// SPDX-License-Identifier: GPL-2.0+ /* * (C) Copyright 2014 * Dirk Eibach, Guntermann & Drunck GmbH, dirk.eibach@gdsys.cc */ #ifdef CONFIG_GDSYS_LEGACY_DRIVERS #include #include #include enum pcb_video_type { PCB_DVI_SL, PCB_DP_165MPIX, PCB_DP_300MPIX, PCB_HDMI, PCB_DP_1_2, PCB_HDMI_2_0, }; enum pcb_transmission_type { PCB_CAT_1G, PCB_FIBER_3G, PCB_CAT_10G, PCB_FIBER_10G, }; enum carrier_speed { CARRIER_SPEED_1G, CARRIER_SPEED_3G, CARRIER_SPEED_2_5G = CARRIER_SPEED_3G, CARRIER_SPEED_10G, }; enum ram_config { RAM_DDR2_32BIT_295MBPS, RAM_DDR3_32BIT_590MBPS, RAM_DDR3_48BIT_590MBPS, RAM_DDR3_64BIT_1800MBPS, RAM_DDR3_48BIT_1800MBPS, }; enum sysclock { SYSCLK_147456, }; struct fpga_versions { bool video_channel; bool con_side; enum pcb_video_type pcb_video_type; enum pcb_transmission_type pcb_transmission_type; unsigned int hw_version; }; struct fpga_features { u8 video_channels; u8 carriers; enum carrier_speed carrier_speed; enum ram_config ram_config; enum sysclock sysclock; bool pcm_tx; bool pcm_rx; bool spdif_tx; bool spdif_rx; bool usb2; bool rs232; bool compression_type1; bool compression_type2; bool compression_type3; bool interlace; bool osd; bool compression_pipes; }; #ifdef CONFIG_SYS_FPGA_FLAVOR_GAZERBEAM static int get_versions(unsigned int fpga, struct fpga_versions *versions) { enum { VERSIONS_FPGA_VIDEO_CHANNEL = BIT(12), VERSIONS_FPGA_CON_SIDE = BIT(13), VERSIONS_FPGA_SC = BIT(14), VERSIONS_PCB_CON = BIT(9), VERSIONS_PCB_SC = BIT(8), VERSIONS_PCB_VIDEO_MASK = 0x3 << 6, VERSIONS_PCB_VIDEO_DP_1_2 = 0x0 << 6, VERSIONS_PCB_VIDEO_HDMI_2_0 = 0x1 << 6, VERSIONS_PCB_TRANSMISSION_MASK = 0x3 << 4, VERSIONS_PCB_TRANSMISSION_FIBER_10G = 0x0 << 4, VERSIONS_PCB_TRANSMISSION_CAT_10G = 0x1 << 4, VERSIONS_PCB_TRANSMISSION_FIBER_3G = 0x2 << 4, VERSIONS_PCB_TRANSMISSION_CAT_1G = 0x3 << 4, VERSIONS_HW_VER_MASK = 0xf << 0, }; u16 raw_versions; memset(versions, 0, sizeof(struct fpga_versions)); FPGA_GET_REG(fpga, versions, &raw_versions); versions->video_channel = raw_versions & VERSIONS_FPGA_VIDEO_CHANNEL; versions->con_side = raw_versions & VERSIONS_FPGA_CON_SIDE; switch (raw_versions & VERSIONS_PCB_VIDEO_MASK) { case VERSIONS_PCB_VIDEO_DP_1_2: versions->pcb_video_type = PCB_DP_1_2; break; case VERSIONS_PCB_VIDEO_HDMI_2_0: versions->pcb_video_type = PCB_HDMI_2_0; break; } switch (raw_versions & VERSIONS_PCB_TRANSMISSION_MASK) { case VERSIONS_PCB_TRANSMISSION_FIBER_10G: versions->pcb_transmission_type = PCB_FIBER_10G; break; case VERSIONS_PCB_TRANSMISSION_CAT_10G: versions->pcb_transmission_type = PCB_CAT_10G; break; case VERSIONS_PCB_TRANSMISSION_FIBER_3G: versions->pcb_transmission_type = PCB_FIBER_3G; break; case VERSIONS_PCB_TRANSMISSION_CAT_1G: versions->pcb_transmission_type = PCB_CAT_1G; break; } versions->hw_version = raw_versions & VERSIONS_HW_VER_MASK; return 0; } static int get_features(unsigned int fpga, struct fpga_features *features) { enum { FEATURE_SPDIF_RX = BIT(15), FEATURE_SPDIF_TX = BIT(14), FEATURE_PCM_RX = BIT(13), FEATURE_PCM_TX = BIT(12), FEATURE_RAM_MASK = GENMASK(11, 8), FEATURE_RAM_DDR2_32BIT_295MBPS = 0x0 << 8, FEATURE_RAM_DDR3_32BIT_590MBPS = 0x1 << 8, FEATURE_RAM_DDR3_48BIT_590MBPS = 0x2 << 8, FEATURE_RAM_DDR3_64BIT_1800MBPS = 0x3 << 8, FEATURE_RAM_DDR3_48BIT_1800MBPS = 0x4 << 8, FEATURE_CARRIER_SPEED_MASK = GENMASK(7, 6), FEATURE_CARRIER_SPEED_1G = 0x0 << 6, FEATURE_CARRIER_SPEED_2_5G = 0x1 << 6, FEATURE_CARRIER_SPEED_10G = 0x2 << 6, FEATURE_CARRIERS_MASK = GENMASK(5, 4), FEATURE_CARRIERS_0 = 0x0 << 4, FEATURE_CARRIERS_1 = 0x1 << 4, FEATURE_CARRIERS_2 = 0x2 << 4, FEATURE_CARRIERS_4 = 0x3 << 4, FEATURE_USB2 = BIT(3), FEATURE_VIDEOCHANNELS_MASK = GENMASK(2, 0), FEATURE_VIDEOCHANNELS_0 = 0x0 << 0, FEATURE_VIDEOCHANNELS_1 = 0x1 << 0, FEATURE_VIDEOCHANNELS_1_1 = 0x2 << 0, FEATURE_VIDEOCHANNELS_2 = 0x3 << 0, }; enum { EXT_FEATURE_OSD = BIT(15), EXT_FEATURE_ETHERNET = BIT(9), EXT_FEATURE_INTERLACE = BIT(8), EXT_FEATURE_RS232 = BIT(7), EXT_FEATURE_COMPRESSION_PERF_MASK = GENMASK(6, 4), EXT_FEATURE_COMPRESSION_PERF_1X = 0x0 << 4, EXT_FEATURE_COMPRESSION_PERF_2X = 0x1 << 4, EXT_FEATURE_COMPRESSION_PERF_4X = 0x2 << 4, EXT_FEATURE_COMPRESSION_TYPE1 = BIT(0), EXT_FEATURE_COMPRESSION_TYPE2 = BIT(1), EXT_FEATURE_COMPRESSION_TYPE3 = BIT(2), }; u16 raw_features; u16 raw_extended_features; memset(features, 0, sizeof(struct fpga_features)); FPGA_GET_REG(fpga, fpga_features, &raw_features); FPGA_GET_REG(fpga, fpga_ext_features, &raw_extended_features); switch (raw_features & FEATURE_VIDEOCHANNELS_MASK) { case FEATURE_VIDEOCHANNELS_0: features->video_channels = 0; break; case FEATURE_VIDEOCHANNELS_1: features->video_channels = 1; break; case FEATURE_VIDEOCHANNELS_1_1: case FEATURE_VIDEOCHANNELS_2: features->video_channels = 2; break; }; switch (raw_features & FEATURE_CARRIERS_MASK) { case FEATURE_CARRIERS_0: features->carriers = 0; break; case FEATURE_CARRIERS_1: features->carriers = 1; break; case FEATURE_CARRIERS_2: features->carriers = 2; break; case FEATURE_CARRIERS_4: features->carriers = 4; break; } switch (raw_features & FEATURE_CARRIER_SPEED_MASK) { case FEATURE_CARRIER_SPEED_1G: features->carrier_speed = CARRIER_SPEED_1G; break; case FEATURE_CARRIER_SPEED_2_5G: features->carrier_speed = CARRIER_SPEED_2_5G; break; case FEATURE_CARRIER_SPEED_10G: features->carrier_speed = CARRIER_SPEED_10G; break; } switch (raw_features & FEATURE_RAM_MASK) { case FEATURE_RAM_DDR2_32BIT_295MBPS: features->ram_config = RAM_DDR2_32BIT_295MBPS; break; case FEATURE_RAM_DDR3_32BIT_590MBPS: features->ram_config = RAM_DDR3_32BIT_590MBPS; break; case FEATURE_RAM_DDR3_48BIT_590MBPS: features->ram_config = RAM_DDR3_48BIT_590MBPS; break; case FEATURE_RAM_DDR3_64BIT_1800MBPS: features->ram_config = RAM_DDR3_64BIT_1800MBPS; break; case FEATURE_RAM_DDR3_48BIT_1800MBPS: features->ram_config = RAM_DDR3_48BIT_1800MBPS; break; } features->pcm_tx = raw_features & FEATURE_PCM_TX; features->pcm_rx = raw_features & FEATURE_PCM_RX; features->spdif_tx = raw_features & FEATURE_SPDIF_TX; features->spdif_rx = raw_features & FEATURE_SPDIF_RX; features->usb2 = raw_features & FEATURE_USB2; features->rs232 = raw_extended_features & EXT_FEATURE_RS232; features->compression_type1 = raw_extended_features & EXT_FEATURE_COMPRESSION_TYPE1; features->compression_type2 = raw_extended_features & EXT_FEATURE_COMPRESSION_TYPE2; features->compression_type3 = raw_extended_features & EXT_FEATURE_COMPRESSION_TYPE3; features->interlace = raw_extended_features & EXT_FEATURE_INTERLACE; features->osd = raw_extended_features & EXT_FEATURE_OSD; features->compression_pipes = raw_extended_features & EXT_FEATURE_COMPRESSION_PERF_MASK; return 0; } #else static int get_versions(unsigned int fpga, struct fpga_versions *versions) { enum { /* HW version encoding is a mess, leave it for the moment */ VERSIONS_HW_VER_MASK = 0xf << 0, VERSIONS_PIX_CLOCK_GEN_IDT8N3QV01 = BIT(4), VERSIONS_SFP = BIT(5), VERSIONS_VIDEO_MASK = 0x7 << 6, VERSIONS_VIDEO_DVI = 0x0 << 6, VERSIONS_VIDEO_DP_165 = 0x1 << 6, VERSIONS_VIDEO_DP_300 = 0x2 << 6, VERSIONS_VIDEO_HDMI = 0x3 << 6, VERSIONS_UT_MASK = 0xf << 12, VERSIONS_UT_MAIN_SERVER = 0x0 << 12, VERSIONS_UT_MAIN_USER = 0x1 << 12, VERSIONS_UT_VIDEO_SERVER = 0x2 << 12, VERSIONS_UT_VIDEO_USER = 0x3 << 12, }; u16 raw_versions; memset(versions, 0, sizeof(struct fpga_versions)); FPGA_GET_REG(fpga, versions, &raw_versions); switch (raw_versions & VERSIONS_UT_MASK) { case VERSIONS_UT_MAIN_SERVER: versions->video_channel = false; versions->con_side = false; break; case VERSIONS_UT_MAIN_USER: versions->video_channel = false; versions->con_side = true; break; case VERSIONS_UT_VIDEO_SERVER: versions->video_channel = true; versions->con_side = false; break; case VERSIONS_UT_VIDEO_USER: versions->video_channel = true; versions->con_side = true; break; } switch (raw_versions & VERSIONS_VIDEO_MASK) { case VERSIONS_VIDEO_DVI: versions->pcb_video_type = PCB_DVI_SL; break; case VERSIONS_VIDEO_DP_165: versions->pcb_video_type = PCB_DP_165MPIX; break; case VERSIONS_VIDEO_DP_300: versions->pcb_video_type = PCB_DP_300MPIX; break; case VERSIONS_VIDEO_HDMI: versions->pcb_video_type = PCB_HDMI; break; } versions->hw_version = raw_versions & VERSIONS_HW_VER_MASK; if (raw_versions & VERSIONS_SFP) versions->pcb_transmission_type = PCB_FIBER_3G; else versions->pcb_transmission_type = PCB_CAT_1G; return 0; } static int get_features(unsigned int fpga, struct fpga_features *features) { enum { FEATURE_CARRIER_SPEED_2_5 = BIT(4), FEATURE_RAM_MASK = 0x7 << 5, FEATURE_RAM_DDR2_32BIT = 0x0 << 5, FEATURE_RAM_DDR3_32BIT = 0x1 << 5, FEATURE_RAM_DDR3_48BIT = 0x2 << 5, FEATURE_PCM_AUDIO_TX = BIT(9), FEATURE_PCM_AUDIO_RX = BIT(10), FEATURE_OSD = BIT(11), FEATURE_USB20 = BIT(12), FEATURE_COMPRESSION_MASK = 7 << 13, FEATURE_COMPRESSION_TYPE1 = 0x1 << 13, FEATURE_COMPRESSION_TYPE1_TYPE2 = 0x3 << 13, FEATURE_COMPRESSION_TYPE1_TYPE2_TYPE3 = 0x7 << 13, }; enum { EXTENDED_FEATURE_SPDIF_AUDIO_TX = BIT(0), EXTENDED_FEATURE_SPDIF_AUDIO_RX = BIT(1), EXTENDED_FEATURE_RS232 = BIT(2), EXTENDED_FEATURE_COMPRESSION_PIPES = BIT(3), EXTENDED_FEATURE_INTERLACE = BIT(4), }; u16 raw_features; #ifdef GDSYS_LEGACY_DRIVERS u16 raw_extended_features; #endif memset(features, 0, sizeof(struct fpga_features)); FPGA_GET_REG(fpga, fpga_features, &raw_features); #ifdef GDSYS_LEGACY_DRIVERS FPGA_GET_REG(fpga, fpga_ext_features, &raw_extended_features); #endif features->video_channels = raw_features & 0x3; features->carriers = (raw_features >> 2) & 0x3; features->carrier_speed = (raw_features & FEATURE_CARRIER_SPEED_2_5) ? CARRIER_SPEED_2_5G : CARRIER_SPEED_1G; switch (raw_features & FEATURE_RAM_MASK) { case FEATURE_RAM_DDR2_32BIT: features->ram_config = RAM_DDR2_32BIT_295MBPS; break; case FEATURE_RAM_DDR3_32BIT: features->ram_config = RAM_DDR3_32BIT_590MBPS; break; case FEATURE_RAM_DDR3_48BIT: features->ram_config = RAM_DDR3_48BIT_590MBPS; break; } features->pcm_tx = raw_features & FEATURE_PCM_AUDIO_TX; features->pcm_rx = raw_features & FEATURE_PCM_AUDIO_RX; #ifdef GDSYS_LEGACY_DRIVERS features->spdif_tx = raw_extended_features & EXTENDED_FEATURE_SPDIF_AUDIO_TX; features->spdif_rx = raw_extended_features & EXTENDED_FEATURE_SPDIF_AUDIO_RX; #endif features->usb2 = raw_features & FEATURE_USB20; #ifdef GDSYS_LEGACY_DRIVERS features->rs232 = raw_extended_features & EXTENDED_FEATURE_RS232; #endif features->compression_type1 = false; features->compression_type2 = false; features->compression_type3 = false; switch (raw_features & FEATURE_COMPRESSION_MASK) { case FEATURE_COMPRESSION_TYPE1_TYPE2_TYPE3: features->compression_type3 = true; case FEATURE_COMPRESSION_TYPE1_TYPE2: features->compression_type2 = true; case FEATURE_COMPRESSION_TYPE1: features->compression_type1 = true; break; } #ifdef GDSYS_LEGACY_DRIVERS features->interlace = raw_extended_features & EXTENDED_FEATURE_INTERLACE; #endif features->osd = raw_features & FEATURE_OSD; #ifdef GDSYS_LEGACY_DRIVERS features->compression_pipes = raw_extended_features & EXTENDED_FEATURE_COMPRESSION_PIPES; #endif return 0; } #include #endif bool ioep_fpga_has_osd(unsigned int fpga) { struct fpga_features features; get_features(fpga, &features); return features.osd; } void ioep_fpga_print_info(unsigned int fpga) { u16 fpga_version; struct fpga_versions versions; struct fpga_features features; FPGA_GET_REG(fpga, fpga_version, &fpga_version); get_versions(fpga, &versions); get_features(fpga, &features); if (versions.video_channel) printf("Videochannel"); else printf("Mainchannel"); if (versions.con_side) printf(" User"); else printf(" Server"); // FIXME #if 0 if (versions & (1<<4)) printf(" UC"); #endif switch(versions.pcb_transmission_type) { case PCB_CAT_1G: case PCB_CAT_10G: printf(" CAT"); break; case PCB_FIBER_3G: case PCB_FIBER_10G: printf(" Fiber"); break; }; switch (versions.pcb_video_type) { case PCB_DVI_SL: printf(" DVI,"); break; case PCB_DP_165MPIX: printf(" DP 165MPix/s,"); break; case PCB_DP_300MPIX: printf(" DP 300MPix/s,"); break; case PCB_HDMI: printf(" HDMI,"); break; case PCB_DP_1_2: printf(" DP 1.2,"); break; case PCB_HDMI_2_0: printf(" HDMI 2.0,"); break; } printf(" FPGA V %d.%02d\n features: ", fpga_version / 100, fpga_version % 100); if (!features.compression_type1 && !features.compression_type2 && !features.compression_type3) printf("no compression, "); if (features.compression_type1) printf("type1, "); if (features.compression_type2) printf("type2, "); if (features.compression_type3) printf("type3, "); printf("%sosd", features.osd ? "" : "no "); if (features.pcm_rx && features.pcm_tx) printf(", pcm rx+tx"); else if(features.pcm_rx) printf(", pcm rx"); else if(features.pcm_tx) printf(", pcm tx"); if (features.spdif_rx && features.spdif_tx) printf(", spdif rx+tx"); else if(features.spdif_rx) printf(", spdif rx"); else if(features.spdif_tx) printf(", spdif tx"); puts(",\n "); switch (features.sysclock) { case SYSCLK_147456: printf("clock 147.456 MHz"); break; } switch (features.ram_config) { case RAM_DDR2_32BIT_295MBPS: printf(", RAM 32 bit DDR2"); break; case RAM_DDR3_32BIT_590MBPS: printf(", RAM 32 bit DDR3"); break; case RAM_DDR3_48BIT_590MBPS: case RAM_DDR3_48BIT_1800MBPS: printf(", RAM 48 bit DDR3"); break; case RAM_DDR3_64BIT_1800MBPS: printf(", RAM 64 bit DDR3"); break; } printf(", %d carrier(s)", features.carriers); switch(features.carrier_speed) { case CARRIER_SPEED_1G: printf(", 1Gbit/s"); break; case CARRIER_SPEED_3G: printf(", 3Gbit/s"); break; case CARRIER_SPEED_10G: printf(", 10Gbit/s"); break; } printf(", %d video channel(s)\n", features.video_channels); } #endif /* CONFIG_GDSYS_LEGACY_DRIVERS */