buffer. */
mali_ptr effective_address = rsrc ? (rsrc->bo->gpu + buf->buffer_offset) : 0;
if (effective_address) {
attrs[i].elements = panfrost_upload_transient(ctx, rsrc->bo->cpu + buf->buffer_offset, attrs[i].size) | MALI_ATTR_LINEAR;
} else if (effective_address) {
attrs[i].elements = effective_address | MALI_ATTR_LINEAR;
} else {
/* Leave unset? */
}
}
ctx->payload_vertex.postfix.attributes = panfrost_upload_transient(ctx, attrs, ctx->vertex_buffer_count * sizeof(union mali_attr));
panfrost_emit_varying_descriptor(ctx, invocation_count);
}
/* Go through dirty flags and actualise them in the cmdstream. */
void
panfrost_emit_for_draw(struct panfrost_context *ctx, bool with_vertex_data)
{
struct panfrost_job *job = panfrost_get_job_for_fbo(ctx);
if (with_vertex_data) {
panfrost_emit_vertex_data(ctx);
}
bool msaa = ctx->rasterizer->base.multisample;
if (ctx->dirty & PAN_DIRTY_RASTERIZER) {
ctx->payload_tiler.gl_enables = ctx->rasterizer->tiler_gl_enables;
/* TODO: Sample size */
SET_BIT(ctx->fragment_shader_core.unknown2_3, MALI_HAS_MSAA, msaa);
SET_BIT(ctx->fragment_shader_core.unknown2_4, MALI_NO_MSAA, !msaa);
}
/* Enable job requirements at draw-time */
if (msaa)
job->requirements |= PAN_REQ_MSAA;
if (ctx->depth_stencil->depth.writemask)
job->requirements |= PAN_REQ_DEPTH_WRITE;
if (ctx->occlusion_query) {
ctx->payload_tiler.gl_enables |= MALI_OCCLUSION_QUERY | MALI_OCCLUSION_PRECISE;
ctx->payload_tiler.postfix.occlusion_counter = ctx->occlusion_query->transfer.gpu;
}
if (ctx->dirty & PAN_DIRTY_VS) {
assert(ctx->vs);
struct panfrost_shader_state *vs = &ctx->vs->variants[ctx->vs->active_variant];
/* Late shader descriptor assignments */
vs->tripipe->texture_count = ctx->sampler_view_count[PIPE_SHADER_VERTEX];
vs->tripipe->sampler_count = ctx->sampler_count[PIPE_SHADER_VERTEX];
/* Who knows */
vs->tripipe->midgard1.unknown1 = 0x2201;
ctx->payload_vertex.postfix._shader_upper = vs->tripipe_gpu >> 4;
}
if (ctx->dirty & (PAN_DIRTY_RASTERIZER | PAN_DIRTY_VS)) {
/* Check if we need to link the gl_PointSize varying */
assert(ctx->vs);
struct panfrost_shader_state *vs = &ctx->vs->variants[ctx->vs->active_variant];
bool needs_gl_point_size = vs->writes_point_size && ctx->payload_tiler.prefix.draw_mode == MALI_POINTS;
if (!needs_gl_point_size) {
/* If the size is constant, write it out. Otherwise,
* don't touch primitive_size (since we would clobber
* the pointer there) */
ctx->payload_tiler.primitive_size.constant = ctx->rasterizer->base.line_width;
}
/* Set the flag for varying (pointer) point size if the shader needs that */
SET_BIT(ctx->payload_tiler.prefix.unknown_draw, MALI_DRAW_VARYING_SIZE, needs_gl_point_size);
}
/* TODO: Maybe dirty track FS, maybe not. For now, it's transient. */
if (ctx->fs)
ctx->dirty |= PAN_DIRTY_FS;
if (ctx->dirty & PAN_DIRTY_FS) {
assert(ctx->fs);
struct panfrost_shader_state *variant = &ctx->fs->variants[ctx->fs->active_variant];
#define COPY(name) ctx->fragment_shader_core.name = variant->tripipe->name
COPY(shader);
COPY(attribute_count);
COPY(varying_count);
COPY(midgard1.uniform_count);
COPY(midgard1.work_count);
COPY(midgard1.unknown2);
#undef COPY
/* If there is a blend shader, work registers are shared */
if (ctx->blend->has_blend_shader)
ctx->fragment_shader_core.midgard1.work_count = /*MAX2(ctx->fragment_shader_core.midgard1.work_count, ctx->blend->blend_work_count)*/16;
/* Set late due to depending on render state */
/* The one at the end seems to mean "1 UBO" */
ctx->fragment_shader_core.midgard1.unknown1 = MALI_NO_ALPHA_TO_COVERAGE | 0x200 | 0x2201;
/* Assign texture/sample count right before upload */
ctx->fragment_shader_core.texture_count = ctx->sampler_view_count[PIPE_SHADER_FRAGMENT];
ctx->fragment_shader_core.sampler_count = ctx->sampler_count[PIPE_SHADER_FRAGMENT];
/* Assign the stencil refs late */
ctx->fragment_shader_core.stencil_front.ref = ctx->stencil_ref.ref_value[0];
ctx->fragment_shader_core.stencil_back.ref = ctx->stencil_ref.ref_value[1];
/* CAN_DISCARD should be set if the fragment shader possibly
* contains a 'discard' instruction. It is likely this is
* related to optimizations related to forward-pixel kill, as
* per "Mali Performance 3: Is EGL_BUFFER_PRESERVED a good
* thing?" by Peter Harris
*/
if (variant->can_discard) {
ctx->fragment_shader_core.unknown2_3 |= MALI_CAN_DISCARD;
ctx->fragment_shader_core.midgard1.unknown1 &= ~MALI_NO_ALPHA_TO_COVERAGE;
ctx->fragment_shader_core.midgard1.unknown1 |= 0x4000;
ctx->fragment_shader_core.midgard1.unknown1 = 0x4200;
}
/* Check if we're using the default blend descriptor (fast path) */
bool no_blending =
!ctx->blend->has_blend_shader &&
(ctx->blend->equation.rgb_mode == 0x122) &&
(ctx->blend->equation.alpha_mode == 0x122) &&
(ctx->blend->equation.color_mask == 0xf);
if (ctx->require_sfbd) {
/* When only a single render target platform is used, the blend
* information is inside the shader meta itself. We
* additionally need to signal CAN_DISCARD for nontrivial blend
* modes (so we're able to read back the destination buffer) */
if (ctx->blend->has_blend_shader) {
ctx->fragment_shader_core.blend_shader = ctx->blend->blend_shader;
} else {
memcpy(&ctx->fragment_shader_core.blend_equation, &ctx->blend->equation, sizeof(ctx->blend->equation));
}
if (!no_blending) {
ctx->fragment_shader_core.unknown2_3 |= MALI_CAN_DISCARD;
}
}
size_t size = sizeof(struct mali_shader_meta) + sizeof(struct mali_blend_meta);
struct panfrost_transfer transfer = panfrost_allocate_transient(ctx, size);
memcpy(transfer.cpu, &ctx->fragment_shader_core, sizeof(struct mali_shader_meta));
ctx->payload_tiler.postfix._shader_upper = (transfer.gpu) >> 4;
if (!ctx->require_sfbd) {
/* Additional blend descriptor tacked on for jobs using MFBD */
unsigned blend_count = 0;
if (ctx->blend->has_blend_shader) {
/* For a blend shader, the bottom nibble corresponds to
* the number of work registers used, which signals the
* -existence- of a blend shader */
assert(ctx->blend->blend_work_count >= 2);
blend_count |= MIN2(ctx->blend->blend_work_count, 3);
} else {
/* Otherwise, the bottom bit simply specifies if
* blending (anything other than REPLACE) is enabled */
if (!no_blending)
blend_count |= 0x1;
}
/* Second blend equation is always a simple replace */
uint64_t replace_magic = 0xf0122122;
struct mali_blend_equation replace_mode;
memcpy(&replace_mode, &replace_magic, sizeof(replace_mode));
struct mali_blend_meta blend_meta[] = {
{
.unk1 = 0x200 | blend_count,
.blend_equation_1 = ctx->blend->equation,
.blend_equation_2 = replace_mode
},
};
if (ctx->blend->has_blend_shader)
memcpy(&blend_meta[0].blend_equation_1, &ctx->blend->blend_shader, sizeof(ctx->blend->blend_shader));
memcpy(transfer.cpu + sizeof(struct mali_shader_meta), blend_meta, sizeof(blend_meta));
}
}
if (ctx->dirty & PAN_DIRTY_VERTEX) {
ctx->payload_vertex.postfix.attribute_meta = ctx->vertex->descriptor_ptr;
}
if (ctx->dirty & PAN_DIRTY_SAMPLERS) {
/* Upload samplers back to back, no padding */
for (int t = 0; t <= PIPE_SHADER_FRAGMENT; ++t) {
if (!ctx->sampler_count[t]) continue;
struct panfrost_transfer transfer = panfrost_allocate_transient(ctx, sizeof(struct mali_sampler_descriptor) * ctx->sampler_count[t]);
struct mali_sampler_descriptor *desc = (struct mali_sampler_descriptor *) transfer.cpu;
for (int i = 0; i < ctx->sampler_count[t]; ++i) {
desc[i] = ctx->samplers[t][i]->hw;
}
if (t == PIPE_SHADER_FRAGMENT)
ctx->payload_tiler.postfix.sampler_descriptor = transfer.gpu;
else if (t == PIPE_SHADER_VERTEX)
ctx->payload_vertex.postfix.sampler_descriptor = transfer.gpu;
else
assert(0);
}
}
if (ctx->dirty & PAN_DIRTY_TEXTURES) {
for (int t = 0; t <= PIPE_SHADER_FRAGMENT; ++t) {
/* Shortcircuit */
if (!ctx->sampler_view_count[t]) continue;
uint64_t trampolines[PIPE_MAX_SHADER_SAMPLER_VIEWS];
for (int i = 0; i < ctx->sampler_view_count[t]; ++i) {
if (!ctx->sampler_views[t][i])
continue;
struct pipe_resource *tex_rsrc = ctx->sampler_views[t][i]->base.texture;
struct panfrost_resource *rsrc = (struct panfrost_resource *) tex_rsrc;
/* Inject the addresses in, interleaving cube
* faces and mip levels appropriately. */
for (int l = 0; l <= tex_rsrc->last_level; ++l) {
for (int f = 0; f < tex_rsrc->array_size; ++f) {
unsigned idx = (l * tex_rsrc->array_size) + f;
ctx->sampler_views[t][i]->hw.swizzled_bitmaps[idx] =
rsrc->bo->gpu +
rsrc->bo->slices[l].offset +
f * rsrc->bo->cubemap_stride;
}
}
trampolines[i] = panfrost_upload_transient(ctx, &ctx->sampler_views[t][i]->hw, sizeof(struct mali_texture_descriptor));
}
mali_ptr trampoline = panfrost_upload_transient(ctx, trampolines, sizeof(uint64_t) * ctx->sampler_view_count[t]);
if (t == PIPE_SHADER_FRAGMENT)
ctx->payload_tiler.postfix.texture_trampoline = trampoline;
else if (t == PIPE_SHADER_VERTEX)
ctx->payload_vertex.postfix.texture_trampoline = trampoline;
else
assert(0);
}
}
/* Generate the viewport vector of the form: <width/2, height/2, centerx, centery> */
const struct pipe_viewport_state *vp = &ctx->pipe_viewport;
/* For flipped-Y buffers (signaled by negative scale), the translate is
* flipped as well */
bool invert_y = vp->scale[1] < 0.0;
float translate_y = vp->translate[1];
if (invert_y)
translate_y = ctx->pipe_framebuffer.height - translate_y;
float viewport_vec4[] = {
vp->scale[0],
fabsf(vp->scale[1]),
vp->translate[0],
translate_y
};
for (int i = 0; i < PIPE_SHADER_TYPES; ++i) {
struct panfrost_constant_buffer *buf = &ctx->constant_buffer[i];
if (i == PIPE_SHADER_VERTEX || i == PIPE_SHADER_FRAGMENT) {
/* It doesn't matter if we don't use all the memory;
* we'd need a dummy UBO anyway. Compute the max */
size_t size = sizeof(viewport_vec4) + buf->size;
struct panfrost_transfer transfer = panfrost_allocate_transient(ctx, size);
/* Keep track how much we've uploaded */
off_t offset = 0;
if (i == PIPE_SHADER_VERTEX) {
/* Upload viewport */
memcpy(transfer.cpu + offset, viewport_vec4, sizeof(viewport_vec4));
offset += sizeof(viewport_vec4);
}
/* Upload uniforms */
memcpy(transfer.cpu + offset, buf->buffer, buf->size);
int uniform_count = 0;
struct mali_vertex_tiler_postfix *postfix;
switch (i) {
case PIPE_SHADER_VERTEX:
uniform_count = ctx->vs->variants[ctx->vs->active_variant].uniform_count;
postfix = &ctx->payload_vertex.postfix;
break;
case PIPE_SHADER_FRAGMENT:
uniform_count = ctx->fs->variants[ctx->fs->active_variant].uniform_count;
postfix = &ctx->payload_tiler.postfix;
break;
default:
DBG("Unknown shader stage %d in uniform upload\n", i);
assert(0);
}
/* Also attach the same buffer as a UBO for extended access */
struct mali_uniform_buffer_meta uniform_buffers[] = {
{
.size = MALI_POSITIVE((2 + uniform_count)),
.ptr = transfer.gpu >> 2,
},
};
mali_ptr ubufs = panfrost_upload_transient(ctx, uniform_buffers, sizeof(uniform_buffers));
postfix->uniforms = transfer.gpu;
postfix->uniform_buffers = ubufs;
buf->dirty = 0;
}
}
/* TODO: Upload the viewport somewhere more appropriate */
/* Clip bounds are encoded as floats. The viewport itself is encoded as
* (somewhat) asymmetric ints. */
const struct pipe_scissor_state *ss = &ctx->scissor;
struct mali_viewport view = {
/* By default, do no viewport clipping, i.e. clip to (-inf,
* inf) in each direction. Clipping to the viewport in theory
* should work, but in practice causes issues when we're not
* explicitly trying to scissor */
.clip_minx = -inff,
.clip_miny = -inff,
.clip_maxx = inff,
.clip_maxy = inff,
.clip_minz = 0.0,
.clip_maxz = 1.0,
};
/* Always scissor to the viewport by default. */
view.viewport0[0] = (int) (vp->translate[0] - vp->scale[0]);
view.viewport1[0] = MALI_POSITIVE((int) (vp->translate[0] + vp->scale[0]));
view.viewport0[1] = (int) (translate_y - fabs(vp->scale[1]));
view.viewport1[1] = MALI_POSITIVE((int) (translate_y + fabs(vp->scale[1])));
if (ss && ctx->rasterizer && ctx->rasterizer->base.scissor) {
/* Invert scissor if needed */
unsigned miny = invert_y ?
ctx->pipe_framebuffer.height - ss->maxy : ss->miny;
unsigned maxy = invert_y ?
ctx->pipe_framebuffer.height - ss->miny : ss->maxy;
/* Set the actual scissor */
view.viewport0[0] = ss->minx;
view.viewport0[1] = miny;
view.viewport1[0] = MALI_POSITIVE(ss->maxx);
view.viewport1[1] = MALI_POSITIVE(maxy);
}
ctx->payload_tiler.postfix.viewport =
panfrost_upload_transient(ctx,
&view,
sizeof(struct mali_viewport));
ctx->dirty = 0;
}
/* Corresponds to exactly one draw, but does not submit anything */
static void
panfrost_queue_draw(struct panfrost_context *ctx)
{
/* TODO: Expand the array? */
if (ctx->draw_count >= MAX_DRAW_CALLS) {
DBG("Job buffer overflow, ignoring draw\n");
assert(0);
}
/* Handle dirty flags now */
panfrost_emit_for_draw(ctx, true);
struct panfrost_transfer vertex = panfrost_vertex_tiler_job(ctx, false, false);
struct panfrost_transfer tiler = panfrost_vertex_tiler_job(ctx, true, false);
ctx->u_vertex_jobs[ctx->vertex_job_count] = (struct mali_job_descriptor_header *) vertex.cpu;
ctx->vertex_jobs[ctx->vertex_job_count++] = vertex.gpu;
ctx->u_tiler_jobs[ctx->tiler_job_count] = (struct mali_job_descriptor_header *) tiler.cpu;
ctx->tiler_jobs[ctx->tiler_job_count++] = tiler.gpu;
ctx->draw_count++;
}
/* At the end of the frame, the vertex and tiler jobs are linked together and
* then the fragment job is plonked at the end. Set value job is first for
* unknown reasons. */
static void
panfrost_link_job_pair(struct mali_job_descriptor_header *first, mali_ptr next)
{
if (first->job_descriptor_size)
first->next_job_64 = (u64) (uintptr_t) next;
else
first->next_job_32 = (u32) (uintptr_t) next;
}
static void
panfrost_link_jobs(struct panfrost_context *ctx)
{
if (ctx->draw_count) {
/* Generate the set_value_job */
panfrost_set_value_job(ctx);
/* Have the first vertex job depend on the set value job */
ctx->u_vertex_jobs[0]->job_dependency_index_1 = ctx->u_set_value_job->job_index;
/* SV -> V */
panfrost_link_job_pair(ctx->u_set_value_job, ctx->vertex_jobs[0]);
}
/* V -> V/T ; T -> T/null */
for (int i = 0; i < ctx->vertex_job_count; ++i) {
bool isLast = (i + 1) == ctx->vertex_job_count;
panfrost_link_job_pair(ctx->u_vertex_jobs[i], isLast ? ctx->tiler_jobs[0] : ctx->vertex_jobs[i + 1]);
}
/* T -> T/null */
for (int i = 0; i < ctx->tiler_job_count; ++i) {
bool isLast = (i + 1) == ctx->tiler_job_count;
panfrost_link_job_pair(ctx->u_tiler_jobs[i], isLast ? 0 : ctx->tiler_jobs[i + 1]);
}
}
/* The entire frame is in memory -- send it off to the kernel! */
static void
panfrost_submit_frame(struct panfrost_context *ctx, bool flush_immediate,
struct pipe_fence_handle **fence)
{
struct pipe_context *gallium = (struct pipe_context *) ctx;
struct panfrost_screen *screen = pan_screen(gallium->screen);
/* Edge case if screen is cleared and nothing else */
bool has_draws = ctx->draw_count > 0;
/* Workaround a bizarre lockup (a hardware errata?) */
if (!has_draws)
flush_immediate = true;
/* A number of jobs are batched -- this must be linked and cleared */
panfrost_link_jobs(ctx);
ctx->draw_count = 0;
ctx->vertex_job_count = 0;
ctx->tiler_job_count = 0;
#ifndef DRY_RUN
bool is_scanout = panfrost_is_scanout(ctx);
int fragment_id = screen->driver->submit_vs_fs_job(ctx, has_draws, is_scanout);
/* If visual, we can stall a frame */
if (!flush_immediate)
screen->driver->force_flush_fragment(ctx, fence);
screen->last_fragment_id = fragment_id;
screen->last_fragment_flushed = false;
/* If readback, flush now (hurts the pipelined performance) */
if (flush_immediate)
screen->driver->force_flush_fragment(ctx, fence);
if (screen->driver->dump_counters && pan_counters_base) {
screen->driver->dump_counters(screen);
char filename[128];
snprintf(filename, sizeof(filename), "%s/frame%d.mdgprf", pan_counters_base, ++performance_counter_number);
FILE *fp = fopen(filename, "wb");
fwrite(screen->perf_counters.cpu, 4096, sizeof(uint32_t), fp);
fclose(fp);
}
#endif
}
void
panfrost_flush(
struct pipe_context *pipe,
struct pipe_fence_handle **fence,
unsigned flags)
{
struct panfrost_context *ctx = pan_context(pipe);
struct panfrost_job *job = panfrost_get_job_for_fbo(ctx);
/* Nothing to do! */
if (!ctx->draw_count && !job->clear) return;
/* Whether to stall the pipeline for immediately correct results */
bool flush_immediate = flags & PIPE_FLUSH_END_OF_FRAME;
/* Submit the frame itself */
panfrost_submit_frame(ctx, flush_immediate, fence);
/* Prepare for the next frame */
panfrost_invalidate_frame(ctx);
}
#define DEFINE_CASE(c) case PIPE_PRIM_##c: return MALI_##c;
static int
g2m_draw_mode(enum pipe_prim_type mode)
{
switch (mode) {
DEFINE_CASE(POINTS);
DEFINE_CASE(LINES);
DEFINE_CASE(LINE_LOOP);
DEFINE_CASE(LINE_STRIP);
DEFINE_CASE(TRIANGLES);
DEFINE_CASE(TRIANGLE_STRIP);
DEFINE_CASE(TRIANGLE_FAN);
DEFINE_CASE(QUADS);
DEFINE_CASE(QUAD_STRIP);
DEFINE_CASE(POLYGON);
default:
DBG("Illegal draw mode %d\n", mode);
assert(0);
return MALI_LINE_LOOP;
}
}
#undef DEFINE_CASE
static unsigned
panfrost_translate_index_size(unsigned size)
{
switch (size) {
case 1:
return MALI_DRAW_INDEXED_UINT8;
case 2:
return MALI_DRAW_INDEXED_UINT16;
case 4:
return MALI_DRAW_INDEXED_UINT32;
default:
DBG("Unknown index size %d\n", size);
assert(0);
return 0;
}
}
static const uint8_t *
panfrost_get_index_buffer_raw(const struct pipe_draw_info *info)
{
if (info->has_user_indices) {
return (const uint8_t *) info->index.user;
} else {
struct panfrost_resource *rsrc = (struct panfrost_resource *) (info->index.resource);
return (const uint8_t *) rsrc->bo->cpu;
}
}
/* Gets a GPU address for the associated index buffer. Only gauranteed to be
* good for the duration of the draw (transient), could last longer */
static mali_ptr
panfrost_get_index_buffer_mapped(struct panfrost_context *ctx, const struct pipe_draw_info *info)
{
struct panfrost_resource *rsrc = (struct panfrost_resource *) (info->index.resource);
off_t offset = info->start * info->index_size;
if (!info->has_user_indices) {
/* Only resources can be directly mapped */
return rsrc->bo->gpu + offset;
} else {
/* Otherwise, we need to upload to transient memory */
const uint8_t *ibuf8 = panfrost_get_index_buffer_raw(info);
return panfrost_upload_transient(ctx, ibuf8 + offset, info->count * info->index_size);
}
}
#define CALCULATE_MIN_MAX_INDEX(T, buffer, start, count) \
for (unsigned _idx = (start); _idx < (start + count); ++_idx) { \
T idx = buffer[_idx]; \
if (idx > max_index) max_index = idx; \
if (idx < min_index) min_index = idx; \
}
static void
panfrost_draw_vbo(
struct pipe_context *pipe,
const struct pipe_draw_info *info)
{
struct panfrost_context *ctx = pan_context(pipe);
ctx->payload_vertex.draw_start = info->start;
ctx->payload_tiler.draw_start = info->start;
int mode = info->mode;
/* Fallback for unsupported modes */
if (!(ctx->draw_modes & (1 << mode))) {
if (mode == PIPE_PRIM_QUADS && info->count == 4 && ctx->rasterizer && !ctx->rasterizer->base.flatshade) {
mode = PIPE_PRIM_TRIANGLE_FAN;
} else {
if (info->count < 4) {
/* Degenerate case? */
return;
}
util_primconvert_save_rasterizer_state(ctx->primconvert, &ctx->rasterizer->base);
util_primconvert_draw_vbo(ctx->primconvert, info);
return;
}
}
/* Now that we have a guaranteed terminating path, find the job.
* Assignment commented out to prevent unused warning */
/* struct panfrost_job *job = */ panfrost_get_job_for_fbo(ctx);
ctx->payload_tiler.prefix.draw_mode = g2m_draw_mode(mode);
ctx->vertex_count = info->count;
/* For non-indexed draws, they're the same */
unsigned invocation_count = ctx->vertex_count;
/* For higher amounts of vertices (greater than what fits in a 16-bit
* short), the other value is needed, otherwise there will be bizarre
* rendering artefacts. It's not clear what these values mean yet. */
ctx->payload_tiler.prefix.unknown_draw &= ~(0x3000 | 0x18000);
ctx->payload_tiler.prefix.unknown_draw |= (mode == PIPE_PRIM_POINTS || ctx->vertex_count > 65535) ? 0x3000 : 0x18000;
/* Clean index state */
ctx->payload_tiler.prefix.unknown_draw &= ~MALI_DRAW_INDEXED_UINT32;
if (info->index_size) {
/* Calculate the min/max index used so we can figure out how
* many times to invoke the vertex shader */
const uint8_t *ibuf8 = panfrost_get_index_buffer_raw(info);
unsigned min_index = UINT_MAX;
unsigned max_index = 0;
if (info->index_size == 1) {
CALCULATE_MIN_MAX_INDEX(uint8_t, ibuf8, info->start, info->count);
} else if (info->index_size == 2) {
const uint16_t *ibuf16 = (const uint16_t *) ibuf8;
CALCULATE_MIN_MAX_INDEX(uint16_t, ibuf16, info->start, info->count);
} else if (info->index_size == 4) {
const uint32_t *ibuf32 = (const uint32_t *) ibuf8;
CALCULATE_MIN_MAX_INDEX(uint32_t, ibuf32, info->start, info->count);
} else {
assert(0);
}
/* Make sure we didn't go crazy */
assert(min_index < UINT_MAX);
assert(max_index >= min_index);
/* Use the corresponding values */
invocation_count = max_index - min_index + 1;
ctx->payload_vertex.draw_start = min_index;
ctx->payload_tiler.draw_start = min_index;
ctx->payload_tiler.prefix.negative_start = -min_index;
ctx->payload_tiler.prefix.index_count = MALI_POSITIVE(info->count);
//assert(!info->restart_index); /* TODO: Research */
assert(!info->index_bias);
//assert(!info->min_index); /* TODO: Use value */
ctx->payload_tiler.prefix.unknown_draw |= panfrost_translate_index_size(info->index_size);
ctx->payload_tiler.prefix.indices = panfrost_get_index_buffer_mapped(ctx, info);
} else {
/* Index count == vertex count, if no indexing is applied, as
* if it is internally indexed in the expected order */
ctx->payload_tiler.prefix.negative_start = 0;
ctx->payload_tiler.prefix.index_count = MALI_POSITIVE(ctx->vertex_count);
/* Reverse index state */
ctx->payload_tiler.prefix.indices = (uintptr_t) NULL;
}
ctx->payload_vertex.prefix.invocation_count = MALI_POSITIVE(invocation_count);
ctx->payload_tiler.prefix.invocation_count = MALI_POSITIVE(invocation_count);
/* Fire off the draw itself */
panfrost_queue_draw(ctx);
}
/* CSO state */
static void
panfrost_generic_cso_delete(struct pipe_context *pctx, void *hwcso)
{
free(hwcso);
}
static void *
panfrost_create_rasterizer_state(
struct pipe_context *pctx,
const struct pipe_rasterizer_state *cso)
{
struct panfrost_context *ctx = pan_context(pctx);
struct panfrost_rasterizer *so = CALLOC_STRUCT(panfrost_rasterizer);
so->base = *cso;
/* Bitmask, unknown meaning of the start value */
so->tiler_gl_enables = ctx->is_t6xx ? 0x105 : 0x7;
so->tiler_gl_enables |= MALI_FRONT_FACE(
cso->front_ccw ? MALI_CCW : MALI_CW);
if (cso->cull_face & PIPE_FACE_FRONT)
so->tiler_gl_enables |= MALI_CULL_FACE_FRONT;
if (cso->cull_face & PIPE_FACE_BACK)
so->tiler_gl_enables |= MALI_CULL_FACE_BACK;
return so;
}
static void
panfrost_bind_rasterizer_state(
struct pipe_context *pctx,
void *hwcso)
{
struct panfrost_context *ctx = pan_context(pctx);
/* TODO: Why can't rasterizer be NULL ever? Other drivers are fine.. */
if (!hwcso)
return;
ctx->rasterizer = hwcso;
ctx->dirty |= PAN_DIRTY_RASTERIZER;
}
static void *
panfrost_create_vertex_elements_state(
struct pipe_context *pctx,
unsigned num_elements,
const struct pipe_vertex_element *elements)
{
struct panfrost_context *ctx = pan_context(pctx);
struct panfrost_vertex_state *so = CALLOC_STRUCT(panfrost_vertex_state);
so->num_elements = num_elements;
memcpy(so->pipe, elements, sizeof(*elements) * num_elements);
struct panfrost_transfer transfer = panfrost_allocate_chunk(ctx, sizeof(struct mali_attr_meta) * num_elements, HEAP_DESCRIPTOR);
so->hw = (struct mali_attr_meta *) transfer.cpu;
so->descriptor_ptr = transfer.gpu;
/* Allocate memory for the descriptor state */
for (int i = 0; i < num_elements; ++i) {
so->hw[i].index = elements[i].vertex_buffer_index;
enum pipe_format fmt = elements[i].src_format;
const struct util_format_description *desc = util_format_description(fmt);
so->hw[i].unknown1 = 0x2;
so->hw[i].swizzle = panfrost_get_default_swizzle(desc->nr_channels);
so->hw[i].format = panfrost_find_format(desc);
/* The field itself should probably be shifted over */
so->hw[i].src_offset = elements[i].src_offset;
}
return so;
}
static void
panfrost_bind_vertex_elements_state(
struct pipe_context *pctx,
void *hwcso)
{
struct panfrost_context *ctx = pan_context(pctx);
ctx->vertex = hwcso;
ctx->dirty |= PAN_DIRTY_VERTEX;
}
static void
panfrost_delete_vertex_elements_state(struct pipe_context *pctx, void *hwcso)
{
struct panfrost_vertex_state *so = (struct panfrost_vertex_state *) hwcso;
unsigned bytes = sizeof(struct mali_attr_meta) * so->num_elements;
DBG("Vertex elements delete leaks descriptor (%d bytes)\n", bytes);
free(hwcso);
}
static void *
panfrost_create_shader_state(
struct pipe_context *pctx,
const struct pipe_shader_state *cso)
{
struct panfrost_shader_variants *so = CALLOC_STRUCT(panfrost_shader_variants);
so->base = *cso;
/* Token deep copy to prevent memory corruption */
if (cso->type == PIPE_SHADER_IR_TGSI)
so->base.tokens = tgsi_dup_tokens(so->base.tokens);
return so;
}
static void
panfrost_delete_shader_state(
struct pipe_context *pctx,
void *so)
{
struct panfrost_shader_variants *cso = (struct panfrost_shader_variants *) so;
if (cso->base.type == PIPE_SHADER_IR_TGSI) {
DBG("Deleting TGSI shader leaks duplicated tokens\n");
}
unsigned leak = cso->variant_count * sizeof(struct mali_shader_meta);
DBG("Deleting shader state leaks descriptors (%d bytes), and shader bytecode\n", leak);
free(so);
}
static void *
panfrost_create_sampler_state(
struct pipe_context *pctx,
const struct pipe_sampler_state *cso)
{
struct panfrost_sampler_state *so = CALLOC_STRUCT(panfrost_sampler_state);
so->base = *cso;
/* sampler_state corresponds to mali_sampler_descriptor, which we can generate entirely here */
struct mali_sampler_descriptor sampler_descriptor = {
.filter_mode = MALI_TEX_MIN(translate_tex_filter(cso->min_img_filter))
| MALI_TEX_MAG(translate_tex_filter(cso->mag_img_filter))
| translate_mip_filter(cso->min_mip_filter)
| 0x20,
.wrap_s = translate_tex_wrap(cso->wrap_s),
.wrap_t = translate_tex_wrap(cso->wrap_t),
.wrap_r = translate_tex_wrap(cso->wrap_r),
.compare_func = panfrost_translate_alt_compare_func(cso->compare_func),
.border_color = {
cso->border_color.f[0],
cso->border_color.f[1],
cso->border_color.f[2],
cso->border_color.f[3]
},
.min_lod = FIXED_16(cso->min_lod),
.max_lod = FIXED_16(cso->max_lod),
.unknown2 = 1,
};
so->hw = sampler_descriptor;
return so;
}
static void
panfrost_bind_sampler_states(
struct pipe_context *pctx,
enum pipe_shader_type shader,
unsigned start_slot, unsigned num_sampler,
void **sampler)
{
assert(start_slot == 0);
struct panfrost_context *ctx = pan_context(pctx);
/* XXX: Should upload, not just copy? */
ctx->sampler_count[shader] = num_sampler;
memcpy(ctx->samplers[shader], sampler, num_sampler * sizeof (void *));
ctx->dirty |= PAN_DIRTY_SAMPLERS;
}
static bool
panfrost_variant_matches(struct panfrost_context *ctx, struct panfrost_shader_state *variant)
{
struct pipe_alpha_state *alpha = &ctx->depth_stencil->alpha;
if (alpha->enabled || variant->alpha_state.enabled) {
/* Make sure enable state is at least the same */
if (alpha->enabled != variant->alpha_state.enabled) {
return false;
}
/* Check that the contents of the test are the same */
bool same_func = alpha->func == variant->alpha_state.func;
bool same_ref = alpha->ref_value == variant->alpha_state.ref_value;
if (!(same_func && same_ref)) {
return false;
}
}
/* Otherwise, we're good to go */
return true;
}
static void
panfrost_bind_fs_state(
struct pipe_context *pctx,
void *hwcso)
{
struct panfrost_context *ctx = pan_context(pctx);
ctx->fs = hwcso;
if (hwcso) {
/* Match the appropriate variant */
signed variant = -1;
struct panfrost_shader_variants *variants = (struct panfrost_shader_variants *) hwcso;
for (unsigned i = 0; i < variants->variant_count; ++i) {
if (panfrost_variant_matches(ctx, &variants->variants[i])) {
variant = i;
break;
}
}
if (variant == -1) {
/* No variant matched, so create a new one */
variant = variants->variant_count++;
assert(variants->variant_count < MAX_SHADER_VARIANTS);
variants->variants[variant].base = hwcso;
variants->variants[variant].alpha_state = ctx->depth_stencil->alpha;
/* Allocate the mapped descriptor ahead-of-time. TODO: Use for FS as well as VS */
struct panfrost_context *ctx = pan_context(pctx);
struct panfrost_transfer transfer = panfrost_allocate_chunk(ctx, sizeof(struct mali_shader_meta), HEAP_DESCRIPTOR);
variants->variants[variant].tripipe = (struct mali_shader_meta *) transfer.cpu;
variants->variants[variant].tripipe_gpu = transfer.gpu;
}
/* Select this variant */
variants->active_variant = variant;
struct panfrost_shader_state *shader_state = &variants->variants[variant];
assert(panfrost_variant_matches(ctx, shader_state));
/* Now we have a variant selected, so compile and go */
if (!shader_state->compiled) {
panfrost_shader_compile(ctx, shader_state->tripipe, NULL, JOB_TYPE_TILER, shader_state);
shader_state->compiled = true;
}
}
ctx->dirty |= PAN_DIRTY_FS;
}
static void
panfrost_bind_vs_state(
struct pipe_context *pctx,
void *hwcso)
{
struct panfrost_context *ctx = pan_context(pctx);
ctx->vs = hwcso;
if (hwcso) {
if (!ctx->vs->variants[0].compiled) {
ctx->vs->variants[0].base = hwcso;
/* TODO DRY from above */
struct panfrost_transfer transfer = panfrost_allocate_chunk(ctx, sizeof(struct mali_shader_meta), HEAP_DESCRIPTOR);
ctx->vs->variants[0].tripipe = (struct mali_shader_meta *) transfer.cpu;
ctx->vs->variants[0].tripipe_gpu = transfer.gpu;
panfrost_shader_compile(ctx, ctx->vs->variants[0].tripipe, NULL, JOB_TYPE_VERTEX, &ctx->vs->variants[0]);
ctx->vs->variants[0].compiled = true;
}
}
ctx->dirty |= PAN_DIRTY_VS;
}
static void
panfrost_set_vertex_buffers(
struct pipe_context *pctx,
unsigned start_slot,
unsigned num_buffers,
const struct pipe_vertex_buffer *buffers)
{
struct panfrost_context *ctx = pan_context(pctx);
assert(num_buffers <= PIPE_MAX_ATTRIBS);
/* XXX: Dirty tracking? etc */
if (buffers) {
size_t sz = sizeof(buffers[0]) * num_buffers;
ctx->vertex_buffers = malloc(sz);
ctx->vertex_buffer_count = num_buffers;
memcpy(ctx->vertex_buffers, buffers, sz);
} else {
if (ctx->vertex_buffers) {
free(ctx->vertex_buffers);
ctx->vertex_buffers = NULL;
}
ctx->vertex_buffer_count = 0;
}
}
static void
panfrost_set_constant_buffer(
struct pipe_context *pctx,
enum pipe_shader_type shader, uint index,
const struct pipe_constant_buffer *buf)
{
struct panfrost_context *ctx = pan_context(pctx);
struct panfrost_constant_buffer *pbuf = &ctx->constant_buffer[shader];
size_t sz = buf ? buf->buffer_size : 0;
/* Free previous buffer */
pbuf->dirty = true;
pbuf->size = sz;
if (pbuf->buffer) {
free(pbuf->buffer);
pbuf->buffer = NULL;
}
/* If unbinding, we're done */
if (!buf)
return;
/* Multiple constant buffers not yet supported */
assert(index == 0);
const uint8_t *cpu;
struct panfrost_resource *rsrc = (struct panfrost_resource *) (buf->buffer);
if (rsrc) {
cpu = rsrc->bo->cpu;
} else if (buf->user_buffer) {
cpu = buf->user_buffer;
} else {
DBG("No constant buffer?\n");
return;
}
/* Copy the constant buffer into the driver context for later upload */
pbuf->buffer = malloc(sz);
memcpy(pbuf->buffer, cpu + buf->buffer_offset, sz);
}
static void
panfrost_set_stencil_ref(
struct pipe_context *pctx,
const struct pipe_stencil_ref *ref)
{
struct panfrost_context *ctx = pan_context(pctx);
ctx->stencil_ref = *ref;
/* Shader core dirty */
ctx->dirty |= PAN_DIRTY_FS;
}
static struct pipe_sampler_view *
panfrost_create_sampler_view(
struct pipe_context *pctx,
struct pipe_resource *texture,
const struct pipe_sampler_view *template)
{
struct panfrost_sampler_view *so = CALLOC_STRUCT(panfrost_sampler_view);
int bytes_per_pixel = util_format_get_blocksize(texture->format);
pipe_reference(NULL, &texture->reference);
struct panfrost_resource *prsrc = (struct panfrost_resource *) texture;
so->base = *template;
so->base.texture = texture;
so->base.reference.count = 1;
so->base.context = pctx;
/* sampler_views correspond to texture descriptors, minus the texture
* (data) itself. So, we serialise the descriptor here and cache it for
* later. */
/* Make sure it's something with which we're familiar */
assert(bytes_per_pixel >= 1 && bytes_per_pixel <= 4);
/* TODO: Detect from format better */
const struct util_format_description *desc = util_format_description(prsrc->base.format);
unsigned char user_swizzle[4] = {
template->swizzle_r,
template->swizzle_g,
template->swizzle_b,
template->swizzle_a
};
enum mali_format format = panfrost_find_format(desc);
bool is_depth = desc->format == PIPE_FORMAT_Z32_UNORM;
unsigned usage2_layout = 0x10;
switch (prsrc->bo->layout) {
case PAN_AFBC:
usage2_layout |= 0x8 | 0x4;
break;
case PAN_TILED:
usage2_layout |= 0x1;
break;
case PAN_LINEAR:
usage2_layout |= is_depth ? 0x1 : 0x2;
break;
default:
assert(0);
break;
}
struct mali_texture_descriptor texture_descriptor = {
.width = MALI_POSITIVE(texture->width0),
.height = MALI_POSITIVE(texture->height0),
.depth = MALI_POSITIVE(texture->depth0),
/* TODO: Decode */
.format = {
.swizzle = panfrost_translate_swizzle_4(desc->swizzle),
.format = format,
.usage1 = 0x0,
.is_not_cubemap = texture->target != PIPE_TEXTURE_CUBE,
.usage2 = usage2_layout
},
.swizzle = panfrost_translate_swizzle_4(user_swizzle)
};
/* TODO: Other base levels require adjusting dimensions / level numbers / etc */
assert (template->u.tex.first_level == 0);
/* Disable mipmapping for now to avoid regressions while automipmapping
* is being implemented. TODO: Remove me once automipmaps work */
//texture_descriptor.nr_mipmap_levels = template->u.tex.last_level - template->u.tex.first_level;
texture_descriptor.nr_mipmap_levels = 0;
so->hw = texture_descriptor;
return (struct pipe_sampler_view *) so;
}
static void
panfrost_set_sampler_views(
struct pipe_context *pctx,
enum pipe_shader_type shader,
unsigned start_slot, unsigned num_views,
struct pipe_sampler_view **views)
{
struct panfrost_context *ctx = pan_context(pctx);
assert(start_slot == 0);
ctx->sampler_view_count[shader] = num_views;
memcpy(ctx->sampler_views[shader], views, num_views * sizeof (void *));
ctx->dirty |= PAN_DIRTY_TEXTURES;
}
static void
panfrost_sampler_view_destroy(
struct pipe_context *pctx,
struct pipe_sampler_view *views)
{
//struct panfrost_context *ctx = pan_context(pctx);
/* TODO */
free(views);
}
static void
panfrost_set_framebuffer_state(struct pipe_context *pctx,
const struct pipe_framebuffer_state *fb)
{
struct panfrost_context *ctx = pan_context(pctx);
/* Flush when switching away from an FBO */
if (!panfrost_is_scanout(ctx)) {
panfrost_flush(pctx, NULL, 0);
}
ctx->pipe_framebuffer.nr_cbufs = fb->nr_cbufs;
ctx->pipe_framebuffer.samples = fb->samples;
ctx->pipe_framebuffer.layers = fb->layers;
ctx->pipe_framebuffer.width = fb->width;
ctx->pipe_framebuffer.height = fb->height;
for (int i = 0; i < PIPE_MAX_COLOR_BUFS; i++) {
struct pipe_surface *cb = i < fb->nr_cbufs ? fb->cbufs[i] : NULL;
/* check if changing cbuf */
if (ctx->pipe_framebuffer.cbufs[i] == cb) continue;
if (cb && (i != 0)) {
DBG("XXX: Multiple render targets not supported before t7xx!\n");
assert(0);
}
/* assign new */
pipe_surface_reference(&ctx->pipe_framebuffer.cbufs[i], cb);
if (!cb)
continue;
if (ctx->require_sfbd)
ctx->vt_framebuffer_sfbd = panfrost_emit_sfbd(ctx);
else
ctx->vt_framebuffer_mfbd = panfrost_emit_mfbd(ctx);
panfrost_attach_vt_framebuffer(ctx);
struct panfrost_resource *tex = ((struct panfrost_resource *) ctx->pipe_framebuffer.cbufs[i]->texture);
bool is_scanout = panfrost_is_scanout(ctx);
if (!is_scanout && tex->bo->layout != PAN_AFBC) {
/* The blob is aggressive about enabling AFBC. As such,
* it's pretty much necessary to use it here, since we
* have no traces of non-compressed FBO. */
panfrost_enable_afbc(ctx, tex, false);
}
if (!is_scanout && !tex->bo->has_checksum) {
/* Enable transaction elimination if we can */
panfrost_enable_checksum(ctx, tex);
}
}
{
struct pipe_surface *zb = fb->zsbuf;
if (ctx->pipe_framebuffer.zsbuf != zb) {
pipe_surface_reference(&ctx->pipe_framebuffer.zsbuf, zb);
if (zb) {
/* FBO has depth */
if (ctx->require_sfbd)
ctx->vt_framebuffer_sfbd = panfrost_emit_sfbd(ctx);
else
ctx->vt_framebuffer_mfbd = panfrost_emit_mfbd(ctx);
panfrost_attach_vt_framebuffer(ctx);
/* Keep the depth FBO linear */
}
}
}
}
static void *
panfrost_create_blend_state(struct pipe_context *pipe,
const struct pipe_blend_state *blend)
{
struct panfrost_context *ctx = pan_context(pipe);
struct panfrost_blend_state *so = CALLOC_STRUCT(panfrost_blend_state);
so->base = *blend;
/* TODO: The following features are not yet implemented */
assert(!blend->logicop_enable);
assert(!blend->alpha_to_coverage);
assert(!blend->alpha_to_one);
/* Compile the blend state, first as fixed-function if we can */
if (panfrost_make_fixed_blend_mode(&blend->rt[0], &so->equation, blend->rt[0].colormask, &ctx->blend_color))
return so;
/* If we can't, compile a blend shader instead */
panfrost_make_blend_shader(ctx, so, &ctx->blend_color);
return so;
}
static void
panfrost_bind_blend_state(struct pipe_context *pipe,
void *cso)
{
struct panfrost_context *ctx = pan_context(pipe);
struct pipe_blend_state *blend = (struct pipe_blend_state *) cso;
struct panfrost_blend_state *pblend = (struct panfrost_blend_state *) cso;
ctx->blend = pblend;
if (!blend)
return;
SET_BIT(ctx->fragment_shader_core.unknown2_4, MALI_NO_DITHER, !blend->dither);
/* TODO: Attach color */
/* Shader itself is not dirty, but the shader core is */
ctx->dirty |= PAN_DIRTY_FS;
}
static void
panfrost_delete_blend_state(struct pipe_context *pipe,
void *blend)
{
struct panfrost_blend_state *so = (struct panfrost_blend_state *) blend;
if (so->has_blend_shader) {
DBG("Deleting blend state leak blend shaders bytecode\n");
}
free(blend);
}
static void
panfrost_set_blend_color(struct pipe_context *pipe,
const struct pipe_blend_color *blend_color)
{
struct panfrost_context *ctx = pan_context(pipe);
/* If blend_color is we're unbinding, so ctx->blend_color is now undefined -> nothing to do */
if (blend_color) {
ctx->blend_color = *blend_color;
/* The blend mode depends on the blend constant color, due to the
* fixed/programmable split. So, we're forced to regenerate the blend
* equation */
/* TODO: Attach color */
}
}
static void *
panfrost_create_depth_stencil_state(struct pipe_context *pipe,
const struct pipe_depth_stencil_alpha_state *depth_stencil)
{
return mem_dup(depth_stencil, sizeof(*depth_stencil));
}
static void
panfrost_bind_depth_stencil_state(struct pipe_context *pipe,
void *cso)
{
struct panfrost_context *ctx = pan_context(pipe);
struct pipe_depth_stencil_alpha_state *depth_stencil = cso;
ctx->depth_stencil = depth_stencil;
if (!depth_stencil)
return;
/* Alpha does not exist in the hardware (it's not in ES3), so it's
* emulated in the fragment shader */
if (depth_stencil->alpha.enabled) {
/* We need to trigger a new shader (maybe) */
ctx->base.bind_fs_state(&ctx->base, ctx->fs);
}
/* Stencil state */
SET_BIT(ctx->fragment_shader_core.unknown2_4, MALI_STENCIL_TEST, depth_stencil->stencil[0].enabled); /* XXX: which one? */
panfrost_make_stencil_state(&depth_stencil->stencil[0], &ctx->fragment_shader_core.stencil_front);
ctx->fragment_shader_core.stencil_mask_front = depth_stencil->stencil[0].writemask;
panfrost_make_stencil_state(&depth_stencil->stencil[1], &ctx->fragment_shader_core.stencil_back);
ctx->fragment_shader_core.stencil_mask_back = depth_stencil->stencil[1].writemask;
/* Depth state (TODO: Refactor) */
SET_BIT(ctx->fragment_shader_core.unknown2_3, MALI_DEPTH_TEST, depth_stencil->depth.enabled);
int func = depth_stencil->depth.enabled ? depth_stencil->depth.func : PIPE_FUNC_ALWAYS;
ctx->fragment_shader_core.unknown2_3 &= ~MALI_DEPTH_FUNC_MASK;
ctx->fragment_shader_core.unknown2_3 |= MALI_DEPTH_FUNC(panfrost_translate_compare_func(func));
/* Bounds test not implemented */
assert(!depth_stencil->depth.bounds_test);
ctx->dirty |= PAN_DIRTY_FS;
}
static void
panfrost_delete_depth_stencil_state(struct pipe_context *pipe, void *depth)
{
free( depth );
}
static void
panfrost_set_sample_mask(struct pipe_context *pipe,
unsigned sample_mask)
{
}
static void
panfrost_set_clip_state(struct pipe_context *pipe,
const struct pipe_clip_state *clip)
{
//struct panfrost_context *panfrost = pan_context(pipe);
}
static void
panfrost_set_viewport_states(struct pipe_context *pipe,
unsigned start_slot,
unsigned num_viewports,
const struct pipe_viewport_state *viewports)
{
struct panfrost_context *ctx = pan_context(pipe);
assert(start_slot == 0);
assert(num_viewports == 1);
ctx->pipe_viewport = *viewports;
#if 0
/* TODO: What if not centered? */
float w = abs(viewports->scale[0]) * 2.0;
float h = abs(viewports->scale[1]) * 2.0;
ctx->viewport.viewport1[0] = MALI_POSITIVE((int) w);
ctx->viewport.viewport1[1] = MALI_POSITIVE((int) h);
#endif
}
static void
panfrost_set_scissor_states(struct pipe_context *pipe,
unsigned start_slot,
unsigned num_scissors,
const struct pipe_scissor_state *scissors)
{
struct panfrost_context *ctx = pan_context(pipe);
assert(start_slot == 0);
assert(num_scissors == 1);
ctx->scissor = *scissors;
}
static void
panfrost_set_polygon_stipple(struct pipe_context *pipe,
const struct pipe_poly_stipple *stipple)
{
//struct panfrost_context *panfrost = pan_context(pipe);
}
static void
panfrost_set_active_query_state(struct pipe_context *pipe,
boolean enable)
{
//struct panfrost_context *panfrost = pan_context(pipe);
}
static void
panfrost_destroy(struct pipe_context *pipe)
{
struct panfrost_context *panfrost = pan_context(pipe);
struct panfrost_screen *screen = pan_screen(pipe->screen);
if (panfrost->blitter)
util_blitter_destroy(panfrost->blitter);
screen->driver->free_slab(screen, &panfrost->scratchpad);
screen->driver->free_slab(screen, &panfrost->varying_mem);
screen->driver->free_slab(screen, &panfrost->shaders);
screen->driver->free_slab(screen, &panfrost->tiler_heap);
screen->driver->free_slab(screen, &panfrost->misc_0);
}
static struct pipe_query *
panfrost_create_query(struct pipe_context *pipe,
unsigned type,
unsigned index)
{
struct panfrost_query *q = CALLOC_STRUCT(panfrost_query);
q->type = type;
q->index = index;
return (struct pipe_query *) q;
}
static void
panfrost_destroy_query(struct pipe_context *pipe, struct pipe_query *q)
{
FREE(q);
}
static boolean
panfrost_begin_query(struct pipe_context *pipe, struct pipe_query *q)
{
struct panfrost_context *ctx = pan_context(pipe);
struct panfrost_query *query = (struct panfrost_query *) q;
switch (query->type) {
case PIPE_QUERY_OCCLUSION_COUNTER:
case PIPE_QUERY_OCCLUSION_PREDICATE:
case PIPE_QUERY_OCCLUSION_PREDICATE_CONSERVATIVE:
{
/* Allocate a word for the query results to be stored */
query->transfer = panfrost_allocate_chunk(ctx, sizeof(unsigned), HEAP_DESCRIPTOR);
ctx->occlusion_query = query;
break;
}
default:
DBG("Skipping query %d\n", query->type);
break;
}
return true;
}
static bool
panfrost_end_query(struct pipe_context *pipe, struct pipe_query *q)
{
struct panfrost_context *ctx = pan_context(pipe);
ctx->occlusion_query = NULL;
return true;
}
static boolean
panfrost_get_query_result(struct pipe_context *pipe,
struct pipe_query *q,
boolean wait,
union pipe_query_result *vresult)
{
/* STUB */
struct panfrost_query *query = (struct panfrost_query *) q;
/* We need to flush out the jobs to actually run the counter, TODO
* check wait, TODO wallpaper after if needed */
panfrost_flush(pipe, NULL, PIPE_FLUSH_END_OF_FRAME);
switch (query->type) {
case PIPE_QUERY_OCCLUSION_COUNTER:
case PIPE_QUERY_OCCLUSION_PREDICATE:
case PIPE_QUERY_OCCLUSION_PREDICATE_CONSERVATIVE: {
/* Read back the query results */
unsigned *result = (unsigned *) query->transfer.cpu;
unsigned passed = *result;
if (query->type == PIPE_QUERY_OCCLUSION_COUNTER) {
vresult->u64 = passed;
} else {
vresult->b = !!passed;
}
break;
}
default:
DBG("Skipped query get %d\n", query->type);
break;
}
return true;
}
static struct pipe_stream_output_target *
panfrost_create_stream_output_target(struct pipe_context *pctx,
struct pipe_resource *prsc,
unsigned buffer_offset,
unsigned buffer_size)
{
struct pipe_stream_output_target *target;
target = CALLOC_STRUCT(pipe_stream_output_target);
if (!target)
return NULL;
pipe_reference_init(&target->reference, 1);
pipe_resource_reference(&target->buffer, prsc);
target->context = pctx;
target->buffer_offset = buffer_offset;
target->buffer_size = buffer_size;
return target;
}
static void
panfrost_stream_output_target_destroy(struct pipe_context *pctx,
struct pipe_stream_output_target *target)
{
pipe_resource_reference(&target->buffer, NULL);
free(target);
}
static void
panfrost_set_stream_output_targets(struct pipe_context *pctx,
unsigned num_targets,
struct pipe_stream_output_target **targets,
const unsigned *offsets)
{
/* STUB */
}
static void
panfrost_setup_hardware(struct panfrost_context *ctx)
{
struct pipe_context *gallium = (struct pipe_context *) ctx;
struct panfrost_screen *screen = pan_screen(gallium->screen);
for (int i = 0; i < ARRAY_SIZE(ctx->transient_pools); ++i) {
/* Allocate the beginning of the transient pool */
int entry_size = (1 << 22); /* 4MB */
ctx->transient_pools[i].entry_size = entry_size;
ctx->transient_pools[i].entry_count = 1;
ctx->transient_pools[i].entries[0] = (struct panfrost_memory_entry *) pb_slab_alloc(&screen->slabs, entry_size, HEAP_TRANSIENT);
}
screen->driver->allocate_slab(screen, &ctx->scratchpad, 64, false, 0, 0, 0);
screen->driver->allocate_slab(screen, &ctx->varying_mem, 16384, false, PAN_ALLOCATE_INVISIBLE | PAN_ALLOCATE_COHERENT_LOCAL, 0, 0);
screen->driver->allocate_slab(screen, &ctx->shaders, 4096, true, PAN_ALLOCATE_EXECUTE, 0, 0);
screen->driver->allocate_slab(screen, &ctx->tiler_heap, 32768, false, PAN_ALLOCATE_INVISIBLE | PAN_ALLOCATE_GROWABLE, 1, 128);
screen->driver->allocate_slab(screen, &ctx->misc_0, 128*128, false, PAN_ALLOCATE_INVISIBLE | PAN_ALLOCATE_GROWABLE, 1, 128);
}
/* New context creation, which also does hardware initialisation since I don't
* know the better way to structure this :smirk: */
struct pipe_context *
panfrost_create_context(struct pipe_screen *screen, void *priv, unsigned flags)
{
struct panfrost_context *ctx = CALLOC_STRUCT(panfrost_context);
struct panfrost_screen *pscreen = pan_screen(screen);
memset(ctx, 0, sizeof(*ctx));
struct pipe_context *gallium = (struct pipe_context *) ctx;
unsigned gpu_id;
gpu_id = pscreen->driver->query_gpu_version(pscreen);
ctx->is_t6xx = gpu_id <= 0x0750; /* For now, this flag means T760 or less */
ctx->require_sfbd = gpu_id < 0x0750; /* T760 is the first to support MFBD */
gallium->screen = screen;
gallium->destroy = panfrost_destroy;
gallium->set_framebuffer_state = panfrost_set_framebuffer_state;
gallium->flush = panfrost_flush;
gallium->clear = panfrost_clear;
gallium->draw_vbo = panfrost_draw_vbo;
gallium->set_vertex_buffers = panfrost_set_vertex_buffers;
gallium->set_constant_buffer = panfrost_set_constant_buffer;
gallium->set_stencil_ref = panfrost_set_stencil_ref;
gallium->create_sampler_view = panfrost_create_sampler_view;
gallium->set_sampler_views = panfrost_set_sampler_views;
gallium->sampler_view_destroy = panfrost_sampler_view_destroy;
gallium->create_rasterizer_state = panfrost_create_rasterizer_state;
gallium->bind_rasterizer_state = panfrost_bind_rasterizer_state;
gallium->delete_rasterizer_state = panfrost_generic_cso_delete;
gallium->create_vertex_elements_state = panfrost_create_vertex_elements_state;
gallium->bind_vertex_elements_state = panfrost_bind_vertex_elements_state;
gallium->delete_vertex_elements_state = panfrost_delete_vertex_elements_state;
gallium->create_fs_state = panfrost_create_shader_state;
gallium->delete_fs_state = panfrost_delete_shader_state;
gallium->bind_fs_state = panfrost_bind_fs_state;
gallium->create_vs_state = panfrost_create_shader_state;
gallium->delete_vs_state = panfrost_delete_shader_state;
gallium->bind_vs_state = panfrost_bind_vs_state;
gallium->create_sampler_state = panfrost_create_sampler_state;
gallium->delete_sampler_state = panfrost_generic_cso_delete;
gallium->bind_sampler_states = panfrost_bind_sampler_states;
gallium->create_blend_state = panfrost_create_blend_state;
gallium->bind_blend_state = panfrost_bind_blend_state;
gallium->delete_blend_state = panfrost_delete_blend_state;
gallium->set_blend_color = panfrost_set_blend_color;
gallium->create_depth_stencil_alpha_state = panfrost_create_depth_stencil_state;
gallium->bind_depth_stencil_alpha_state = panfrost_bind_depth_stencil_state;
gallium->delete_depth_stencil_alpha_state = panfrost_delete_depth_stencil_state;
gallium->set_sample_mask = panfrost_set_sample_mask;
gallium->set_clip_state = panfrost_set_clip_state;
gallium->set_viewport_states = panfrost_set_viewport_states;
gallium->set_scissor_states = panfrost_set_scissor_states;
gallium->set_polygon_stipple = panfrost_set_polygon_stipple;
gallium->set_active_query_state = panfrost_set_active_query_state;
gallium->create_query = panfrost_create_query;
gallium->destroy_query = panfrost_destroy_query;
gallium->begin_query = panfrost_begin_query;
gallium->end_query = panfrost_end_query;
gallium->get_query_result = panfrost_get_query_result;
gallium->create_stream_output_target = panfrost_create_stream_output_target;
gallium->stream_output_target_destroy = panfrost_stream_output_target_destroy;
gallium->set_stream_output_targets = panfrost_set_stream_output_targets;
panfrost_resource_context_init(gallium);
pscreen->driver->init_context(ctx);
panfrost_setup_hardware(ctx);
/* XXX: leaks */
gallium->stream_uploader = u_upload_create_default(gallium);
gallium->const_uploader = gallium->stream_uploader;
assert(gallium->stream_uploader);
/* Midgard supports ES modes, plus QUADS/QUAD_STRIPS/POLYGON */
ctx->draw_modes = (1 << (PIPE_PRIM_POLYGON + 1)) - 1;
ctx->primconvert = util_primconvert_create(gallium, ctx->draw_modes);
ctx->blitter = util_blitter_create(gallium);
assert(ctx->blitter);
/* Prepare for render! */
panfrost_job_init(ctx);
panfrost_emit_vertex_payload(ctx);
panfrost_emit_tiler_payload(ctx);
panfrost_invalidate_frame(ctx);
panfrost_default_shader_backend(ctx);
panfrost_generate_space_filler_indices();
return gallium;
}
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