/* * Copyright (c) 2016, ARM Limited and Contributors. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * Neither the name of ARM nor the names of its contributors may be used * to endorse or promote products derived from this software without specific * prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include /* GRF_SOC_STATUS0 */ #define DPLL_LOCK (0x1 << 2) /* GRF_DDRC0_CON0 */ #define GRF_DDR_16BIT_EN (((0x1 << 3) << 16) | (0x1 << 3)) #define GRF_DDR_32BIT_EN (((0x1 << 3) << 16) | (0x0 << 3)) #define GRF_MOBILE_DDR_EN (((0x1 << 4) << 16) | (0x1 << 4)) #define GRF_MOBILE_DDR_DISB (((0x1 << 4) << 16) | (0x0 << 4)) #define GRF_DDR3_EN (((0x1 << 2) << 16) | (0x1 << 2)) #define GRF_LPDDR2_3_EN (((0x1 << 2) << 16) | (0x0 << 2)) /* PMUGRF_SOC_CON0 */ #define ddrphy_bufferen_io_en(n) ((0x1 << (9 + 16)) | (n << 9)) #define ddrphy_bufferen_core_en(n) ((0x1 << (8 + 16)) | (n << 8)) struct PCTRL_TIMING_TAG { uint32_t ddrfreq; uint32_t TOGCNT1U; uint32_t TINIT; uint32_t TRSTH; uint32_t TOGCNT100N; uint32_t TREFI; uint32_t TMRD; uint32_t TRFC; uint32_t TRP; uint32_t TRTW; uint32_t TAL; uint32_t TCL; uint32_t TCWL; uint32_t TRAS; uint32_t TRC; uint32_t TRCD; uint32_t TRRD; uint32_t TRTP; uint32_t TWR; uint32_t TWTR; uint32_t TEXSR; uint32_t TXP; uint32_t TXPDLL; uint32_t TZQCS; uint32_t TZQCSI; uint32_t TDQS; uint32_t TCKSRE; uint32_t TCKSRX; uint32_t TCKE; uint32_t TMOD; uint32_t TRSTL; uint32_t TZQCL; uint32_t TMRR; uint32_t TCKESR; uint32_t TDPD; uint32_t TREFI_MEM_DDR3; }; struct MSCH_SAVE_REG_TAG { uint32_t ddrconf; uint32_t ddrtiming; uint32_t ddrmode; uint32_t readlatency; uint32_t activate; uint32_t devtodev; }; /* ddr suspend need save reg */ struct PCTL_SAVE_REG_TAG { uint32_t SCFG; uint32_t CMDTSTATEN; uint32_t MCFG1; uint32_t MCFG; uint32_t PPCFG; struct PCTRL_TIMING_TAG pctl_timing; /* DFI Control Registers */ uint32_t DFITCTRLDELAY; uint32_t DFIODTCFG; uint32_t DFIODTCFG1; uint32_t DFIODTRANKMAP; /* DFI Write Data Registers */ uint32_t DFITPHYWRDATA; uint32_t DFITPHYWRLAT; uint32_t DFITPHYWRDATALAT; /* DFI Read Data Registers */ uint32_t DFITRDDATAEN; uint32_t DFITPHYRDLAT; /* DFI Update Registers */ uint32_t DFITPHYUPDTYPE0; uint32_t DFITPHYUPDTYPE1; uint32_t DFITPHYUPDTYPE2; uint32_t DFITPHYUPDTYPE3; uint32_t DFITCTRLUPDMIN; uint32_t DFITCTRLUPDMAX; uint32_t DFITCTRLUPDDLY; uint32_t DFIUPDCFG; uint32_t DFITREFMSKI; uint32_t DFITCTRLUPDI; /* DFI Status Registers */ uint32_t DFISTCFG0; uint32_t DFISTCFG1; uint32_t DFITDRAMCLKEN; uint32_t DFITDRAMCLKDIS; uint32_t DFISTCFG2; /* DFI Low Power Register */ uint32_t DFILPCFG0; }; struct DDRPHY_SAVE_REG_TAG { uint32_t PHY_REG0; uint32_t PHY_REG1; uint32_t PHY_REGB; uint32_t PHY_REGC; uint32_t PHY_REG11; uint32_t PHY_REG13; uint32_t PHY_REG14; uint32_t PHY_REG16; uint32_t PHY_REG20; uint32_t PHY_REG21; uint32_t PHY_REG26; uint32_t PHY_REG27; uint32_t PHY_REG28; uint32_t PHY_REG30; uint32_t PHY_REG31; uint32_t PHY_REG36; uint32_t PHY_REG37; uint32_t PHY_REG38; uint32_t PHY_REG40; uint32_t PHY_REG41; uint32_t PHY_REG46; uint32_t PHY_REG47; uint32_t PHY_REG48; uint32_t PHY_REG50; uint32_t PHY_REG51; uint32_t PHY_REG56; uint32_t PHY_REG57; uint32_t PHY_REG58; uint32_t PHY_REGDLL; uint32_t PHY_REGEC; uint32_t PHY_REGED; uint32_t PHY_REGEE; uint32_t PHY_REGEF; uint32_t PHY_REGFB; uint32_t PHY_REGFC; uint32_t PHY_REGFD; uint32_t PHY_REGFE; }; struct BACKUP_REG_TAG { uint32_t tag; uint32_t pctladdr; struct PCTL_SAVE_REG_TAG pctl; uint32_t phyaddr; struct DDRPHY_SAVE_REG_TAG phy; uint32_t nocaddr; struct MSCH_SAVE_REG_TAG noc; uint32_t pllselect; uint32_t phypllockaddr; uint32_t phyplllockmask; uint32_t phyplllockval; uint32_t pllpdstat; uint32_t dpllmodeaddr; uint32_t dpllslowmode; uint32_t dpllnormalmode; uint32_t dpllresetaddr; uint32_t dpllreset; uint32_t dplldereset; uint32_t dpllconaddr; uint32_t dpllcon[4]; uint32_t dplllockaddr; uint32_t dplllockmask; uint32_t dplllockval; uint32_t ddrpllsrcdivaddr; uint32_t ddrpllsrcdiv; uint32_t retendisaddr; uint32_t retendisval; uint32_t grfregaddr; uint32_t grfddrcreg; uint32_t crupctlphysoftrstaddr; uint32_t cruresetpctlphy; uint32_t cruderesetphy; uint32_t cruderesetpctlphy; uint32_t physoftrstaddr; uint32_t endtag; }; static uint32_t ddr_get_phy_pll_freq(void) { uint32_t ret = 0; uint32_t fb_div, pre_div; fb_div = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGEC); fb_div |= (mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGED) & 0x1) << 8; pre_div = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGEE) & 0xff; ret = 2 * 24 * fb_div / (4 * pre_div); return ret; } static void ddr_copy(uint32_t *pdest, uint32_t *psrc, uint32_t words) { uint32_t i; for (i = 0; i < words; i++) pdest[i] = psrc[i]; } static void ddr_get_dpll_cfg(uint32_t *p) { uint32_t nmhz, NO, NF, NR; nmhz = ddr_get_phy_pll_freq(); if (nmhz <= 150) NO = 6; else if (nmhz <= 250) NO = 4; else if (nmhz <= 500) NO = 2; else NO = 1; NR = 1; NF = 2 * nmhz * NR * NO / 24; p[0] = SET_NR(NR) | SET_NO(NO); p[1] = SET_NF(NF); p[2] = SET_NB(NF / 2); } void ddr_reg_save(uint32_t pllpdstat, uint64_t base_addr) { struct BACKUP_REG_TAG *p_ddr_reg = (struct BACKUP_REG_TAG *)base_addr; struct PCTL_SAVE_REG_TAG *pctl_tim = &p_ddr_reg->pctl; p_ddr_reg->tag = 0x56313031; p_ddr_reg->pctladdr = DDR_PCTL_BASE; p_ddr_reg->phyaddr = DDR_PHY_BASE; p_ddr_reg->nocaddr = SERVICE_BUS_BASE; /* PCTLR */ ddr_copy((uint32_t *)&pctl_tim->pctl_timing.TOGCNT1U, (uint32_t *)(DDR_PCTL_BASE + DDR_PCTL_TOGCNT1U), 35); pctl_tim->pctl_timing.TREFI |= DDR_UPD_REF_ENABLE; pctl_tim->SCFG = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_SCFG); pctl_tim->CMDTSTATEN = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_CMDTSTATEN); pctl_tim->MCFG1 = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_MCFG1); pctl_tim->MCFG = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_MCFG); pctl_tim->PPCFG = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_PPCFG); pctl_tim->pctl_timing.ddrfreq = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_TOGCNT1U * 2); pctl_tim->DFITCTRLDELAY = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITCTRLDELAY); pctl_tim->DFIODTCFG = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFIODTCFG); pctl_tim->DFIODTCFG1 = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFIODTCFG1); pctl_tim->DFIODTRANKMAP = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFIODTRANKMAP); pctl_tim->DFITPHYWRDATA = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITPHYWRDATA); pctl_tim->DFITPHYWRLAT = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITPHYWRLAT); pctl_tim->DFITPHYWRDATALAT = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITPHYWRDATALAT); pctl_tim->DFITRDDATAEN = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITRDDATAEN); pctl_tim->DFITPHYRDLAT = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITPHYRDLAT); pctl_tim->DFITPHYUPDTYPE0 = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITPHYUPDTYPE0); pctl_tim->DFITPHYUPDTYPE1 = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITPHYUPDTYPE1); pctl_tim->DFITPHYUPDTYPE2 = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITPHYUPDTYPE2); pctl_tim->DFITPHYUPDTYPE3 = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITPHYUPDTYPE3); pctl_tim->DFITCTRLUPDMIN = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITCTRLUPDMIN); pctl_tim->DFITCTRLUPDMAX = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITCTRLUPDMAX); pctl_tim->DFITCTRLUPDDLY = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITCTRLUPDDLY); pctl_tim->DFIUPDCFG = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFIUPDCFG); pctl_tim->DFITREFMSKI = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITREFMSKI); pctl_tim->DFITCTRLUPDI = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITCTRLUPDI); pctl_tim->DFISTCFG0 = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFISTCFG0); pctl_tim->DFISTCFG1 = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFISTCFG1); pctl_tim->DFITDRAMCLKEN = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITDRAMCLKEN); pctl_tim->DFITDRAMCLKDIS = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFITDRAMCLKDIS); pctl_tim->DFISTCFG2 = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFISTCFG2); pctl_tim->DFILPCFG0 = mmio_read_32(DDR_PCTL_BASE + DDR_PCTL_DFILPCFG0); /* PHY */ p_ddr_reg->phy.PHY_REG0 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG0); p_ddr_reg->phy.PHY_REG1 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG1); p_ddr_reg->phy.PHY_REGB = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGB); p_ddr_reg->phy.PHY_REGC = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGC); p_ddr_reg->phy.PHY_REG11 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG11); p_ddr_reg->phy.PHY_REG13 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG13); p_ddr_reg->phy.PHY_REG14 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG14); p_ddr_reg->phy.PHY_REG16 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG16); p_ddr_reg->phy.PHY_REG20 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG20); p_ddr_reg->phy.PHY_REG21 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG21); p_ddr_reg->phy.PHY_REG26 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG26); p_ddr_reg->phy.PHY_REG27 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG27); p_ddr_reg->phy.PHY_REG28 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG28); p_ddr_reg->phy.PHY_REG30 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG30); p_ddr_reg->phy.PHY_REG31 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG31); p_ddr_reg->phy.PHY_REG36 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG36); p_ddr_reg->phy.PHY_REG37 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG37); p_ddr_reg->phy.PHY_REG38 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG38); p_ddr_reg->phy.PHY_REG40 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG40); p_ddr_reg->phy.PHY_REG41 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG41); p_ddr_reg->phy.PHY_REG46 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG46); p_ddr_reg->phy.PHY_REG47 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG47); p_ddr_reg->phy.PHY_REG48 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG48); p_ddr_reg->phy.PHY_REG50 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG50); p_ddr_reg->phy.PHY_REG51 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG51); p_ddr_reg->phy.PHY_REG56 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG56); p_ddr_reg->phy.PHY_REG57 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG57); p_ddr_reg->phy.PHY_REG58 = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG58); p_ddr_reg->phy.PHY_REGDLL = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGDLL); p_ddr_reg->phy.PHY_REGEC = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGEC); p_ddr_reg->phy.PHY_REGED = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGED); p_ddr_reg->phy.PHY_REGEE = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGEE); p_ddr_reg->phy.PHY_REGEF = 0; if (mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG2) & 0x2) { p_ddr_reg->phy.PHY_REGFB = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG2C); p_ddr_reg->phy.PHY_REGFC = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG3C); p_ddr_reg->phy.PHY_REGFD = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG4C); p_ddr_reg->phy.PHY_REGFE = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REG5C); } else { p_ddr_reg->phy.PHY_REGFB = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGFB); p_ddr_reg->phy.PHY_REGFC = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGFC); p_ddr_reg->phy.PHY_REGFD = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGFD); p_ddr_reg->phy.PHY_REGFE = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGFE); } /* NOC */ p_ddr_reg->noc.ddrconf = mmio_read_32(SERVICE_BUS_BASE + MSCH_DDRCONF); p_ddr_reg->noc.ddrtiming = mmio_read_32(SERVICE_BUS_BASE + MSCH_DDRTIMING); p_ddr_reg->noc.ddrmode = mmio_read_32(SERVICE_BUS_BASE + MSCH_DDRMODE); p_ddr_reg->noc.readlatency = mmio_read_32(SERVICE_BUS_BASE + MSCH_READLATENCY); p_ddr_reg->noc.activate = mmio_read_32(SERVICE_BUS_BASE + MSCH_ACTIVATE); p_ddr_reg->noc.devtodev = mmio_read_32(SERVICE_BUS_BASE + MSCH_DEVTODEV); p_ddr_reg->pllselect = mmio_read_32(DDR_PHY_BASE + DDR_PHY_REGEE) * 0x1; p_ddr_reg->phypllockaddr = GRF_BASE + GRF_SOC_STATUS0; p_ddr_reg->phyplllockmask = GRF_DDRPHY_LOCK; p_ddr_reg->phyplllockval = 0; /* PLLPD */ p_ddr_reg->pllpdstat = pllpdstat; /* DPLL */ p_ddr_reg->dpllmodeaddr = CRU_BASE + PLL_CONS(DPLL_ID, 3); /* slow mode and power on */ p_ddr_reg->dpllslowmode = DPLL_WORK_SLOW_MODE | DPLL_POWER_DOWN; p_ddr_reg->dpllnormalmode = DPLL_WORK_NORMAL_MODE; p_ddr_reg->dpllresetaddr = CRU_BASE + PLL_CONS(DPLL_ID, 3); p_ddr_reg->dpllreset = DPLL_RESET_CONTROL_NORMAL; p_ddr_reg->dplldereset = DPLL_RESET_CONTROL_RESET; p_ddr_reg->dpllconaddr = CRU_BASE + PLL_CONS(DPLL_ID, 0); if (p_ddr_reg->pllselect == 0) { p_ddr_reg->dpllcon[0] = (mmio_read_32(CRU_BASE + PLL_CONS(DPLL_ID, 0)) & 0xffff) | (0xFFFF << 16); p_ddr_reg->dpllcon[1] = (mmio_read_32(CRU_BASE + PLL_CONS(DPLL_ID, 1)) & 0xffff); p_ddr_reg->dpllcon[2] = (mmio_read_32(CRU_BASE + PLL_CONS(DPLL_ID, 2)) & 0xffff); p_ddr_reg->dpllcon[3] = (mmio_read_32(CRU_BASE + PLL_CONS(DPLL_ID, 3)) & 0xffff) | (0xFFFF << 16); } else { ddr_get_dpll_cfg(&p_ddr_reg->dpllcon[0]); } p_ddr_reg->pllselect = 0; p_ddr_reg->dplllockaddr = CRU_BASE + PLL_CONS(DPLL_ID, 1); p_ddr_reg->dplllockmask = DPLL_STATUS_LOCK; p_ddr_reg->dplllockval = DPLL_STATUS_LOCK; /* SET_DDR_PLL_SRC */ p_ddr_reg->ddrpllsrcdivaddr = CRU_BASE + CRU_CLKSELS_CON(13); p_ddr_reg->ddrpllsrcdiv = (mmio_read_32(CRU_BASE + CRU_CLKSELS_CON(13)) & DDR_PLL_SRC_MASK) | (DDR_PLL_SRC_MASK << 16); p_ddr_reg->retendisaddr = PMU_BASE + PMU_PWRMD_COM; p_ddr_reg->retendisval = PD_PERI_PWRDN_ENABLE; p_ddr_reg->grfregaddr = GRF_BASE + GRF_DDRC0_CON0; p_ddr_reg->grfddrcreg = (mmio_read_32(GRF_BASE + GRF_DDRC0_CON0) & DDR_PLL_SRC_MASK) | (DDR_PLL_SRC_MASK << 16); /* pctl phy soft reset */ p_ddr_reg->crupctlphysoftrstaddr = CRU_BASE + CRU_SOFTRSTS_CON(10); p_ddr_reg->cruresetpctlphy = DDRCTRL0_PSRSTN_REQ(1) | DDRCTRL0_SRSTN_REQ(1) | DDRPHY0_PSRSTN_REQ(1) | DDRPHY0_SRSTN_REQ(1); p_ddr_reg->cruderesetphy = DDRCTRL0_PSRSTN_REQ(1) | DDRCTRL0_SRSTN_REQ(1) | DDRPHY0_PSRSTN_REQ(0) | DDRPHY0_SRSTN_REQ(0); p_ddr_reg->cruderesetpctlphy = DDRCTRL0_PSRSTN_REQ(0) | DDRCTRL0_SRSTN_REQ(0) | DDRPHY0_PSRSTN_REQ(0) | DDRPHY0_SRSTN_REQ(0); p_ddr_reg->physoftrstaddr = DDR_PHY_BASE + DDR_PHY_REG0; p_ddr_reg->endtag = 0xFFFFFFFF; } /* * "rk3368_ddr_reg_resume_V1.05.bin" is an executable bin which is generated * by ARM DS5 for resuming ddr controller. If the soc wakes up from system * suspend, ddr needs to be resumed and the resuming code needs to be run in * sram. But there is not a way to pointing the resuming code to the PMUSRAM * when linking .o files of bl31, so we use the * "rk3368_ddr_reg_resume_V1.05.bin" whose code is position-independent and * it can be loaded anywhere and run. */ static __aligned(4) unsigned int ddr_reg_resume[] = { #include "rk3368_ddr_reg_resume_V1.05.bin" }; uint32_t ddr_get_resume_code_size(void) { return sizeof(ddr_reg_resume); } uint32_t ddr_get_resume_data_size(void) { return sizeof(struct BACKUP_REG_TAG); } uint32_t *ddr_get_resume_code_base(void) { return (unsigned int *)ddr_reg_resume; }