mirror of
https://github.com/CTCaer/hekate.git
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0b45a5a11a
3 users had issues with 602MHz. This will probably bring the SoC binning compatibility to 100%. Additionally, make it easy to change default boost frequency. The tiny loss in perf, will be mitigated in Nyx. (It's actually even faster)
288 lines
7.1 KiB
C
288 lines
7.1 KiB
C
/*
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* Copyright (c) 2018 naehrwert
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* Copyright (c) 2018-2019 CTCaer
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* Copyright (c) 2018 balika011
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <string.h>
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#include "../sec/tsec.h"
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#include "../sec/tsec_t210.h"
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#include "../sec/se_t210.h"
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#include "../soc/bpmp.h"
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#include "../soc/clock.h"
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#include "../soc/kfuse.h"
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#include "../soc/smmu.h"
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#include "../soc/t210.h"
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#include "../mem/heap.h"
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#include "../mem/mc.h"
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#include "../utils/util.h"
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#include "../hos/hos.h"
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// #include "../gfx/gfx.h"
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static int _tsec_dma_wait_idle()
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{
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u32 timeout = get_tmr_ms() + 10000;
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while (!(TSEC(TSEC_DMATRFCMD) & TSEC_DMATRFCMD_IDLE))
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if (get_tmr_ms() > timeout)
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return 0;
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return 1;
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}
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static int _tsec_dma_pa_to_internal_100(int not_imem, int i_offset, int pa_offset)
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{
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u32 cmd;
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if (not_imem)
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cmd = TSEC_DMATRFCMD_SIZE_256B; // DMA 256 bytes
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else
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cmd = TSEC_DMATRFCMD_IMEM; // DMA IMEM (Instruction memmory)
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TSEC(TSEC_DMATRFMOFFS) = i_offset;
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TSEC(TSEC_DMATRFFBOFFS) = pa_offset;
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TSEC(TSEC_DMATRFCMD) = cmd;
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return _tsec_dma_wait_idle();
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}
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int tsec_query(u8 *tsec_keys, u8 kb, tsec_ctxt_t *tsec_ctxt)
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{
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int res = 0;
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u8 *fwbuf = NULL;
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u32 *pdir, *car, *fuse, *pmc, *flowctrl, *se, *mc, *iram, *evec;
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u32 *pkg11_magic_off;
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bpmp_mmu_disable();
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bpmp_clk_rate_set(BPMP_CLK_NORMAL);
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// Enable clocks.
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clock_enable_host1x();
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usleep(2);
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clock_enable_tsec();
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clock_enable_sor_safe();
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clock_enable_sor0();
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clock_enable_sor1();
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clock_enable_kfuse();
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kfuse_wait_ready();
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// Configure Falcon.
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TSEC(TSEC_DMACTL) = 0;
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TSEC(TSEC_IRQMSET) =
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TSEC_IRQMSET_EXT(0xFF) |
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TSEC_IRQMSET_WDTMR |
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TSEC_IRQMSET_HALT |
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TSEC_IRQMSET_EXTERR |
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TSEC_IRQMSET_SWGEN0 |
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TSEC_IRQMSET_SWGEN1;
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TSEC(TSEC_IRQDEST) =
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TSEC_IRQDEST_EXT(0xFF) |
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TSEC_IRQDEST_HALT |
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TSEC_IRQDEST_EXTERR |
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TSEC_IRQDEST_SWGEN0 |
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TSEC_IRQDEST_SWGEN1;
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TSEC(TSEC_ITFEN) = TSEC_ITFEN_CTXEN | TSEC_ITFEN_MTHDEN;
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if (!_tsec_dma_wait_idle())
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{
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res = -1;
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goto out;
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}
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// Load firmware or emulate memio environment for newer TSEC fw.
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if (kb == KB_FIRMWARE_VERSION_620)
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TSEC(TSEC_DMATRFBASE) = (u32)tsec_ctxt->fw >> 8;
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else
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{
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fwbuf = (u8 *)malloc(0x4000);
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u8 *fwbuf_aligned = (u8 *)ALIGN((u32)fwbuf, 0x100);
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memcpy(fwbuf_aligned, tsec_ctxt->fw, tsec_ctxt->size);
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TSEC(TSEC_DMATRFBASE) = (u32)fwbuf_aligned >> 8;
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}
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for (u32 addr = 0; addr < tsec_ctxt->size; addr += 0x100)
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{
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if (!_tsec_dma_pa_to_internal_100(false, addr, addr))
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{
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res = -2;
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goto out_free;
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}
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}
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if (kb == KB_FIRMWARE_VERSION_620)
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{
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// Init SMMU translation for TSEC.
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pdir = smmu_init_for_tsec();
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smmu_init(tsec_ctxt->secmon_base);
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// Enable SMMU
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if (!smmu_is_used())
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smmu_enable();
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// Clock reset controller.
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car = page_alloc(1);
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memcpy(car, (void *)CLOCK_BASE, 0x1000);
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car[CLK_RST_CONTROLLER_CLK_SOURCE_TSEC / 4] = 2;
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smmu_map(pdir, CLOCK_BASE, (u32)car, 1, _WRITABLE | _READABLE | _NONSECURE);
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// Fuse driver.
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fuse = page_alloc(1);
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memcpy((void *)&fuse[0x800/4], (void *)FUSE_BASE, 0x400);
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fuse[0x82C / 4] = 0;
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fuse[0x9E0 / 4] = (1 << (kb + 2)) - 1;
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fuse[0x9E4 / 4] = (1 << (kb + 2)) - 1;
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smmu_map(pdir, (FUSE_BASE - 0x800), (u32)fuse, 1, _READABLE | _NONSECURE);
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// Power management controller.
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pmc = page_alloc(1);
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smmu_map(pdir, RTC_BASE, (u32)pmc, 1, _READABLE | _NONSECURE);
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// Flow control.
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flowctrl = page_alloc(1);
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smmu_map(pdir, FLOW_CTLR_BASE, (u32)flowctrl, 1, _WRITABLE | _NONSECURE);
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// Security engine.
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se = page_alloc(1);
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memcpy(se, (void *)SE_BASE, 0x1000);
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smmu_map(pdir, SE_BASE, (u32)se, 1, _READABLE | _WRITABLE | _NONSECURE);
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// Memory controller.
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mc = page_alloc(1);
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memcpy(mc, (void *)MC_BASE, 0x1000);
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mc[MC_IRAM_BOM / 4] = 0;
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mc[MC_IRAM_TOM / 4] = 0x80000000;
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smmu_map(pdir, MC_BASE, (u32)mc, 1, _READABLE | _NONSECURE);
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// IRAM
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iram = page_alloc(0x30);
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memcpy(iram, tsec_ctxt->pkg1, 0x30000);
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// PKG1.1 magic offset.
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pkg11_magic_off = (u32 *)(iram + ((tsec_ctxt->pkg11_off + 0x20) / 4));
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smmu_map(pdir, 0x40010000, (u32)iram, 0x30, _READABLE | _WRITABLE | _NONSECURE);
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// Exception vectors
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evec = page_alloc(1);
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smmu_map(pdir, EXCP_VEC_BASE, (u32)evec, 1, _READABLE | _WRITABLE | _NONSECURE);
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}
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// Execute firmware.
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HOST1X(HOST1X_CH0_SYNC_SYNCPT_160) = 0x34C2E1DA;
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TSEC(TSEC_STATUS) = 0;
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TSEC(TSEC_BOOTKEYVER) = 1; // HOS uses key version 1.
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TSEC(TSEC_BOOTVEC) = 0;
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TSEC(TSEC_CPUCTL) = TSEC_CPUCTL_STARTCPU;
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if (kb == KB_FIRMWARE_VERSION_620)
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{
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u32 start = get_tmr_us();
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u32 k = se[SE_KEYTABLE_DATA0_REG_OFFSET / 4];
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u32 key[16] = {0};
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u32 kidx = 0;
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while (*pkg11_magic_off != HOS_PKG11_MAGIC)
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{
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smmu_flush_all();
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if (k != se[SE_KEYTABLE_DATA0_REG_OFFSET / 4])
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{
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k = se[SE_KEYTABLE_DATA0_REG_OFFSET / 4];
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key[kidx++] = k;
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}
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// Failsafe.
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if ((u32)get_tmr_us() - start > 125000)
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break;
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}
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if (kidx != 8)
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{
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res = -6;
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smmu_deinit_for_tsec();
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goto out_free;
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}
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// Give some extra time to make sure PKG1.1 is decrypted.
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msleep(50);
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memcpy(tsec_keys, &key, 0x20);
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memcpy(tsec_ctxt->pkg1, iram, 0x30000);
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smmu_deinit_for_tsec();
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// for (int i = 0; i < kidx; i++)
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// gfx_printf("key %08X\n", key[i]);
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// gfx_printf("cpuctl (%08X) mbox (%08X)\n", TSEC(TSEC_CPUCTL), TSEC(TSEC_STATUS));
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// u32 errst = MC(MC_ERR_STATUS);
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// gfx_printf(" MC %08X %08X %08X\n", MC(MC_INTSTATUS), errst, MC(MC_ERR_ADR));
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// gfx_printf(" type: %02X\n", errst >> 28);
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// gfx_printf(" smmu: %02X\n", (errst >> 25) & 3);
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// gfx_printf(" dir: %s\n", (errst >> 16) & 1 ? "W" : "R");
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// gfx_printf(" cid: %02x\n", errst & 0xFF);
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}
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else
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{
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if (!_tsec_dma_wait_idle())
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{
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res = -3;
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goto out_free;
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}
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u32 timeout = get_tmr_ms() + 2000;
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while (!TSEC(TSEC_STATUS))
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if (get_tmr_ms() > timeout)
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{
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res = -4;
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goto out_free;
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}
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if (TSEC(TSEC_STATUS) != 0xB0B0B0B0)
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{
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res = -5;
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goto out_free;
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}
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// Fetch result.
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HOST1X(HOST1X_CH0_SYNC_SYNCPT_160) = 0;
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u32 buf[4];
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buf[0] = SOR1(SOR_NV_PDISP_SOR_DP_HDCP_BKSV_LSB);
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buf[1] = SOR1(SOR_NV_PDISP_SOR_TMDS_HDCP_BKSV_LSB);
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buf[2] = SOR1(SOR_NV_PDISP_SOR_TMDS_HDCP_CN_MSB);
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buf[3] = SOR1(SOR_NV_PDISP_SOR_TMDS_HDCP_CN_LSB);
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SOR1(SOR_NV_PDISP_SOR_DP_HDCP_BKSV_LSB) = 0;
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SOR1(SOR_NV_PDISP_SOR_TMDS_HDCP_BKSV_LSB) = 0;
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SOR1(SOR_NV_PDISP_SOR_TMDS_HDCP_CN_MSB) = 0;
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SOR1(SOR_NV_PDISP_SOR_TMDS_HDCP_CN_LSB) = 0;
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memcpy(tsec_keys, &buf, 0x10);
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}
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out_free:;
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free(fwbuf);
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out:;
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// Disable clocks.
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clock_disable_kfuse();
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clock_disable_sor1();
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clock_disable_sor0();
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clock_disable_sor_safe();
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clock_disable_tsec();
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bpmp_mmu_enable();
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bpmp_clk_rate_set(BPMP_CLK_DEFAULT_BOOST);
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return res;
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}
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