X-Git-Url: https://git.ti.com/gitweb?p=android%2Fexternal-libkmsxx.git;a=blobdiff_plain;f=utils%2Fkmsprint.cpp;h=3b17f5bde21725eb8a2cf029187ce3e8aae9d565;hp=7b9de8c0f76c2fe18b7584fe5ca73a939a08d47d;hb=736b295100ce441e800457bcbd08cb36db543ff2;hpb=a5c28bcb2ead34e921617711ebf94ffcb5d72878 diff --git a/utils/kmsprint.cpp b/utils/kmsprint.cpp index 7b9de8c..3b17f5b 100644 --- a/utils/kmsprint.cpp +++ b/utils/kmsprint.cpp @@ -1,142 +1,485 @@ #include #include #include +#include +#include +#include #include "kms++.h" #include "opts.h" +#include "kms++util.h" +#include "strhelpers.h" using namespace std; using namespace kms; -namespace kmsprint { - static struct { bool print_props; bool print_modes; - bool recurse; -} opts; + bool print_list; + bool x_modeline; +} s_opts; -string width(int w, string str) +static string format_mode(const Videomode& m, unsigned idx) { - str.resize(w, ' '); + string str; + + str = sformat(" %2u ", idx); + + if (s_opts.x_modeline) { + str += sformat("%12s %6d %4u %4u %4u %4u %4u %4u %4u %4u %2u %#x %#x", + m.name.c_str(), + m.clock, + m.hdisplay, m.hsync_start, m.hsync_end, m.htotal, + m.vdisplay, m.vsync_start, m.vsync_end, m.vtotal, + m.vrefresh, + m.flags, + m.type); + } else { + string h = sformat("%u/%u/%u/%u", m.hdisplay, m.hfp(), m.hsw(), m.hbp()); + string v = sformat("%u/%u/%u/%u", m.vdisplay, m.vfp(), m.vsw(), m.vbp()); + + str += sformat("%-12s %6d %-16s %-16s %2u %#10x %#6x", + m.name.c_str(), + m.clock, + h.c_str(), v.c_str(), + m.vrefresh, + m.flags, + m.type); + } + return str; } -void print_mode(const Videomode &m, int ind) +static string format_mode_short(const Videomode& m) { - printf("%s%s %6d %4d %4d %4d %4d %d %4d %4d %4d %4d %d %2d 0x%04x %2d\n", - width(ind, "").c_str(), - m.name[0] == '\0' ? "" : width(11, m.name).c_str(), - m.clock, - m.hdisplay, - m.hsync_start, - m.hsync_end, - m.htotal, - m.hskew, - m.vdisplay, - m.vsync_start, - m.vsync_end, - m.vtotal, - m.vscan, - m.vrefresh, - m.flags, - m.type); + string h = sformat("%u/%u/%u/%u", m.hdisplay, m.hfp(), m.hsw(), m.hbp()); + string v = sformat("%u/%u/%u/%u", m.vdisplay, m.vfp(), m.vsw(), m.vbp()); + + return sformat("%s %d %s %s %u", + m.name.c_str(), + m.clock, + h.c_str(), v.c_str(), + m.vrefresh); } -void print_property(uint64_t val, const Property& p, int ind) +static string format_connector(Connector& c) { - printf("%s%s (id %d) = %s\n", width(ind, "").c_str(), - p.name().c_str(), p.id(), p.to_str(val).c_str()); + string str; + + str = sformat("Connector %u (%u) %s", + c.idx(), c.id(), c.fullname().c_str()); + + if (c.connected()) + str += " (connected)"; + + return str; +} + +static string format_encoder(Encoder& e) +{ + return sformat("Encoder %u (%u) %s", + e.idx(), e.id(), e.get_encoder_type().c_str()); +} + +static string format_crtc(Crtc& c) +{ + string str; + + str = sformat("Crtc %u (%u)", c.idx(), c.id()); + + if (c.mode_valid()) + str += " " + format_mode_short(c.mode()); + + return str; +} + +static string format_plane(Plane& p) +{ + string str; + + str = sformat("Plane %u (%u)", p.idx(), p.id()); + + if (p.fb_id()) + str += sformat(" fb-id: %u", p.fb_id()); + + if (p.card().has_atomic()) { + str += sformat(" %u,%u %ux%u -> %u,%u %ux%u", + (uint32_t)p.get_prop_value("SRC_X") >> 16, + (uint32_t)p.get_prop_value("SRC_Y") >> 16, + (uint32_t)p.get_prop_value("SRC_W") >> 16, + (uint32_t)p.get_prop_value("SRC_H") >> 16, + (uint32_t)p.get_prop_value("CRTC_X"), + (uint32_t)p.get_prop_value("CRTC_Y"), + (uint32_t)p.get_prop_value("CRTC_W"), + (uint32_t)p.get_prop_value("CRTC_H")); + } + + string fmts = join(p.get_formats(), " ", [](PixelFormat fmt) { return PixelFormatToFourCC(fmt); }); + + str += sformat(" (%s)", fmts.c_str()); + + return str; +} + +static string format_fb(Framebuffer& fb) +{ + return sformat("FB %u %ux%u", + fb.id(), fb.width(), fb.height()); +} + +static string format_property(const Property* prop, uint64_t val) +{ + string ret = sformat("%s = ", prop->name().c_str()); + + switch (prop->type()) { + case PropertyType::Bitmask: + { + vector v, vall; + + for (auto kvp : prop->get_enums()) { + if (val & (1 << kvp.first)) + v.push_back(kvp.second); + vall.push_back(kvp.second); + } + + ret += sformat("%s (%s)", join(v, "|").c_str(), join(vall, "|").c_str()); + + break; + } + + case PropertyType::Blob: + { + uint32_t blob_id = (uint32_t)val; + + if (blob_id) { + Blob blob(prop->card(), blob_id); + auto data = blob.data(); + + ret += sformat("blob-id %u len %zu", blob_id, data.size()); + } else { + ret += sformat("blob-id %u", blob_id); + } + + break; + } + + case PropertyType::Enum: + { + string cur; + vector vall; + + for (auto kvp : prop->get_enums()) { + if (val == kvp.first) + cur = kvp.second; + vall.push_back(kvp.second); + } + + ret += sformat("%s (%s)", cur.c_str(), join(vall, "|").c_str()); + + break; + } + + case PropertyType::Object: + { + ret += sformat("object id %u", (uint32_t)val); + break; + } + + case PropertyType::Range: + { + auto values = prop->get_values(); + + ret += sformat("%" PRIu64 " [%" PRIu64 " - %" PRIu64 "]", + val, values[0], values[1]); + + break; + } + + case PropertyType::SignedRange: + { + auto values = prop->get_values(); + + ret += sformat("%" PRIi64 " [%" PRIi64 " - %" PRIi64 "]", + (int64_t)val, (int64_t)values[0], (int64_t)values[1]); + + break; + } + + } + + if (prop->is_pending()) + ret += " (pending)"; + if (prop->is_immutable()) + ret += " (immutable)"; + + return ret; } -void print_properties(DrmObject& o, int ind) +static vector format_props(DrmPropObject* o) { - auto pmap = o.get_prop_map(); - printf("%sProperties, %u in total:\n", width(ind, "").c_str(), - (unsigned) pmap.size()); + vector lines; + + auto pmap = o->get_prop_map(); for (auto pp : pmap) { - const Property& p = *o.card().get_prop(pp.first); - print_property(pp.second, p, ind + 2); + const Property* p = o->card().get_prop(pp.first); + lines.push_back(format_property(p, pp.second)); } + + return lines; } -void print_plane(Plane& p, int ind) +static string format_ob(DrmObject* ob) { - printf("%sPlane Id %d %d,%d -> %dx%d formats:", width(ind, "").c_str(), - p.id(), p.crtc_x(), p.crtc_y(), p.x(), p.y()); - for (auto f : p.get_formats()) - printf(" %s", PixelFormatToFourCC(f).c_str()); - printf("\n"); + if (auto o = dynamic_cast(ob)) + return format_connector(*o); + else if (auto o = dynamic_cast(ob)) + return format_encoder(*o); + else if (auto o = dynamic_cast(ob)) + return format_crtc(*o); + else if (auto o = dynamic_cast(ob)) + return format_plane(*o); + else if (auto o = dynamic_cast(ob)) + return format_fb(*o); + else + EXIT("Unkown DRM Object type\n"); +} + +template +vector filter(const vector& sequence, function predicate) +{ + vector result; - if (opts.print_props) - print_properties(p, ind+2); + for(auto it = sequence.begin(); it != sequence.end(); ++it) + if(predicate(*it)) + result.push_back(*it); + + return result; } -void print_crtc(Crtc& cc, int ind) +struct Entry { - printf("%sCRTC Id %d BufferId %d %dx%d at %dx%d gamma_size %d\n", - width(ind, "").c_str(), cc.id(), cc.buffer_id(), cc.width(), - cc.height(), cc.x(), cc.y(), cc.gamma_size()); + string title; + vector lines; + vector children; +}; - printf("%s Mode ", width(ind, "").c_str()); - print_mode(cc.mode(), 0); +static Entry& add_entry(vector& entries) +{ + entries.emplace_back(); + return entries.back(); +} +/* +static bool on_tty() +{ + return isatty(STDOUT_FILENO) > 0; +} +*/ +enum class TreeGlyphMode { + None, + ASCII, + UTF8, +}; + +static TreeGlyphMode s_glyph_mode = TreeGlyphMode::None; + +enum class TreeGlyph { + Vertical, + Branch, + Right, + Space, +}; + +static const map glyphs_utf8 = { + { TreeGlyph::Vertical, "│ " }, + { TreeGlyph::Branch, "├─" }, + { TreeGlyph::Right, "└─" }, + { TreeGlyph::Space, " " }, + +}; + +static const map glyphs_ascii = { + { TreeGlyph::Vertical, "| " }, + { TreeGlyph::Branch, "|-" }, + { TreeGlyph::Right, "`-" }, + { TreeGlyph::Space, " " }, + +}; + +const char* get_glyph(TreeGlyph glyph) +{ + if (s_glyph_mode == TreeGlyphMode::None) + return " "; - if (opts.print_props) - print_properties(cc, ind+2); + const map& glyphs = s_glyph_mode == TreeGlyphMode::UTF8 ? glyphs_utf8 : glyphs_ascii; - if (opts.recurse) - for (auto p : cc.get_possible_planes()) - print_plane(*p, ind + 2); + return glyphs.at(glyph).c_str(); } -void print_encoder(Encoder& e, int ind) +static void print_entry(const Entry& e, const string& prefix, bool is_child, bool is_last) { - printf("%sEncoder Id %d type %s\n", width(ind, "").c_str(), - e.id(), e.get_encoder_type().c_str()); + string prefix1; + string prefix2; - if (opts.print_props) - print_properties(e, ind+2); + if (is_child) { + prefix1 = prefix + (is_last ? get_glyph(TreeGlyph::Right) : get_glyph(TreeGlyph::Branch)); + prefix2 = prefix + (is_last ? get_glyph(TreeGlyph::Space) : get_glyph(TreeGlyph::Vertical)); + } + + printf("%s%s\n", prefix1.c_str(), e.title.c_str()); + + bool has_children = e.children.size() > 0; + + string data_prefix = prefix2 + (has_children ? get_glyph(TreeGlyph::Vertical) : get_glyph(TreeGlyph::Space)); - if (opts.recurse) - for (auto cc : e.get_possible_crtcs()) - print_crtc(*cc, ind + 2); + for (const string& str : e.lines) { + string p = data_prefix + get_glyph(TreeGlyph::Space); + printf("%s%s\n", p.c_str(), str.c_str()); + } + + for (const Entry& child : e.children) { + bool is_last = &child == &e.children.back(); + + print_entry(child, prefix2, true, is_last); + } } -void print_connector(Connector& c, int ind) +static void print_entries(const vector& entries, const string& prefix) { - printf("%sConnector %s Id %d %sconnected", width(ind, "").c_str(), - c.fullname().c_str(), c.id(), c.connected() ? "" : "dis"); - if (c.subpixel() != 0) - printf(" Subpixel: %s", c.subpixel_str().c_str()); - printf("\n"); + for (const Entry& e: entries) { + print_entry(e, "", false, false); + } +} + +template +static void append(vector& dst, const vector& src) +{ + dst.insert(dst.end(), src.begin(), src.end()); +} + + +static void print_as_list(Card& card) +{ + vector obs; + vector fbs; + + for (Connector* conn : card.get_connectors()) { + obs.push_back(conn); + } + + for (Encoder* enc : card.get_encoders()) { + obs.push_back(enc); + } + + for (Crtc* crtc : card.get_crtcs()) { + obs.push_back(crtc); + if (crtc->buffer_id() && !card.has_has_universal_planes()) { + Framebuffer* fb = new Framebuffer(card, crtc->buffer_id()); + fbs.push_back(fb); + } + } + + for (Plane* plane : card.get_planes()) { + obs.push_back(plane); + if (plane->fb_id()) { + Framebuffer* fb = new Framebuffer(card, plane->fb_id()); + fbs.push_back(fb); + } + } - if (opts.print_props) - print_properties(c, ind+2); + for (DrmPropObject* ob: obs) { + printf("%s\n", format_ob(ob).c_str()); - if (opts.recurse) - for (auto enc : c.get_encoders()) - print_encoder(*enc, ind + 2); + if (s_opts.print_props) { + for (string str : format_props(ob)) + printf(" %s\n", str.c_str()); + } + } - if (opts.print_modes) { - auto modes = c.get_modes(); - printf("%sModes, %u in total:\n", width(ind + 2, "").c_str(), - (unsigned) modes.size()); - for (auto mode : modes) - print_mode(mode, ind + 3); + for (Framebuffer* fb: fbs) { + printf("%s\n", format_ob(fb).c_str()); } } +static void print_as_tree(Card& card) +{ + vector entries; + + for (Connector* conn : card.get_connectors()) { + if (!conn->connected()) + continue; + + Entry& e1 = add_entry(entries); + e1.title = format_ob(conn); + if (s_opts.print_props) + e1.lines = format_props(conn); + + for (Encoder* enc : conn->get_encoders()) { + + Entry& e2 = add_entry(e1.children); + e2.title = format_ob(enc); + if (s_opts.print_props) + e2.lines = format_props(enc); + + if (Crtc* crtc = enc->get_crtc()) { + Entry& e3 = add_entry(e2.children); + e3.title = format_ob(crtc); + if (s_opts.print_props) + e3.lines = format_props(crtc); + + if (crtc->buffer_id() && !card.has_has_universal_planes()) { + Framebuffer fb(card, crtc->buffer_id()); + Entry& e5 = add_entry(e3.children); + + e5.title = format_ob(&fb); + } + + for (Plane* plane : card.get_planes()) { + if (plane->crtc_id() != crtc->id()) + continue; + + Entry& e4 = add_entry(e3.children); + e4.title = format_ob(plane); + if (s_opts.print_props) + e4.lines = format_props(plane); + + uint32_t fb_id = plane->fb_id(); + if (fb_id) { + Framebuffer fb(card, fb_id); + + Entry& e5 = add_entry(e4.children); + + e5.title = format_ob(&fb); + } + } + } + } + } + + print_entries(entries, ""); } -using namespace kmsprint; +static void print_modes(Card& card) +{ + for (Connector* conn : card.get_connectors()) { + if (!conn->connected()) + continue; + + printf("%s\n", format_ob(conn).c_str()); + + auto modes = conn->get_modes(); + for (unsigned i = 0; i < modes.size(); ++i) + printf("%s\n", format_mode(modes[i], i).c_str()); + } +} static const char* usage_str = "Usage: kmsprint [OPTIONS]\n\n" "Options:\n" + " -l, --list Print list instead of tree\n" " -m, --modes Print modes\n" + " --xmode Print modes using X modeline\n" " -p, --props Print properties\n" - " -r, --recurse Recursively print all related objects\n" - " --id= Print object \n" ; static void usage() @@ -146,33 +489,29 @@ static void usage() int main(int argc, char **argv) { - string dev_path; - unsigned id = 0; + string dev_path = "/dev/dri/card0"; OptionSet optionset = { - Option("|device=", - [&](string s) + Option("|device=", [&dev_path](string s) { dev_path = s; }), - Option("|id=", - [&](string s) + Option("l|list", []() { - id = stoul(s); + s_opts.print_list = true; }), - Option("p", [&](string s) + Option("m|modes", []() { - opts.print_props = true; + s_opts.print_modes = true; }), - Option("m", [&](string s) + Option("p|props", []() { - opts.print_modes = true; + s_opts.print_props = true; }), - Option("r", [&](string s) - { - opts.recurse = true; + Option("|xmode", []() { + s_opts.x_modeline = true; }), - Option("h|help", [&]() + Option("h|help", []() { usage(); exit(-1); @@ -186,36 +525,15 @@ int main(int argc, char **argv) exit(-1); } - Card card; - - /* No options impliles recursion */ - if (id == 0) { - opts.recurse = true; - for (auto conn : card.get_connectors()) - print_connector(*conn, 0); - return 0; - } else { - auto ob = card.get_object(id); - if (!ob) { - cerr << "kmsprint" << ": Object id " << - id << " not found." << endl; - return -1; - } - - if (auto co = dynamic_cast(ob)) - print_connector(*co, 0); - else if (auto en = dynamic_cast(ob)) - print_encoder(*en, 0); - else if (auto cr = dynamic_cast(ob)) - print_crtc(*cr, 0); - else if (auto pl = dynamic_cast(ob)) - print_plane(*pl, 0); - else { - cerr << "kmsprint" << ": Unkown DRM Object type" << - endl; - return -1; - } + Card card(dev_path); + if (s_opts.print_modes) { + print_modes(card); return 0; } + + if (s_opts.print_list) + print_as_list(card); + else + print_as_tree(card); }