1*297bb9e0SPhilipp Tomsich /*
2*297bb9e0SPhilipp Tomsich * sun9i dram controller initialisation
3*297bb9e0SPhilipp Tomsich *
4*297bb9e0SPhilipp Tomsich * (C) Copyright 2007-2015
5*297bb9e0SPhilipp Tomsich * Allwinner Technology Co., Ltd. <www.allwinnertech.com>
6*297bb9e0SPhilipp Tomsich * Jerry Wang <wangflord@allwinnertech.com>
7*297bb9e0SPhilipp Tomsich *
8*297bb9e0SPhilipp Tomsich * (C) Copyright 2016 Theobroma Systems Design und Consulting GmbH
9*297bb9e0SPhilipp Tomsich * Philipp Tomsich <philipp.tomsich@theobroma-systems.com>
10*297bb9e0SPhilipp Tomsich *
11*297bb9e0SPhilipp Tomsich * SPDX-License-Identifier: GPL-2.0+
12*297bb9e0SPhilipp Tomsich */
13*297bb9e0SPhilipp Tomsich
14*297bb9e0SPhilipp Tomsich #include <common.h>
15*297bb9e0SPhilipp Tomsich #include <dm.h>
16*297bb9e0SPhilipp Tomsich #include <errno.h>
17*297bb9e0SPhilipp Tomsich #include <ram.h>
18*297bb9e0SPhilipp Tomsich #include <asm/io.h>
19*297bb9e0SPhilipp Tomsich #include <asm/arch/clock.h>
20*297bb9e0SPhilipp Tomsich #include <asm/arch/dram.h>
21*297bb9e0SPhilipp Tomsich #include <asm/arch/sys_proto.h>
22*297bb9e0SPhilipp Tomsich
23*297bb9e0SPhilipp Tomsich DECLARE_GLOBAL_DATA_PTR;
24*297bb9e0SPhilipp Tomsich
25*297bb9e0SPhilipp Tomsich #define DRAM_CLK (CONFIG_DRAM_CLK * 1000000)
26*297bb9e0SPhilipp Tomsich
27*297bb9e0SPhilipp Tomsich /*
28*297bb9e0SPhilipp Tomsich * The following amounts to an extensive rewrite of the code received from
29*297bb9e0SPhilipp Tomsich * Allwinner as part of the open-source bootloader release (refer to
30*297bb9e0SPhilipp Tomsich * https://github.com/allwinner-zh/bootloader.git) and augments the upstream
31*297bb9e0SPhilipp Tomsich * sources (which act as the primary reference point for the inner workings
32*297bb9e0SPhilipp Tomsich * of the 'underdocumented' DRAM controller in the A80) using the following
33*297bb9e0SPhilipp Tomsich * documentation for other memory controllers based on the (Synopsys)
34*297bb9e0SPhilipp Tomsich * Designware IP (DDR memory protocol controller and DDR PHY)
35*297bb9e0SPhilipp Tomsich * * TI Keystone II Architecture: DDR3 Memory Controller, User's Guide
36*297bb9e0SPhilipp Tomsich * Document 'SPRUHN7C', Oct 2013 (revised March 2015)
37*297bb9e0SPhilipp Tomsich * * Xilinx Zynq UltraScale+ MPSoC Register Reference
38*297bb9e0SPhilipp Tomsich * document ug1087 (v1.0)
39*297bb9e0SPhilipp Tomsich * Note that the Zynq-documentation provides a very close match for the DDR
40*297bb9e0SPhilipp Tomsich * memory protocol controller (and provides a very good guide to the rounding
41*297bb9e0SPhilipp Tomsich * rules for various timings), whereas the TI Keystone II document should be
42*297bb9e0SPhilipp Tomsich * referred to for DDR PHY specifics only.
43*297bb9e0SPhilipp Tomsich *
44*297bb9e0SPhilipp Tomsich * The DRAM controller in the A80 runs at half the frequency of the DDR PHY
45*297bb9e0SPhilipp Tomsich * (i.e. the rules for MEMC_FREQ_RATIO=2 from the Zynq-documentation apply).
46*297bb9e0SPhilipp Tomsich *
47*297bb9e0SPhilipp Tomsich * Known limitations
48*297bb9e0SPhilipp Tomsich * =================
49*297bb9e0SPhilipp Tomsich * In the current state, the following features are not fully supported and
50*297bb9e0SPhilipp Tomsich * a number of simplifying assumptions have been made:
51*297bb9e0SPhilipp Tomsich * 1) Only DDR3 support is implemented, as our test platform (the A80-Q7
52*297bb9e0SPhilipp Tomsich * module) is designed to accomodate DDR3/DDR3L.
53*297bb9e0SPhilipp Tomsich * 2) Only 2T-mode has been implemented and tested.
54*297bb9e0SPhilipp Tomsich * 3) The controller supports two different clocking strategies (PLL6 can
55*297bb9e0SPhilipp Tomsich * either be 2*CK or CK/2)... we only support the 2*CK clock at this
56*297bb9e0SPhilipp Tomsich * time and haven't verified whether the alternative clocking strategy
57*297bb9e0SPhilipp Tomsich * works. If you are interested in porting this over/testing this,
58*297bb9e0SPhilipp Tomsich * please refer to cases where bit 0 of 'dram_tpr8' is tested in the
59*297bb9e0SPhilipp Tomsich * original code from Allwinner.
60*297bb9e0SPhilipp Tomsich * 4) Support for 2 ranks per controller is not implemented (as we don't
61*297bb9e0SPhilipp Tomsich * the hardware to test it).
62*297bb9e0SPhilipp Tomsich *
63*297bb9e0SPhilipp Tomsich * Future directions
64*297bb9e0SPhilipp Tomsich * =================
65*297bb9e0SPhilipp Tomsich * The driver should be driven from a device-tree based configuration that
66*297bb9e0SPhilipp Tomsich * can dynamically provide the necessary timing parameters (i.e. target
67*297bb9e0SPhilipp Tomsich * frequency and speed-bin information)---the data structures used in the
68*297bb9e0SPhilipp Tomsich * calculation of the timing parameters are already designed to capture
69*297bb9e0SPhilipp Tomsich * similar information as the device tree would provide.
70*297bb9e0SPhilipp Tomsich *
71*297bb9e0SPhilipp Tomsich * To enable a device-tree based configuration of the sun9i platform, we
72*297bb9e0SPhilipp Tomsich * will need to enable CONFIG_TPL and bootstrap in 3 stages: initially
73*297bb9e0SPhilipp Tomsich * into SRAM A1 (40KB) and next into SRAM A2 (160KB)---which would be the
74*297bb9e0SPhilipp Tomsich * stage to initialise the platform via the device-tree---before having
75*297bb9e0SPhilipp Tomsich * the full U-Boot run from DDR.
76*297bb9e0SPhilipp Tomsich */
77*297bb9e0SPhilipp Tomsich
78*297bb9e0SPhilipp Tomsich /*
79*297bb9e0SPhilipp Tomsich * A number of DDR3 timings are given as "the greater of a fixed number of
80*297bb9e0SPhilipp Tomsich * clock cycles (CK) or nanoseconds. We express these using a structure
81*297bb9e0SPhilipp Tomsich * that holds a cycle count and a duration in picoseconds (so we can model
82*297bb9e0SPhilipp Tomsich * sub-ns timings, such as 7.5ns without losing precision or resorting to
83*297bb9e0SPhilipp Tomsich * rounding up early.
84*297bb9e0SPhilipp Tomsich */
85*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing {
86*297bb9e0SPhilipp Tomsich u32 ck;
87*297bb9e0SPhilipp Tomsich u32 ps;
88*297bb9e0SPhilipp Tomsich };
89*297bb9e0SPhilipp Tomsich
90*297bb9e0SPhilipp Tomsich /* */
91*297bb9e0SPhilipp Tomsich struct dram_sun9i_cl_cwl_timing {
92*297bb9e0SPhilipp Tomsich u32 CL;
93*297bb9e0SPhilipp Tomsich u32 CWL;
94*297bb9e0SPhilipp Tomsich u32 tCKmin; /* in ps */
95*297bb9e0SPhilipp Tomsich u32 tCKmax; /* in ps */
96*297bb9e0SPhilipp Tomsich };
97*297bb9e0SPhilipp Tomsich
98*297bb9e0SPhilipp Tomsich struct dram_sun9i_para {
99*297bb9e0SPhilipp Tomsich u32 dram_type;
100*297bb9e0SPhilipp Tomsich
101*297bb9e0SPhilipp Tomsich u8 bus_width;
102*297bb9e0SPhilipp Tomsich u8 chan;
103*297bb9e0SPhilipp Tomsich u8 rank;
104*297bb9e0SPhilipp Tomsich u8 rows;
105*297bb9e0SPhilipp Tomsich u16 page_size;
106*297bb9e0SPhilipp Tomsich
107*297bb9e0SPhilipp Tomsich /* Timing information for each speed-bin */
108*297bb9e0SPhilipp Tomsich struct dram_sun9i_cl_cwl_timing *cl_cwl_table;
109*297bb9e0SPhilipp Tomsich u32 cl_cwl_numentries;
110*297bb9e0SPhilipp Tomsich
111*297bb9e0SPhilipp Tomsich /*
112*297bb9e0SPhilipp Tomsich * For the timings, we try to keep the order and grouping used in
113*297bb9e0SPhilipp Tomsich * JEDEC Standard No. 79-3F
114*297bb9e0SPhilipp Tomsich */
115*297bb9e0SPhilipp Tomsich
116*297bb9e0SPhilipp Tomsich /* timings */
117*297bb9e0SPhilipp Tomsich u32 tREFI; /* in ns */
118*297bb9e0SPhilipp Tomsich u32 tRFC; /* in ns */
119*297bb9e0SPhilipp Tomsich
120*297bb9e0SPhilipp Tomsich u32 tRAS; /* in ps */
121*297bb9e0SPhilipp Tomsich
122*297bb9e0SPhilipp Tomsich /* command and address timing */
123*297bb9e0SPhilipp Tomsich u32 tDLLK; /* in nCK */
124*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tRTP;
125*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tWTR;
126*297bb9e0SPhilipp Tomsich u32 tWR; /* in nCK */
127*297bb9e0SPhilipp Tomsich u32 tMRD; /* in nCK */
128*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tMOD;
129*297bb9e0SPhilipp Tomsich u32 tRCD; /* in ps */
130*297bb9e0SPhilipp Tomsich u32 tRP; /* in ps */
131*297bb9e0SPhilipp Tomsich u32 tRC; /* in ps */
132*297bb9e0SPhilipp Tomsich u32 tCCD; /* in nCK */
133*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tRRD;
134*297bb9e0SPhilipp Tomsich u32 tFAW; /* in ps */
135*297bb9e0SPhilipp Tomsich
136*297bb9e0SPhilipp Tomsich /* calibration timing */
137*297bb9e0SPhilipp Tomsich /* struct dram_sun9i_timing tZQinit; */
138*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tZQoper;
139*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tZQCS;
140*297bb9e0SPhilipp Tomsich
141*297bb9e0SPhilipp Tomsich /* reset timing */
142*297bb9e0SPhilipp Tomsich /* struct dram_sun9i_timing tXPR; */
143*297bb9e0SPhilipp Tomsich
144*297bb9e0SPhilipp Tomsich /* self-refresh timings */
145*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tXS;
146*297bb9e0SPhilipp Tomsich u32 tXSDLL; /* in nCK */
147*297bb9e0SPhilipp Tomsich /* struct dram_sun9i_timing tCKESR; */
148*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tCKSRE;
149*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tCKSRX;
150*297bb9e0SPhilipp Tomsich
151*297bb9e0SPhilipp Tomsich /* power-down timings */
152*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tXP;
153*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tXPDLL;
154*297bb9e0SPhilipp Tomsich struct dram_sun9i_timing tCKE;
155*297bb9e0SPhilipp Tomsich
156*297bb9e0SPhilipp Tomsich /* write leveling timings */
157*297bb9e0SPhilipp Tomsich u32 tWLMRD; /* min, in nCK */
158*297bb9e0SPhilipp Tomsich /* u32 tWLDQSEN; min, in nCK */
159*297bb9e0SPhilipp Tomsich u32 tWLO; /* max, in ns */
160*297bb9e0SPhilipp Tomsich /* u32 tWLOE; max, in ns */
161*297bb9e0SPhilipp Tomsich
162*297bb9e0SPhilipp Tomsich /* u32 tCKDPX; in nCK */
163*297bb9e0SPhilipp Tomsich /* u32 tCKCSX; in nCK */
164*297bb9e0SPhilipp Tomsich };
165*297bb9e0SPhilipp Tomsich
166*297bb9e0SPhilipp Tomsich static void mctl_sys_init(void);
167*297bb9e0SPhilipp Tomsich
168*297bb9e0SPhilipp Tomsich #define SCHED_RDWR_IDLE_GAP(n) ((n & 0xff) << 24)
169*297bb9e0SPhilipp Tomsich #define SCHED_GO2CRITICAL_HYSTERESIS(n) ((n & 0xff) << 16)
170*297bb9e0SPhilipp Tomsich #define SCHED_LPR_NUM_ENTRIES(n) ((n & 0xff) << 8)
171*297bb9e0SPhilipp Tomsich #define SCHED_PAGECLOSE (1 << 2)
172*297bb9e0SPhilipp Tomsich #define SCHED_PREFER_WRITE (1 << 1)
173*297bb9e0SPhilipp Tomsich #define SCHED_FORCE_LOW_PRI_N (1 << 0)
174*297bb9e0SPhilipp Tomsich
175*297bb9e0SPhilipp Tomsich #define SCHED_CONFIG (SCHED_RDWR_IDLE_GAP(0xf) | \
176*297bb9e0SPhilipp Tomsich SCHED_GO2CRITICAL_HYSTERESIS(0x80) | \
177*297bb9e0SPhilipp Tomsich SCHED_LPR_NUM_ENTRIES(0x20) | \
178*297bb9e0SPhilipp Tomsich SCHED_FORCE_LOW_PRI_N)
179*297bb9e0SPhilipp Tomsich #define PERFHPR0_CONFIG 0x0000001f
180*297bb9e0SPhilipp Tomsich #define PERFHPR1_CONFIG 0x1f00001f
181*297bb9e0SPhilipp Tomsich #define PERFLPR0_CONFIG 0x000000ff
182*297bb9e0SPhilipp Tomsich #define PERFLPR1_CONFIG 0x0f0000ff
183*297bb9e0SPhilipp Tomsich #define PERFWR0_CONFIG 0x000000ff
184*297bb9e0SPhilipp Tomsich #define PERFWR1_CONFIG 0x0f0001ff
185*297bb9e0SPhilipp Tomsich
mctl_ctl_sched_init(unsigned long base)186*297bb9e0SPhilipp Tomsich static void mctl_ctl_sched_init(unsigned long base)
187*297bb9e0SPhilipp Tomsich {
188*297bb9e0SPhilipp Tomsich struct sunxi_mctl_ctl_reg *mctl_ctl =
189*297bb9e0SPhilipp Tomsich (struct sunxi_mctl_ctl_reg *)base;
190*297bb9e0SPhilipp Tomsich
191*297bb9e0SPhilipp Tomsich /* Needs to be done before the global clk enable... */
192*297bb9e0SPhilipp Tomsich writel(SCHED_CONFIG, &mctl_ctl->sched);
193*297bb9e0SPhilipp Tomsich writel(PERFHPR0_CONFIG, &mctl_ctl->perfhpr0);
194*297bb9e0SPhilipp Tomsich writel(PERFHPR1_CONFIG, &mctl_ctl->perfhpr1);
195*297bb9e0SPhilipp Tomsich writel(PERFLPR0_CONFIG, &mctl_ctl->perflpr0);
196*297bb9e0SPhilipp Tomsich writel(PERFLPR1_CONFIG, &mctl_ctl->perflpr1);
197*297bb9e0SPhilipp Tomsich writel(PERFWR0_CONFIG, &mctl_ctl->perfwr0);
198*297bb9e0SPhilipp Tomsich writel(PERFWR1_CONFIG, &mctl_ctl->perfwr1);
199*297bb9e0SPhilipp Tomsich }
200*297bb9e0SPhilipp Tomsich
mctl_sys_init(void)201*297bb9e0SPhilipp Tomsich static void mctl_sys_init(void)
202*297bb9e0SPhilipp Tomsich {
203*297bb9e0SPhilipp Tomsich struct sunxi_ccm_reg * const ccm =
204*297bb9e0SPhilipp Tomsich (struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
205*297bb9e0SPhilipp Tomsich struct sunxi_mctl_com_reg * const mctl_com =
206*297bb9e0SPhilipp Tomsich (struct sunxi_mctl_com_reg *)SUNXI_DRAM_COM_BASE;
207*297bb9e0SPhilipp Tomsich
208*297bb9e0SPhilipp Tomsich debug("Setting PLL6 to %d\n", DRAM_CLK * 2);
209*297bb9e0SPhilipp Tomsich clock_set_pll6(DRAM_CLK * 2);
210*297bb9e0SPhilipp Tomsich
211*297bb9e0SPhilipp Tomsich /* Original dram init code which may come in handy later
212*297bb9e0SPhilipp Tomsich ********************************************************
213*297bb9e0SPhilipp Tomsich clock_set_pll6(use_2channelPLL ? (DRAM_CLK * 2) :
214*297bb9e0SPhilipp Tomsich (DRAM_CLK / 2), false);
215*297bb9e0SPhilipp Tomsich
216*297bb9e0SPhilipp Tomsich if ((para->dram_clk <= 400)|((para->dram_tpr8 & 0x1)==0)) {
217*297bb9e0SPhilipp Tomsich * PLL6 should be 2*CK *
218*297bb9e0SPhilipp Tomsich * ccm_setup_pll6_ddr_clk(PLL6_DDR_CLK); *
219*297bb9e0SPhilipp Tomsich ccm_setup_pll6_ddr_clk((1000000 * (para->dram_clk) * 2), 0);
220*297bb9e0SPhilipp Tomsich } else {
221*297bb9e0SPhilipp Tomsich * PLL6 should be CK/2 *
222*297bb9e0SPhilipp Tomsich ccm_setup_pll6_ddr_clk((1000000 * (para->dram_clk) / 2), 1);
223*297bb9e0SPhilipp Tomsich }
224*297bb9e0SPhilipp Tomsich
225*297bb9e0SPhilipp Tomsich if (para->dram_tpr13 & (0xf<<18)) {
226*297bb9e0SPhilipp Tomsich *
227*297bb9e0SPhilipp Tomsich * bit21:bit18=0001:pll swing 0.4
228*297bb9e0SPhilipp Tomsich * bit21:bit18=0010:pll swing 0.3
229*297bb9e0SPhilipp Tomsich * bit21:bit18=0100:pll swing 0.2
230*297bb9e0SPhilipp Tomsich * bit21:bit18=1000:pll swing 0.1
231*297bb9e0SPhilipp Tomsich *
232*297bb9e0SPhilipp Tomsich dram_dbg("DRAM fre extend open !\n");
233*297bb9e0SPhilipp Tomsich reg_val=mctl_read_w(CCM_PLL6_DDR_REG);
234*297bb9e0SPhilipp Tomsich reg_val&=(0x1<<16);
235*297bb9e0SPhilipp Tomsich reg_val=reg_val>>16;
236*297bb9e0SPhilipp Tomsich
237*297bb9e0SPhilipp Tomsich if(para->dram_tpr13 & (0x1<<18))
238*297bb9e0SPhilipp Tomsich {
239*297bb9e0SPhilipp Tomsich mctl_write_w(CCM_PLL_BASE + 0x114,
240*297bb9e0SPhilipp Tomsich (0x3333U|(0x3<<17)|(reg_val<<19)|(0x120U<<20)|
241*297bb9e0SPhilipp Tomsich (0x2U<<29)|(0x1U<<31)));
242*297bb9e0SPhilipp Tomsich }
243*297bb9e0SPhilipp Tomsich else if(para->dram_tpr13 & (0x1<<19))
244*297bb9e0SPhilipp Tomsich {
245*297bb9e0SPhilipp Tomsich mctl_write_w(CCM_PLL_BASE + 0x114,
246*297bb9e0SPhilipp Tomsich (0x6666U|(0x3U<<17)|(reg_val<<19)|(0xD8U<<20)|
247*297bb9e0SPhilipp Tomsich (0x2U<<29)|(0x1U<<31)));
248*297bb9e0SPhilipp Tomsich }
249*297bb9e0SPhilipp Tomsich else if(para->dram_tpr13 & (0x1<<20))
250*297bb9e0SPhilipp Tomsich {
251*297bb9e0SPhilipp Tomsich mctl_write_w(CCM_PLL_BASE + 0x114,
252*297bb9e0SPhilipp Tomsich (0x9999U|(0x3U<<17)|(reg_val<<19)|(0x90U<<20)|
253*297bb9e0SPhilipp Tomsich (0x2U<<29)|(0x1U<<31)));
254*297bb9e0SPhilipp Tomsich }
255*297bb9e0SPhilipp Tomsich else if(para->dram_tpr13 & (0x1<<21))
256*297bb9e0SPhilipp Tomsich {
257*297bb9e0SPhilipp Tomsich mctl_write_w(CCM_PLL_BASE + 0x114,
258*297bb9e0SPhilipp Tomsich (0xccccU|(0x3U<<17)|(reg_val<<19)|(0x48U<<20)|
259*297bb9e0SPhilipp Tomsich (0x2U<<29)|(0x1U<<31)));
260*297bb9e0SPhilipp Tomsich }
261*297bb9e0SPhilipp Tomsich
262*297bb9e0SPhilipp Tomsich //frequency extend open
263*297bb9e0SPhilipp Tomsich reg_val = mctl_read_w(CCM_PLL6_DDR_REG);
264*297bb9e0SPhilipp Tomsich reg_val |= ((0x1<<24)|(0x1<<30));
265*297bb9e0SPhilipp Tomsich mctl_write_w(CCM_PLL6_DDR_REG, reg_val);
266*297bb9e0SPhilipp Tomsich
267*297bb9e0SPhilipp Tomsich
268*297bb9e0SPhilipp Tomsich while(mctl_read_w(CCM_PLL6_DDR_REG) & (0x1<<30));
269*297bb9e0SPhilipp Tomsich }
270*297bb9e0SPhilipp Tomsich
271*297bb9e0SPhilipp Tomsich aw_delay(0x20000); //make some delay
272*297bb9e0SPhilipp Tomsich ********************************************************
273*297bb9e0SPhilipp Tomsich */
274*297bb9e0SPhilipp Tomsich
275*297bb9e0SPhilipp Tomsich /* assert mctl reset */
276*297bb9e0SPhilipp Tomsich clrbits_le32(&ccm->ahb_reset0_cfg, 1 << AHB_RESET_OFFSET_MCTL);
277*297bb9e0SPhilipp Tomsich /* stop mctl clock */
278*297bb9e0SPhilipp Tomsich clrbits_le32(&ccm->ahb_gate0, 1 << AHB_GATE_OFFSET_MCTL);
279*297bb9e0SPhilipp Tomsich
280*297bb9e0SPhilipp Tomsich sdelay(2000);
281*297bb9e0SPhilipp Tomsich
282*297bb9e0SPhilipp Tomsich /* deassert mctl reset */
283*297bb9e0SPhilipp Tomsich setbits_le32(&ccm->ahb_reset0_cfg, 1 << AHB_RESET_OFFSET_MCTL);
284*297bb9e0SPhilipp Tomsich /* enable mctl clock */
285*297bb9e0SPhilipp Tomsich setbits_le32(&ccm->ahb_gate0, 1 << AHB_GATE_OFFSET_MCTL);
286*297bb9e0SPhilipp Tomsich
287*297bb9e0SPhilipp Tomsich /* set up the transactions scheduling before enabling the global clk */
288*297bb9e0SPhilipp Tomsich mctl_ctl_sched_init(SUNXI_DRAM_CTL0_BASE);
289*297bb9e0SPhilipp Tomsich mctl_ctl_sched_init(SUNXI_DRAM_CTL1_BASE);
290*297bb9e0SPhilipp Tomsich sdelay(1000);
291*297bb9e0SPhilipp Tomsich
292*297bb9e0SPhilipp Tomsich debug("2\n");
293*297bb9e0SPhilipp Tomsich
294*297bb9e0SPhilipp Tomsich /* (3 << 12): PLL_DDR */
295*297bb9e0SPhilipp Tomsich writel((3 << 12) | (1 << 16), &ccm->dram_clk_cfg);
296*297bb9e0SPhilipp Tomsich do {
297*297bb9e0SPhilipp Tomsich debug("Waiting for DRAM_CLK_CFG\n");
298*297bb9e0SPhilipp Tomsich sdelay(10000);
299*297bb9e0SPhilipp Tomsich } while (readl(&ccm->dram_clk_cfg) & (1 << 16));
300*297bb9e0SPhilipp Tomsich setbits_le32(&ccm->dram_clk_cfg, (1 << 31));
301*297bb9e0SPhilipp Tomsich
302*297bb9e0SPhilipp Tomsich /* TODO: we only support the common case ... i.e. 2*CK */
303*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_com->ccr, (1 << 14) | (1 << 30));
304*297bb9e0SPhilipp Tomsich writel(2, &mctl_com->rmcr); /* controller clock is PLL6/4 */
305*297bb9e0SPhilipp Tomsich
306*297bb9e0SPhilipp Tomsich sdelay(2000);
307*297bb9e0SPhilipp Tomsich
308*297bb9e0SPhilipp Tomsich /* Original dram init code which may come in handy later
309*297bb9e0SPhilipp Tomsich ********************************************************
310*297bb9e0SPhilipp Tomsich if ((para->dram_clk <= 400) | ((para->dram_tpr8 & 0x1) == 0)) {
311*297bb9e0SPhilipp Tomsich * PLL6 should be 2*CK *
312*297bb9e0SPhilipp Tomsich * gating 2 channel pll *
313*297bb9e0SPhilipp Tomsich reg_val = mctl_read_w(MC_CCR);
314*297bb9e0SPhilipp Tomsich reg_val |= ((0x1 << 14) | (0x1U << 30));
315*297bb9e0SPhilipp Tomsich mctl_write_w(MC_CCR, reg_val);
316*297bb9e0SPhilipp Tomsich mctl_write_w(MC_RMCR, 0x2); * controller clock use pll6/4 *
317*297bb9e0SPhilipp Tomsich } else {
318*297bb9e0SPhilipp Tomsich * enable 2 channel pll *
319*297bb9e0SPhilipp Tomsich reg_val = mctl_read_w(MC_CCR);
320*297bb9e0SPhilipp Tomsich reg_val &= ~((0x1 << 14) | (0x1U << 30));
321*297bb9e0SPhilipp Tomsich mctl_write_w(MC_CCR, reg_val);
322*297bb9e0SPhilipp Tomsich mctl_write_w(MC_RMCR, 0x0); * controller clock use pll6 *
323*297bb9e0SPhilipp Tomsich }
324*297bb9e0SPhilipp Tomsich
325*297bb9e0SPhilipp Tomsich reg_val = mctl_read_w(MC_CCR);
326*297bb9e0SPhilipp Tomsich reg_val &= ~((0x1<<15)|(0x1U<<31));
327*297bb9e0SPhilipp Tomsich mctl_write_w(MC_CCR, reg_val);
328*297bb9e0SPhilipp Tomsich aw_delay(20);
329*297bb9e0SPhilipp Tomsich //aw_delay(0x10);
330*297bb9e0SPhilipp Tomsich ********************************************************
331*297bb9e0SPhilipp Tomsich */
332*297bb9e0SPhilipp Tomsich
333*297bb9e0SPhilipp Tomsich clrbits_le32(&mctl_com->ccr, MCTL_CCR_CH0_CLK_EN | MCTL_CCR_CH1_CLK_EN);
334*297bb9e0SPhilipp Tomsich sdelay(1000);
335*297bb9e0SPhilipp Tomsich
336*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_com->ccr, MCTL_CCR_CH0_CLK_EN);
337*297bb9e0SPhilipp Tomsich /* TODO if (para->chan == 2) */
338*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_com->ccr, MCTL_CCR_CH1_CLK_EN);
339*297bb9e0SPhilipp Tomsich }
340*297bb9e0SPhilipp Tomsich
mctl_com_init(struct dram_sun9i_para * para)341*297bb9e0SPhilipp Tomsich static void mctl_com_init(struct dram_sun9i_para *para)
342*297bb9e0SPhilipp Tomsich {
343*297bb9e0SPhilipp Tomsich struct sunxi_mctl_com_reg * const mctl_com =
344*297bb9e0SPhilipp Tomsich (struct sunxi_mctl_com_reg *)SUNXI_DRAM_COM_BASE;
345*297bb9e0SPhilipp Tomsich
346*297bb9e0SPhilipp Tomsich /* TODO: hard-wired for DDR3 now */
347*297bb9e0SPhilipp Tomsich writel(((para->chan == 2) ? MCTL_CR_CHANNEL_DUAL :
348*297bb9e0SPhilipp Tomsich MCTL_CR_CHANNEL_SINGLE)
349*297bb9e0SPhilipp Tomsich | MCTL_CR_DRAMTYPE_DDR3 | MCTL_CR_BANK(1)
350*297bb9e0SPhilipp Tomsich | MCTL_CR_ROW(para->rows)
351*297bb9e0SPhilipp Tomsich | ((para->bus_width == 32) ? MCTL_CR_BUSW32 : MCTL_CR_BUSW16)
352*297bb9e0SPhilipp Tomsich | MCTL_CR_PAGE_SIZE(para->page_size) | MCTL_CR_RANK(para->rank),
353*297bb9e0SPhilipp Tomsich &mctl_com->cr);
354*297bb9e0SPhilipp Tomsich
355*297bb9e0SPhilipp Tomsich debug("CR: %d\n", readl(&mctl_com->cr));
356*297bb9e0SPhilipp Tomsich }
357*297bb9e0SPhilipp Tomsich
mctl_channel_init(u32 ch_index,struct dram_sun9i_para * para)358*297bb9e0SPhilipp Tomsich static u32 mctl_channel_init(u32 ch_index, struct dram_sun9i_para *para)
359*297bb9e0SPhilipp Tomsich {
360*297bb9e0SPhilipp Tomsich struct sunxi_mctl_ctl_reg *mctl_ctl;
361*297bb9e0SPhilipp Tomsich struct sunxi_mctl_phy_reg *mctl_phy;
362*297bb9e0SPhilipp Tomsich
363*297bb9e0SPhilipp Tomsich u32 CL = 0;
364*297bb9e0SPhilipp Tomsich u32 CWL = 0;
365*297bb9e0SPhilipp Tomsich u16 mr[4] = { 0, };
366*297bb9e0SPhilipp Tomsich
367*297bb9e0SPhilipp Tomsich #define PS2CYCLES_FLOOR(n) ((n * CONFIG_DRAM_CLK) / 1000000)
368*297bb9e0SPhilipp Tomsich #define PS2CYCLES_ROUNDUP(n) ((n * CONFIG_DRAM_CLK + 999999) / 1000000)
369*297bb9e0SPhilipp Tomsich #define NS2CYCLES_FLOOR(n) ((n * CONFIG_DRAM_CLK) / 1000)
370*297bb9e0SPhilipp Tomsich #define NS2CYCLES_ROUNDUP(n) ((n * CONFIG_DRAM_CLK + 999) / 1000)
371*297bb9e0SPhilipp Tomsich #define MAX(a, b) ((a) > (b) ? (a) : (b))
372*297bb9e0SPhilipp Tomsich
373*297bb9e0SPhilipp Tomsich /*
374*297bb9e0SPhilipp Tomsich * Convert the values to cycle counts (nCK) from what is provided
375*297bb9e0SPhilipp Tomsich * by the definition of each speed bin.
376*297bb9e0SPhilipp Tomsich */
377*297bb9e0SPhilipp Tomsich /* const u32 tREFI = NS2CYCLES_FLOOR(para->tREFI); */
378*297bb9e0SPhilipp Tomsich const u32 tREFI = NS2CYCLES_FLOOR(para->tREFI);
379*297bb9e0SPhilipp Tomsich const u32 tRFC = NS2CYCLES_ROUNDUP(para->tRFC);
380*297bb9e0SPhilipp Tomsich const u32 tRCD = PS2CYCLES_ROUNDUP(para->tRCD);
381*297bb9e0SPhilipp Tomsich const u32 tRP = PS2CYCLES_ROUNDUP(para->tRP);
382*297bb9e0SPhilipp Tomsich const u32 tRC = PS2CYCLES_ROUNDUP(para->tRC);
383*297bb9e0SPhilipp Tomsich const u32 tRAS = PS2CYCLES_ROUNDUP(para->tRAS);
384*297bb9e0SPhilipp Tomsich
385*297bb9e0SPhilipp Tomsich /* command and address timing */
386*297bb9e0SPhilipp Tomsich const u32 tDLLK = para->tDLLK;
387*297bb9e0SPhilipp Tomsich const u32 tRTP = MAX(para->tRTP.ck, PS2CYCLES_ROUNDUP(para->tRTP.ps));
388*297bb9e0SPhilipp Tomsich const u32 tWTR = MAX(para->tWTR.ck, PS2CYCLES_ROUNDUP(para->tWTR.ps));
389*297bb9e0SPhilipp Tomsich const u32 tWR = NS2CYCLES_FLOOR(para->tWR);
390*297bb9e0SPhilipp Tomsich const u32 tMRD = para->tMRD;
391*297bb9e0SPhilipp Tomsich const u32 tMOD = MAX(para->tMOD.ck, PS2CYCLES_ROUNDUP(para->tMOD.ps));
392*297bb9e0SPhilipp Tomsich const u32 tCCD = para->tCCD;
393*297bb9e0SPhilipp Tomsich const u32 tRRD = MAX(para->tRRD.ck, PS2CYCLES_ROUNDUP(para->tRRD.ps));
394*297bb9e0SPhilipp Tomsich const u32 tFAW = PS2CYCLES_ROUNDUP(para->tFAW);
395*297bb9e0SPhilipp Tomsich
396*297bb9e0SPhilipp Tomsich /* calibration timings */
397*297bb9e0SPhilipp Tomsich /* const u32 tZQinit = MAX(para->tZQinit.ck,
398*297bb9e0SPhilipp Tomsich PS2CYCLES_ROUNDUP(para->tZQinit.ps)); */
399*297bb9e0SPhilipp Tomsich const u32 tZQoper = MAX(para->tZQoper.ck,
400*297bb9e0SPhilipp Tomsich PS2CYCLES_ROUNDUP(para->tZQoper.ps));
401*297bb9e0SPhilipp Tomsich const u32 tZQCS = MAX(para->tZQCS.ck,
402*297bb9e0SPhilipp Tomsich PS2CYCLES_ROUNDUP(para->tZQCS.ps));
403*297bb9e0SPhilipp Tomsich
404*297bb9e0SPhilipp Tomsich /* reset timing */
405*297bb9e0SPhilipp Tomsich /* const u32 tXPR = MAX(para->tXPR.ck,
406*297bb9e0SPhilipp Tomsich PS2CYCLES_ROUNDUP(para->tXPR.ps)); */
407*297bb9e0SPhilipp Tomsich
408*297bb9e0SPhilipp Tomsich /* power-down timings */
409*297bb9e0SPhilipp Tomsich const u32 tXP = MAX(para->tXP.ck, PS2CYCLES_ROUNDUP(para->tXP.ps));
410*297bb9e0SPhilipp Tomsich const u32 tXPDLL = MAX(para->tXPDLL.ck,
411*297bb9e0SPhilipp Tomsich PS2CYCLES_ROUNDUP(para->tXPDLL.ps));
412*297bb9e0SPhilipp Tomsich const u32 tCKE = MAX(para->tCKE.ck, PS2CYCLES_ROUNDUP(para->tCKE.ps));
413*297bb9e0SPhilipp Tomsich
414*297bb9e0SPhilipp Tomsich /*
415*297bb9e0SPhilipp Tomsich * self-refresh timings (keep below power-down timings, as tCKESR
416*297bb9e0SPhilipp Tomsich * needs to be calculated based on the nCK value of tCKE)
417*297bb9e0SPhilipp Tomsich */
418*297bb9e0SPhilipp Tomsich const u32 tXS = MAX(para->tXS.ck, PS2CYCLES_ROUNDUP(para->tXS.ps));
419*297bb9e0SPhilipp Tomsich const u32 tXSDLL = para->tXSDLL;
420*297bb9e0SPhilipp Tomsich const u32 tCKSRE = MAX(para->tCKSRE.ck,
421*297bb9e0SPhilipp Tomsich PS2CYCLES_ROUNDUP(para->tCKSRE.ps));
422*297bb9e0SPhilipp Tomsich const u32 tCKESR = tCKE + 1;
423*297bb9e0SPhilipp Tomsich const u32 tCKSRX = MAX(para->tCKSRX.ck,
424*297bb9e0SPhilipp Tomsich PS2CYCLES_ROUNDUP(para->tCKSRX.ps));
425*297bb9e0SPhilipp Tomsich
426*297bb9e0SPhilipp Tomsich /* write leveling timings */
427*297bb9e0SPhilipp Tomsich const u32 tWLMRD = para->tWLMRD;
428*297bb9e0SPhilipp Tomsich /* const u32 tWLDQSEN = para->tWLDQSEN; */
429*297bb9e0SPhilipp Tomsich const u32 tWLO = PS2CYCLES_FLOOR(para->tWLO);
430*297bb9e0SPhilipp Tomsich /* const u32 tWLOE = PS2CYCLES_FLOOR(para->tWLOE); */
431*297bb9e0SPhilipp Tomsich
432*297bb9e0SPhilipp Tomsich const u32 tRASmax = tREFI * 9;
433*297bb9e0SPhilipp Tomsich int i;
434*297bb9e0SPhilipp Tomsich
435*297bb9e0SPhilipp Tomsich for (i = 0; i < para->cl_cwl_numentries; ++i) {
436*297bb9e0SPhilipp Tomsich const u32 tCK = 1000000 / CONFIG_DRAM_CLK;
437*297bb9e0SPhilipp Tomsich
438*297bb9e0SPhilipp Tomsich if ((para->cl_cwl_table[i].tCKmin <= tCK) &&
439*297bb9e0SPhilipp Tomsich (tCK < para->cl_cwl_table[i].tCKmax)) {
440*297bb9e0SPhilipp Tomsich CL = para->cl_cwl_table[i].CL;
441*297bb9e0SPhilipp Tomsich CWL = para->cl_cwl_table[i].CWL;
442*297bb9e0SPhilipp Tomsich
443*297bb9e0SPhilipp Tomsich debug("found CL/CWL: CL = %d, CWL = %d\n", CL, CWL);
444*297bb9e0SPhilipp Tomsich break;
445*297bb9e0SPhilipp Tomsich }
446*297bb9e0SPhilipp Tomsich }
447*297bb9e0SPhilipp Tomsich
448*297bb9e0SPhilipp Tomsich if ((CL == 0) && (CWL == 0)) {
449*297bb9e0SPhilipp Tomsich printf("failed to find valid CL/CWL for operating point %d MHz\n",
450*297bb9e0SPhilipp Tomsich CONFIG_DRAM_CLK);
451*297bb9e0SPhilipp Tomsich return 0;
452*297bb9e0SPhilipp Tomsich }
453*297bb9e0SPhilipp Tomsich
454*297bb9e0SPhilipp Tomsich if (ch_index == 0) {
455*297bb9e0SPhilipp Tomsich mctl_ctl = (struct sunxi_mctl_ctl_reg *)SUNXI_DRAM_CTL0_BASE;
456*297bb9e0SPhilipp Tomsich mctl_phy = (struct sunxi_mctl_phy_reg *)SUNXI_DRAM_PHY0_BASE;
457*297bb9e0SPhilipp Tomsich } else {
458*297bb9e0SPhilipp Tomsich mctl_ctl = (struct sunxi_mctl_ctl_reg *)SUNXI_DRAM_CTL1_BASE;
459*297bb9e0SPhilipp Tomsich mctl_phy = (struct sunxi_mctl_phy_reg *)SUNXI_DRAM_PHY1_BASE;
460*297bb9e0SPhilipp Tomsich }
461*297bb9e0SPhilipp Tomsich
462*297bb9e0SPhilipp Tomsich if (para->dram_type == DRAM_TYPE_DDR3) {
463*297bb9e0SPhilipp Tomsich mr[0] = DDR3_MR0_PPD_FAST_EXIT | DDR3_MR0_WR(tWR) |
464*297bb9e0SPhilipp Tomsich DDR3_MR0_CL(CL);
465*297bb9e0SPhilipp Tomsich mr[1] = DDR3_MR1_RTT120OHM;
466*297bb9e0SPhilipp Tomsich mr[2] = DDR3_MR2_TWL(CWL);
467*297bb9e0SPhilipp Tomsich mr[3] = 0;
468*297bb9e0SPhilipp Tomsich
469*297bb9e0SPhilipp Tomsich /*
470*297bb9e0SPhilipp Tomsich * DRAM3 initialisation requires holding CKE LOW for
471*297bb9e0SPhilipp Tomsich * at least 500us prior to starting the initialisation
472*297bb9e0SPhilipp Tomsich * sequence and at least 10ns after driving CKE HIGH
473*297bb9e0SPhilipp Tomsich * before the initialisation sequence may be started).
474*297bb9e0SPhilipp Tomsich *
475*297bb9e0SPhilipp Tomsich * Refer to Micron document "TN-41-07: DDR3 Power-Up,
476*297bb9e0SPhilipp Tomsich * Initialization, and Reset DDR3 Initialization
477*297bb9e0SPhilipp Tomsich * Routine" for details).
478*297bb9e0SPhilipp Tomsich */
479*297bb9e0SPhilipp Tomsich writel(MCTL_INIT0_POST_CKE_x1024(1) |
480*297bb9e0SPhilipp Tomsich MCTL_INIT0_PRE_CKE_x1024(
481*297bb9e0SPhilipp Tomsich (500 * CONFIG_DRAM_CLK + 1023) / 1024), /* 500us */
482*297bb9e0SPhilipp Tomsich &mctl_ctl->init[0]);
483*297bb9e0SPhilipp Tomsich writel(MCTL_INIT1_DRAM_RSTN_x1024(1),
484*297bb9e0SPhilipp Tomsich &mctl_ctl->init[1]);
485*297bb9e0SPhilipp Tomsich /* INIT2 is not used for DDR3 */
486*297bb9e0SPhilipp Tomsich writel(MCTL_INIT3_MR(mr[0]) | MCTL_INIT3_EMR(mr[1]),
487*297bb9e0SPhilipp Tomsich &mctl_ctl->init[3]);
488*297bb9e0SPhilipp Tomsich writel(MCTL_INIT4_EMR2(mr[2]) | MCTL_INIT4_EMR3(mr[3]),
489*297bb9e0SPhilipp Tomsich &mctl_ctl->init[4]);
490*297bb9e0SPhilipp Tomsich writel(MCTL_INIT5_DEV_ZQINIT_x32(512 / 32), /* 512 cycles */
491*297bb9e0SPhilipp Tomsich &mctl_ctl->init[5]);
492*297bb9e0SPhilipp Tomsich } else {
493*297bb9e0SPhilipp Tomsich /* !!! UNTESTED !!! */
494*297bb9e0SPhilipp Tomsich /*
495*297bb9e0SPhilipp Tomsich * LPDDR2 and/or LPDDR3 require a 200us minimum delay
496*297bb9e0SPhilipp Tomsich * after driving CKE HIGH in the initialisation sequence.
497*297bb9e0SPhilipp Tomsich */
498*297bb9e0SPhilipp Tomsich writel(MCTL_INIT0_POST_CKE_x1024(
499*297bb9e0SPhilipp Tomsich (200 * CONFIG_DRAM_CLK + 1023) / 1024),
500*297bb9e0SPhilipp Tomsich &mctl_ctl->init[0]);
501*297bb9e0SPhilipp Tomsich writel(MCTL_INIT1_DRAM_RSTN_x1024(1),
502*297bb9e0SPhilipp Tomsich &mctl_ctl->init[1]);
503*297bb9e0SPhilipp Tomsich writel(MCTL_INIT2_IDLE_AFTER_RESET_x32(
504*297bb9e0SPhilipp Tomsich (CONFIG_DRAM_CLK + 31) / 32) /* 1us */
505*297bb9e0SPhilipp Tomsich | MCTL_INIT2_MIN_STABLE_CLOCK_x1(5), /* 5 cycles */
506*297bb9e0SPhilipp Tomsich &mctl_ctl->init[2]);
507*297bb9e0SPhilipp Tomsich writel(MCTL_INIT3_MR(mr[1]) | MCTL_INIT3_EMR(mr[2]),
508*297bb9e0SPhilipp Tomsich &mctl_ctl->init[3]);
509*297bb9e0SPhilipp Tomsich writel(MCTL_INIT4_EMR2(mr[3]),
510*297bb9e0SPhilipp Tomsich &mctl_ctl->init[4]);
511*297bb9e0SPhilipp Tomsich writel(MCTL_INIT5_DEV_ZQINIT_x32(
512*297bb9e0SPhilipp Tomsich (CONFIG_DRAM_CLK + 31) / 32) /* 1us */
513*297bb9e0SPhilipp Tomsich | MCTL_INIT5_MAX_AUTO_INIT_x1024(
514*297bb9e0SPhilipp Tomsich (10 * CONFIG_DRAM_CLK + 1023) / 1024),
515*297bb9e0SPhilipp Tomsich &mctl_ctl->init[5]);
516*297bb9e0SPhilipp Tomsich }
517*297bb9e0SPhilipp Tomsich
518*297bb9e0SPhilipp Tomsich /* (DDR3) We always use a burst-length of 8. */
519*297bb9e0SPhilipp Tomsich #define MCTL_BL 8
520*297bb9e0SPhilipp Tomsich /* wr2pre: WL + BL/2 + tWR */
521*297bb9e0SPhilipp Tomsich #define WR2PRE (MCTL_BL/2 + CWL + tWTR)
522*297bb9e0SPhilipp Tomsich /* wr2rd = CWL + BL/2 + tWTR */
523*297bb9e0SPhilipp Tomsich #define WR2RD (MCTL_BL/2 + CWL + tWTR)
524*297bb9e0SPhilipp Tomsich /*
525*297bb9e0SPhilipp Tomsich * rd2wr = RL + BL/2 + 2 - WL (for DDR3)
526*297bb9e0SPhilipp Tomsich * rd2wr = RL + BL/2 + RU(tDQSCKmax/tCK) + 1 - WL (for LPDDR2/LPDDR3)
527*297bb9e0SPhilipp Tomsich */
528*297bb9e0SPhilipp Tomsich #define RD2WR (CL + MCTL_BL/2 + 2 - CWL)
529*297bb9e0SPhilipp Tomsich #define MCTL_PHY_TRTW 0
530*297bb9e0SPhilipp Tomsich #define MCTL_PHY_TRTODT 0
531*297bb9e0SPhilipp Tomsich
532*297bb9e0SPhilipp Tomsich #define MCTL_DIV2(n) ((n + 1)/2)
533*297bb9e0SPhilipp Tomsich #define MCTL_DIV32(n) (n/32)
534*297bb9e0SPhilipp Tomsich #define MCTL_DIV1024(n) (n/1024)
535*297bb9e0SPhilipp Tomsich
536*297bb9e0SPhilipp Tomsich writel((MCTL_DIV2(WR2PRE) << 24) | (MCTL_DIV2(tFAW) << 16) |
537*297bb9e0SPhilipp Tomsich (MCTL_DIV1024(tRASmax) << 8) | (MCTL_DIV2(tRAS) << 0),
538*297bb9e0SPhilipp Tomsich &mctl_ctl->dramtmg[0]);
539*297bb9e0SPhilipp Tomsich writel((MCTL_DIV2(tXP) << 16) | (MCTL_DIV2(tRTP) << 8) |
540*297bb9e0SPhilipp Tomsich (MCTL_DIV2(tRC) << 0),
541*297bb9e0SPhilipp Tomsich &mctl_ctl->dramtmg[1]);
542*297bb9e0SPhilipp Tomsich writel((MCTL_DIV2(CWL) << 24) | (MCTL_DIV2(CL) << 16) |
543*297bb9e0SPhilipp Tomsich (MCTL_DIV2(RD2WR) << 8) | (MCTL_DIV2(WR2RD) << 0),
544*297bb9e0SPhilipp Tomsich &mctl_ctl->dramtmg[2]);
545*297bb9e0SPhilipp Tomsich /*
546*297bb9e0SPhilipp Tomsich * Note: tMRW is located at bit 16 (and up) in DRAMTMG3...
547*297bb9e0SPhilipp Tomsich * this is only relevant for LPDDR2/LPDDR3
548*297bb9e0SPhilipp Tomsich */
549*297bb9e0SPhilipp Tomsich writel((MCTL_DIV2(tMRD) << 12) | (MCTL_DIV2(tMOD) << 0),
550*297bb9e0SPhilipp Tomsich &mctl_ctl->dramtmg[3]);
551*297bb9e0SPhilipp Tomsich writel((MCTL_DIV2(tRCD) << 24) | (MCTL_DIV2(tCCD) << 16) |
552*297bb9e0SPhilipp Tomsich (MCTL_DIV2(tRRD) << 8) | (MCTL_DIV2(tRP) << 0),
553*297bb9e0SPhilipp Tomsich &mctl_ctl->dramtmg[4]);
554*297bb9e0SPhilipp Tomsich writel((MCTL_DIV2(tCKSRX) << 24) | (MCTL_DIV2(tCKSRE) << 16) |
555*297bb9e0SPhilipp Tomsich (MCTL_DIV2(tCKESR) << 8) | (MCTL_DIV2(tCKE) << 0),
556*297bb9e0SPhilipp Tomsich &mctl_ctl->dramtmg[5]);
557*297bb9e0SPhilipp Tomsich
558*297bb9e0SPhilipp Tomsich /* These timings are relevant for LPDDR2/LPDDR3 only */
559*297bb9e0SPhilipp Tomsich /* writel((MCTL_TCKDPDE << 24) | (MCTL_TCKDPX << 16) |
560*297bb9e0SPhilipp Tomsich (MCTL_TCKCSX << 0), &mctl_ctl->dramtmg[6]); */
561*297bb9e0SPhilipp Tomsich
562*297bb9e0SPhilipp Tomsich /* printf("DRAMTMG7 reset value: 0x%x\n",
563*297bb9e0SPhilipp Tomsich readl(&mctl_ctl->dramtmg[7])); */
564*297bb9e0SPhilipp Tomsich /* DRAMTMG7 reset value: 0x202 */
565*297bb9e0SPhilipp Tomsich /* DRAMTMG7 should contain t_ckpde and t_ckpdx: check reset values!!! */
566*297bb9e0SPhilipp Tomsich /* printf("DRAMTMG8 reset value: 0x%x\n",
567*297bb9e0SPhilipp Tomsich readl(&mctl_ctl->dramtmg[8])); */
568*297bb9e0SPhilipp Tomsich /* DRAMTMG8 reset value: 0x44 */
569*297bb9e0SPhilipp Tomsich
570*297bb9e0SPhilipp Tomsich writel((MCTL_DIV32(tXSDLL) << 0), &mctl_ctl->dramtmg[8]);
571*297bb9e0SPhilipp Tomsich
572*297bb9e0SPhilipp Tomsich writel((MCTL_DIV32(tREFI) << 16) | (MCTL_DIV2(tRFC) << 0),
573*297bb9e0SPhilipp Tomsich &mctl_ctl->rfshtmg);
574*297bb9e0SPhilipp Tomsich
575*297bb9e0SPhilipp Tomsich if (para->dram_type == DRAM_TYPE_DDR3) {
576*297bb9e0SPhilipp Tomsich writel((2 << 24) | ((MCTL_DIV2(CL) - 2) << 16) |
577*297bb9e0SPhilipp Tomsich (1 << 8) | ((MCTL_DIV2(CWL) - 2) << 0),
578*297bb9e0SPhilipp Tomsich &mctl_ctl->dfitmg[0]);
579*297bb9e0SPhilipp Tomsich } else {
580*297bb9e0SPhilipp Tomsich /* TODO */
581*297bb9e0SPhilipp Tomsich }
582*297bb9e0SPhilipp Tomsich
583*297bb9e0SPhilipp Tomsich /* TODO: handle the case of the write latency domain going to 0 ... */
584*297bb9e0SPhilipp Tomsich
585*297bb9e0SPhilipp Tomsich /*
586*297bb9e0SPhilipp Tomsich * Disable dfi_init_complete_en (the triggering of the SDRAM
587*297bb9e0SPhilipp Tomsich * initialisation when the PHY initialisation completes).
588*297bb9e0SPhilipp Tomsich */
589*297bb9e0SPhilipp Tomsich clrbits_le32(&mctl_ctl->dfimisc, MCTL_DFIMISC_DFI_INIT_COMPLETE_EN);
590*297bb9e0SPhilipp Tomsich /* Disable the automatic generation of DLL calibration requests */
591*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_ctl->dfiupd[0], MCTL_DFIUPD0_DIS_AUTO_CTRLUPD);
592*297bb9e0SPhilipp Tomsich
593*297bb9e0SPhilipp Tomsich /* A80-Q7: 2T, 1 rank, DDR3, full-32bit-DQ */
594*297bb9e0SPhilipp Tomsich /* TODO: make 2T and BUSWIDTH configurable */
595*297bb9e0SPhilipp Tomsich writel(MCTL_MSTR_DEVICETYPE(para->dram_type) |
596*297bb9e0SPhilipp Tomsich MCTL_MSTR_BURSTLENGTH(para->dram_type) |
597*297bb9e0SPhilipp Tomsich MCTL_MSTR_ACTIVERANKS(para->rank) |
598*297bb9e0SPhilipp Tomsich MCTL_MSTR_2TMODE | MCTL_MSTR_BUSWIDTH32,
599*297bb9e0SPhilipp Tomsich &mctl_ctl->mstr);
600*297bb9e0SPhilipp Tomsich
601*297bb9e0SPhilipp Tomsich if (para->dram_type == DRAM_TYPE_DDR3) {
602*297bb9e0SPhilipp Tomsich writel(MCTL_ZQCTRL0_TZQCL(MCTL_DIV2(tZQoper)) |
603*297bb9e0SPhilipp Tomsich (MCTL_DIV2(tZQCS)), &mctl_ctl->zqctrl[0]);
604*297bb9e0SPhilipp Tomsich /*
605*297bb9e0SPhilipp Tomsich * TODO: is the following really necessary as the bottom
606*297bb9e0SPhilipp Tomsich * half should already be 0x100 and the upper half should
607*297bb9e0SPhilipp Tomsich * be ignored for a DDR3 device???
608*297bb9e0SPhilipp Tomsich */
609*297bb9e0SPhilipp Tomsich writel(MCTL_ZQCTRL1_TZQSI_x1024(0x100),
610*297bb9e0SPhilipp Tomsich &mctl_ctl->zqctrl[1]);
611*297bb9e0SPhilipp Tomsich } else {
612*297bb9e0SPhilipp Tomsich writel(MCTL_ZQCTRL0_TZQCL(0x200) | MCTL_ZQCTRL0_TZQCS(0x40),
613*297bb9e0SPhilipp Tomsich &mctl_ctl->zqctrl[0]);
614*297bb9e0SPhilipp Tomsich writel(MCTL_ZQCTRL1_TZQRESET(0x28) |
615*297bb9e0SPhilipp Tomsich MCTL_ZQCTRL1_TZQSI_x1024(0x100),
616*297bb9e0SPhilipp Tomsich &mctl_ctl->zqctrl[1]);
617*297bb9e0SPhilipp Tomsich }
618*297bb9e0SPhilipp Tomsich
619*297bb9e0SPhilipp Tomsich /* Assert dfi_init_complete signal */
620*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_ctl->dfimisc, MCTL_DFIMISC_DFI_INIT_COMPLETE_EN);
621*297bb9e0SPhilipp Tomsich /* Disable auto-refresh */
622*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_ctl->rfshctl3, MCTL_RFSHCTL3_DIS_AUTO_REFRESH);
623*297bb9e0SPhilipp Tomsich
624*297bb9e0SPhilipp Tomsich /* PHY initialisation */
625*297bb9e0SPhilipp Tomsich
626*297bb9e0SPhilipp Tomsich /* TODO: make 2T and 8-bank mode configurable */
627*297bb9e0SPhilipp Tomsich writel(MCTL_PHY_DCR_BYTEMASK | MCTL_PHY_DCR_2TMODE |
628*297bb9e0SPhilipp Tomsich MCTL_PHY_DCR_DDR8BNK | MCTL_PHY_DRAMMODE_DDR3,
629*297bb9e0SPhilipp Tomsich &mctl_phy->dcr);
630*297bb9e0SPhilipp Tomsich
631*297bb9e0SPhilipp Tomsich /* For LPDDR2 or LPDDR3, set DQSGX to 0 before training. */
632*297bb9e0SPhilipp Tomsich if (para->dram_type != DRAM_TYPE_DDR3)
633*297bb9e0SPhilipp Tomsich clrbits_le32(&mctl_phy->dsgcr, (3 << 6));
634*297bb9e0SPhilipp Tomsich
635*297bb9e0SPhilipp Tomsich writel(mr[0], &mctl_phy->mr0);
636*297bb9e0SPhilipp Tomsich writel(mr[1], &mctl_phy->mr1);
637*297bb9e0SPhilipp Tomsich writel(mr[2], &mctl_phy->mr2);
638*297bb9e0SPhilipp Tomsich writel(mr[3], &mctl_phy->mr3);
639*297bb9e0SPhilipp Tomsich
640*297bb9e0SPhilipp Tomsich /*
641*297bb9e0SPhilipp Tomsich * The DFI PHY is running at full rate. We thus use the actual
642*297bb9e0SPhilipp Tomsich * timings in clock cycles here.
643*297bb9e0SPhilipp Tomsich */
644*297bb9e0SPhilipp Tomsich writel((tRC << 26) | (tRRD << 22) | (tRAS << 16) |
645*297bb9e0SPhilipp Tomsich (tRCD << 12) | (tRP << 8) | (tWTR << 4) | (tRTP << 0),
646*297bb9e0SPhilipp Tomsich &mctl_phy->dtpr[0]);
647*297bb9e0SPhilipp Tomsich writel((tMRD << 0) | ((tMOD - 12) << 2) | (tFAW << 5) |
648*297bb9e0SPhilipp Tomsich (tRFC << 11) | (tWLMRD << 20) | (tWLO << 26),
649*297bb9e0SPhilipp Tomsich &mctl_phy->dtpr[1]);
650*297bb9e0SPhilipp Tomsich writel((tXS << 0) | (MAX(tXP, tXPDLL) << 10) |
651*297bb9e0SPhilipp Tomsich (tCKE << 15) | (tDLLK << 19) |
652*297bb9e0SPhilipp Tomsich (MCTL_PHY_TRTODT << 29) | (MCTL_PHY_TRTW << 30) |
653*297bb9e0SPhilipp Tomsich (((tCCD - 4) & 0x1) << 31),
654*297bb9e0SPhilipp Tomsich &mctl_phy->dtpr[2]);
655*297bb9e0SPhilipp Tomsich
656*297bb9e0SPhilipp Tomsich /* tDQSCK and tDQSCKmax are used LPDDR2/LPDDR3 */
657*297bb9e0SPhilipp Tomsich /* writel((tDQSCK << 0) | (tDQSCKMAX << 3), &mctl_phy->dtpr[3]); */
658*297bb9e0SPhilipp Tomsich
659*297bb9e0SPhilipp Tomsich /*
660*297bb9e0SPhilipp Tomsich * We use the same values used by Allwinner's Boot0 for the PTR
661*297bb9e0SPhilipp Tomsich * (PHY timing register) configuration that is tied to the PHY
662*297bb9e0SPhilipp Tomsich * implementation.
663*297bb9e0SPhilipp Tomsich */
664*297bb9e0SPhilipp Tomsich writel(0x42C21590, &mctl_phy->ptr[0]);
665*297bb9e0SPhilipp Tomsich writel(0xD05612C0, &mctl_phy->ptr[1]);
666*297bb9e0SPhilipp Tomsich if (para->dram_type == DRAM_TYPE_DDR3) {
667*297bb9e0SPhilipp Tomsich const unsigned int tdinit0 = 500 * CONFIG_DRAM_CLK; /* 500us */
668*297bb9e0SPhilipp Tomsich const unsigned int tdinit1 = (360 * CONFIG_DRAM_CLK + 999) /
669*297bb9e0SPhilipp Tomsich 1000; /* 360ns */
670*297bb9e0SPhilipp Tomsich const unsigned int tdinit2 = 200 * CONFIG_DRAM_CLK; /* 200us */
671*297bb9e0SPhilipp Tomsich const unsigned int tdinit3 = CONFIG_DRAM_CLK; /* 1us */
672*297bb9e0SPhilipp Tomsich
673*297bb9e0SPhilipp Tomsich writel((tdinit1 << 20) | tdinit0, &mctl_phy->ptr[3]);
674*297bb9e0SPhilipp Tomsich writel((tdinit3 << 18) | tdinit2, &mctl_phy->ptr[4]);
675*297bb9e0SPhilipp Tomsich } else {
676*297bb9e0SPhilipp Tomsich /* LPDDR2 or LPDDR3 */
677*297bb9e0SPhilipp Tomsich const unsigned int tdinit0 = (100 * CONFIG_DRAM_CLK + 999) /
678*297bb9e0SPhilipp Tomsich 1000; /* 100ns */
679*297bb9e0SPhilipp Tomsich const unsigned int tdinit1 = 200 * CONFIG_DRAM_CLK; /* 200us */
680*297bb9e0SPhilipp Tomsich const unsigned int tdinit2 = 22 * CONFIG_DRAM_CLK; /* 11us */
681*297bb9e0SPhilipp Tomsich const unsigned int tdinit3 = 2 * CONFIG_DRAM_CLK; /* 2us */
682*297bb9e0SPhilipp Tomsich
683*297bb9e0SPhilipp Tomsich writel((tdinit1 << 20) | tdinit0, &mctl_phy->ptr[3]);
684*297bb9e0SPhilipp Tomsich writel((tdinit3 << 18) | tdinit2, &mctl_phy->ptr[4]);
685*297bb9e0SPhilipp Tomsich }
686*297bb9e0SPhilipp Tomsich
687*297bb9e0SPhilipp Tomsich /* TEST ME */
688*297bb9e0SPhilipp Tomsich writel(0x00203131, &mctl_phy->acmdlr);
689*297bb9e0SPhilipp Tomsich
690*297bb9e0SPhilipp Tomsich /* TODO: can we enable this for 2 ranks, even when we don't know yet */
691*297bb9e0SPhilipp Tomsich writel(MCTL_DTCR_DEFAULT | MCTL_DTCR_RANKEN(para->rank),
692*297bb9e0SPhilipp Tomsich &mctl_phy->dtcr);
693*297bb9e0SPhilipp Tomsich
694*297bb9e0SPhilipp Tomsich /* TODO: half width */
695*297bb9e0SPhilipp Tomsich debug("DX2GCR0 reset: 0x%x\n", readl(&mctl_phy->dx[2].gcr[0]));
696*297bb9e0SPhilipp Tomsich writel(0x7C000285, &mctl_phy->dx[2].gcr[0]);
697*297bb9e0SPhilipp Tomsich writel(0x7C000285, &mctl_phy->dx[3].gcr[0]);
698*297bb9e0SPhilipp Tomsich
699*297bb9e0SPhilipp Tomsich clrsetbits_le32(&mctl_phy->zq[0].pr, 0xff,
700*297bb9e0SPhilipp Tomsich (CONFIG_DRAM_ZQ >> 0) & 0xff); /* CK/CA */
701*297bb9e0SPhilipp Tomsich clrsetbits_le32(&mctl_phy->zq[1].pr, 0xff,
702*297bb9e0SPhilipp Tomsich (CONFIG_DRAM_ZQ >> 8) & 0xff); /* DX0/DX1 */
703*297bb9e0SPhilipp Tomsich clrsetbits_le32(&mctl_phy->zq[2].pr, 0xff,
704*297bb9e0SPhilipp Tomsich (CONFIG_DRAM_ZQ >> 16) & 0xff); /* DX2/DX3 */
705*297bb9e0SPhilipp Tomsich
706*297bb9e0SPhilipp Tomsich /* TODO: make configurable & implement non-ODT path */
707*297bb9e0SPhilipp Tomsich if (1) {
708*297bb9e0SPhilipp Tomsich int lane;
709*297bb9e0SPhilipp Tomsich for (lane = 0; lane < 4; ++lane) {
710*297bb9e0SPhilipp Tomsich clrbits_le32(&mctl_phy->dx[lane].gcr[2], 0xffff);
711*297bb9e0SPhilipp Tomsich clrbits_le32(&mctl_phy->dx[lane].gcr[3],
712*297bb9e0SPhilipp Tomsich (0x3<<12) | (0x3<<4));
713*297bb9e0SPhilipp Tomsich }
714*297bb9e0SPhilipp Tomsich } else {
715*297bb9e0SPhilipp Tomsich /* TODO: check */
716*297bb9e0SPhilipp Tomsich int lane;
717*297bb9e0SPhilipp Tomsich for (lane = 0; lane < 4; ++lane) {
718*297bb9e0SPhilipp Tomsich clrsetbits_le32(&mctl_phy->dx[lane].gcr[2], 0xffff,
719*297bb9e0SPhilipp Tomsich 0xaaaa);
720*297bb9e0SPhilipp Tomsich if (para->dram_type == DRAM_TYPE_DDR3)
721*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_phy->dx[lane].gcr[3],
722*297bb9e0SPhilipp Tomsich (0x3<<12) | (0x3<<4));
723*297bb9e0SPhilipp Tomsich else
724*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_phy->dx[lane].gcr[3],
725*297bb9e0SPhilipp Tomsich 0x00000012);
726*297bb9e0SPhilipp Tomsich }
727*297bb9e0SPhilipp Tomsich }
728*297bb9e0SPhilipp Tomsich
729*297bb9e0SPhilipp Tomsich writel(0x04058D02, &mctl_phy->zq[0].cr); /* CK/CA */
730*297bb9e0SPhilipp Tomsich writel(0x04058D02, &mctl_phy->zq[1].cr); /* DX0/DX1 */
731*297bb9e0SPhilipp Tomsich writel(0x04058D02, &mctl_phy->zq[2].cr); /* DX2/DX3 */
732*297bb9e0SPhilipp Tomsich
733*297bb9e0SPhilipp Tomsich /* Disable auto-refresh prior to data training */
734*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_ctl->rfshctl3, MCTL_RFSHCTL3_DIS_AUTO_REFRESH);
735*297bb9e0SPhilipp Tomsich
736*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_phy->dsgcr, 0xf << 24); /* unclear what this is... */
737*297bb9e0SPhilipp Tomsich /* TODO: IODDRM (IO DDR-MODE) for DDR3L */
738*297bb9e0SPhilipp Tomsich clrsetbits_le32(&mctl_phy->pgcr[1],
739*297bb9e0SPhilipp Tomsich MCTL_PGCR1_ZCKSEL_MASK,
740*297bb9e0SPhilipp Tomsich MCTL_PGCR1_IODDRM_DDR3 | MCTL_PGCR1_INHVT_EN);
741*297bb9e0SPhilipp Tomsich
742*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_phy->pllcr, 0x3 << 19); /* PLL frequency select */
743*297bb9e0SPhilipp Tomsich /* TODO: single-channel PLL mode??? missing */
744*297bb9e0SPhilipp Tomsich setbits_le32(&mctl_phy->pllcr,
745*297bb9e0SPhilipp Tomsich MCTL_PLLGCR_PLL_BYPASS | MCTL_PLLGCR_PLL_POWERDOWN);
746*297bb9e0SPhilipp Tomsich /* setbits_le32(&mctl_phy->pir, MCTL_PIR_PLL_BYPASS); included below */
747*297bb9e0SPhilipp Tomsich
748*297bb9e0SPhilipp Tomsich /* Disable VT compensation */
749*297bb9e0SPhilipp Tomsich clrbits_le32(&mctl_phy->pgcr[0], 0x3f);
750*297bb9e0SPhilipp Tomsich
751*297bb9e0SPhilipp Tomsich /* TODO: "other" PLL mode ... 0x20000 seems to be the PLL Bypass */
752*297bb9e0SPhilipp Tomsich if (para->dram_type == DRAM_TYPE_DDR3)
753*297bb9e0SPhilipp Tomsich clrsetbits_le32(&mctl_phy->pir, MCTL_PIR_MASK, 0x20df3);
754*297bb9e0SPhilipp Tomsich else
755*297bb9e0SPhilipp Tomsich clrsetbits_le32(&mctl_phy->pir, MCTL_PIR_MASK, 0x2c573);
756*297bb9e0SPhilipp Tomsich
757*297bb9e0SPhilipp Tomsich sdelay(10000); /* XXX necessary? */
758*297bb9e0SPhilipp Tomsich
759*297bb9e0SPhilipp Tomsich /* Wait for the INIT bit to clear itself... */
760*297bb9e0SPhilipp Tomsich while ((readl(&mctl_phy->pir) & MCTL_PIR_INIT) != MCTL_PIR_INIT) {
761*297bb9e0SPhilipp Tomsich /* not done yet -- keep spinning */
762*297bb9e0SPhilipp Tomsich debug("MCTL_PIR_INIT not set\n");
763*297bb9e0SPhilipp Tomsich sdelay(1000);
764*297bb9e0SPhilipp Tomsich /* TODO: implement timeout */
765*297bb9e0SPhilipp Tomsich }
766*297bb9e0SPhilipp Tomsich
767*297bb9e0SPhilipp Tomsich /* TODO: not used --- there's a "2rank debug" section here */
768*297bb9e0SPhilipp Tomsich
769*297bb9e0SPhilipp Tomsich /* Original dram init code which may come in handy later
770*297bb9e0SPhilipp Tomsich ********************************************************
771*297bb9e0SPhilipp Tomsich * LPDDR2 and LPDDR3 *
772*297bb9e0SPhilipp Tomsich if ((para->dram_type) == 6 || (para->dram_type) == 7) {
773*297bb9e0SPhilipp Tomsich reg_val = mctl_read_w(P0_DSGCR + ch_offset);
774*297bb9e0SPhilipp Tomsich reg_val &= (~(0x3<<6)); * set DQSGX to 1 *
775*297bb9e0SPhilipp Tomsich reg_val |= (0x1<<6); * dqs gate extend *
776*297bb9e0SPhilipp Tomsich mctl_write_w(P0_DSGCR + ch_offset, reg_val);
777*297bb9e0SPhilipp Tomsich dram_dbg("DQS Gate Extend Enable!\n", ch_index);
778*297bb9e0SPhilipp Tomsich }
779*297bb9e0SPhilipp Tomsich
780*297bb9e0SPhilipp Tomsich * Disable ZCAL after initial--for nand dma debug--20140330 by YSZ *
781*297bb9e0SPhilipp Tomsich if (para->dram_tpr13 & (0x1<<31)) {
782*297bb9e0SPhilipp Tomsich reg_val = mctl_read_w(P0_ZQ0CR + ch_offset);
783*297bb9e0SPhilipp Tomsich reg_val |= (0x7<<11);
784*297bb9e0SPhilipp Tomsich mctl_write_w(P0_ZQ0CR + ch_offset, reg_val);
785*297bb9e0SPhilipp Tomsich }
786*297bb9e0SPhilipp Tomsich ********************************************************
787*297bb9e0SPhilipp Tomsich */
788*297bb9e0SPhilipp Tomsich
789*297bb9e0SPhilipp Tomsich /*
790*297bb9e0SPhilipp Tomsich * TODO: more 2-rank support
791*297bb9e0SPhilipp Tomsich * (setting the "dqs gate delay to average between 2 rank")
792*297bb9e0SPhilipp Tomsich */
793*297bb9e0SPhilipp Tomsich
794*297bb9e0SPhilipp Tomsich /* check if any errors are set */
795*297bb9e0SPhilipp Tomsich if (readl(&mctl_phy->pgsr[0]) & MCTL_PGSR0_ERRORS) {
796*297bb9e0SPhilipp Tomsich debug("Channel %d unavailable!\n", ch_index);
797*297bb9e0SPhilipp Tomsich return 0;
798*297bb9e0SPhilipp Tomsich } else{
799*297bb9e0SPhilipp Tomsich /* initial OK */
800*297bb9e0SPhilipp Tomsich debug("Channel %d OK!\n", ch_index);
801*297bb9e0SPhilipp Tomsich /* return 1; */
802*297bb9e0SPhilipp Tomsich }
803*297bb9e0SPhilipp Tomsich
804*297bb9e0SPhilipp Tomsich while ((readl(&mctl_ctl->stat) & 0x1) != 0x1) {
805*297bb9e0SPhilipp Tomsich debug("Waiting for INIT to be done (controller to come up into 'normal operating' mode\n");
806*297bb9e0SPhilipp Tomsich sdelay(100000);
807*297bb9e0SPhilipp Tomsich /* init not done */
808*297bb9e0SPhilipp Tomsich /* TODO: implement time-out */
809*297bb9e0SPhilipp Tomsich }
810*297bb9e0SPhilipp Tomsich debug("done\n");
811*297bb9e0SPhilipp Tomsich
812*297bb9e0SPhilipp Tomsich /* "DDR is controller by contoller" */
813*297bb9e0SPhilipp Tomsich clrbits_le32(&mctl_phy->pgcr[3], (1 << 25));
814*297bb9e0SPhilipp Tomsich
815*297bb9e0SPhilipp Tomsich /* TODO: is the following necessary? */
816*297bb9e0SPhilipp Tomsich debug("DFIMISC before writing 0: 0x%x\n", readl(&mctl_ctl->dfimisc));
817*297bb9e0SPhilipp Tomsich writel(0, &mctl_ctl->dfimisc);
818*297bb9e0SPhilipp Tomsich
819*297bb9e0SPhilipp Tomsich /* Enable auto-refresh */
820*297bb9e0SPhilipp Tomsich clrbits_le32(&mctl_ctl->rfshctl3, MCTL_RFSHCTL3_DIS_AUTO_REFRESH);
821*297bb9e0SPhilipp Tomsich
822*297bb9e0SPhilipp Tomsich debug("channel_init complete\n");
823*297bb9e0SPhilipp Tomsich return 1;
824*297bb9e0SPhilipp Tomsich }
825*297bb9e0SPhilipp Tomsich
DRAMC_get_dram_size(void)826*297bb9e0SPhilipp Tomsich signed int DRAMC_get_dram_size(void)
827*297bb9e0SPhilipp Tomsich {
828*297bb9e0SPhilipp Tomsich struct sunxi_mctl_com_reg * const mctl_com =
829*297bb9e0SPhilipp Tomsich (struct sunxi_mctl_com_reg *)SUNXI_DRAM_COM_BASE;
830*297bb9e0SPhilipp Tomsich
831*297bb9e0SPhilipp Tomsich unsigned int reg_val;
832*297bb9e0SPhilipp Tomsich unsigned int dram_size;
833*297bb9e0SPhilipp Tomsich unsigned int temp;
834*297bb9e0SPhilipp Tomsich
835*297bb9e0SPhilipp Tomsich reg_val = readl(&mctl_com->cr);
836*297bb9e0SPhilipp Tomsich
837*297bb9e0SPhilipp Tomsich temp = (reg_val >> 8) & 0xf; /* page size code */
838*297bb9e0SPhilipp Tomsich dram_size = (temp - 6); /* (1 << dram_size) * 512Bytes */
839*297bb9e0SPhilipp Tomsich
840*297bb9e0SPhilipp Tomsich temp = (reg_val >> 4) & 0xf; /* row width code */
841*297bb9e0SPhilipp Tomsich dram_size += (temp + 1); /* (1 << dram_size) * 512Bytes */
842*297bb9e0SPhilipp Tomsich
843*297bb9e0SPhilipp Tomsich temp = (reg_val >> 2) & 0x3; /* bank number code */
844*297bb9e0SPhilipp Tomsich dram_size += (temp + 2); /* (1 << dram_size) * 512Bytes */
845*297bb9e0SPhilipp Tomsich
846*297bb9e0SPhilipp Tomsich temp = reg_val & 0x3; /* rank number code */
847*297bb9e0SPhilipp Tomsich dram_size += temp; /* (1 << dram_size) * 512Bytes */
848*297bb9e0SPhilipp Tomsich
849*297bb9e0SPhilipp Tomsich temp = (reg_val >> 19) & 0x1; /* channel number code */
850*297bb9e0SPhilipp Tomsich dram_size += temp; /* (1 << dram_size) * 512Bytes */
851*297bb9e0SPhilipp Tomsich
852*297bb9e0SPhilipp Tomsich dram_size = dram_size - 11; /* (1 << dram_size) MBytes */
853*297bb9e0SPhilipp Tomsich
854*297bb9e0SPhilipp Tomsich return 1 << dram_size;
855*297bb9e0SPhilipp Tomsich }
856*297bb9e0SPhilipp Tomsich
sunxi_dram_init(void)857*297bb9e0SPhilipp Tomsich unsigned long sunxi_dram_init(void)
858*297bb9e0SPhilipp Tomsich {
859*297bb9e0SPhilipp Tomsich struct sunxi_mctl_com_reg * const mctl_com =
860*297bb9e0SPhilipp Tomsich (struct sunxi_mctl_com_reg *)SUNXI_DRAM_COM_BASE;
861*297bb9e0SPhilipp Tomsich
862*297bb9e0SPhilipp Tomsich struct dram_sun9i_cl_cwl_timing cl_cwl[] = {
863*297bb9e0SPhilipp Tomsich { .CL = 5, .CWL = 5, .tCKmin = 3000, .tCKmax = 3300 },
864*297bb9e0SPhilipp Tomsich { .CL = 6, .CWL = 5, .tCKmin = 2500, .tCKmax = 3300 },
865*297bb9e0SPhilipp Tomsich { .CL = 8, .CWL = 6, .tCKmin = 1875, .tCKmax = 2500 },
866*297bb9e0SPhilipp Tomsich { .CL = 10, .CWL = 7, .tCKmin = 1500, .tCKmax = 1875 },
867*297bb9e0SPhilipp Tomsich { .CL = 11, .CWL = 8, .tCKmin = 1250, .tCKmax = 1500 }
868*297bb9e0SPhilipp Tomsich };
869*297bb9e0SPhilipp Tomsich
870*297bb9e0SPhilipp Tomsich /* Set initial parameters, these get modified by the autodetect code */
871*297bb9e0SPhilipp Tomsich struct dram_sun9i_para para = {
872*297bb9e0SPhilipp Tomsich .dram_type = DRAM_TYPE_DDR3,
873*297bb9e0SPhilipp Tomsich .bus_width = 32,
874*297bb9e0SPhilipp Tomsich .chan = 2,
875*297bb9e0SPhilipp Tomsich .rank = 1,
876*297bb9e0SPhilipp Tomsich /* .rank = 2, */
877*297bb9e0SPhilipp Tomsich .page_size = 4096,
878*297bb9e0SPhilipp Tomsich /* .rows = 16, */
879*297bb9e0SPhilipp Tomsich .rows = 15,
880*297bb9e0SPhilipp Tomsich
881*297bb9e0SPhilipp Tomsich /* CL/CWL table for the speed bin */
882*297bb9e0SPhilipp Tomsich .cl_cwl_table = cl_cwl,
883*297bb9e0SPhilipp Tomsich .cl_cwl_numentries = sizeof(cl_cwl) /
884*297bb9e0SPhilipp Tomsich sizeof(struct dram_sun9i_cl_cwl_timing),
885*297bb9e0SPhilipp Tomsich
886*297bb9e0SPhilipp Tomsich /* timings */
887*297bb9e0SPhilipp Tomsich .tREFI = 7800, /* 7.8us (up to 85 degC) */
888*297bb9e0SPhilipp Tomsich .tRFC = 260, /* 260ns for 4GBit devices */
889*297bb9e0SPhilipp Tomsich /* 350ns @ 8GBit */
890*297bb9e0SPhilipp Tomsich
891*297bb9e0SPhilipp Tomsich .tRCD = 13750,
892*297bb9e0SPhilipp Tomsich .tRP = 13750,
893*297bb9e0SPhilipp Tomsich .tRC = 48750,
894*297bb9e0SPhilipp Tomsich .tRAS = 35000,
895*297bb9e0SPhilipp Tomsich
896*297bb9e0SPhilipp Tomsich .tDLLK = 512,
897*297bb9e0SPhilipp Tomsich .tRTP = { .ck = 4, .ps = 7500 },
898*297bb9e0SPhilipp Tomsich .tWTR = { .ck = 4, .ps = 7500 },
899*297bb9e0SPhilipp Tomsich .tWR = 15,
900*297bb9e0SPhilipp Tomsich .tMRD = 4,
901*297bb9e0SPhilipp Tomsich .tMOD = { .ck = 12, .ps = 15000 },
902*297bb9e0SPhilipp Tomsich .tCCD = 4,
903*297bb9e0SPhilipp Tomsich .tRRD = { .ck = 4, .ps = 7500 },
904*297bb9e0SPhilipp Tomsich .tFAW = 40,
905*297bb9e0SPhilipp Tomsich
906*297bb9e0SPhilipp Tomsich /* calibration timing */
907*297bb9e0SPhilipp Tomsich /* .tZQinit = { .ck = 512, .ps = 640000 }, */
908*297bb9e0SPhilipp Tomsich .tZQoper = { .ck = 256, .ps = 320000 },
909*297bb9e0SPhilipp Tomsich .tZQCS = { .ck = 64, .ps = 80000 },
910*297bb9e0SPhilipp Tomsich
911*297bb9e0SPhilipp Tomsich /* reset timing */
912*297bb9e0SPhilipp Tomsich /* .tXPR = { .ck = 5, .ps = 10000 }, */
913*297bb9e0SPhilipp Tomsich
914*297bb9e0SPhilipp Tomsich /* self-refresh timings */
915*297bb9e0SPhilipp Tomsich .tXS = { .ck = 5, .ps = 10000 },
916*297bb9e0SPhilipp Tomsich .tXSDLL = 512,
917*297bb9e0SPhilipp Tomsich .tCKSRE = { .ck = 5, .ps = 10000 },
918*297bb9e0SPhilipp Tomsich .tCKSRX = { .ck = 5, .ps = 10000 },
919*297bb9e0SPhilipp Tomsich
920*297bb9e0SPhilipp Tomsich /* power-down timings */
921*297bb9e0SPhilipp Tomsich .tXP = { .ck = 3, .ps = 6000 },
922*297bb9e0SPhilipp Tomsich .tXPDLL = { .ck = 10, .ps = 24000 },
923*297bb9e0SPhilipp Tomsich .tCKE = { .ck = 3, .ps = 5000 },
924*297bb9e0SPhilipp Tomsich
925*297bb9e0SPhilipp Tomsich /* write leveling timings */
926*297bb9e0SPhilipp Tomsich .tWLMRD = 40,
927*297bb9e0SPhilipp Tomsich /* .tWLDQSEN = 25, */
928*297bb9e0SPhilipp Tomsich .tWLO = 7500,
929*297bb9e0SPhilipp Tomsich /* .tWLOE = 2000, */
930*297bb9e0SPhilipp Tomsich };
931*297bb9e0SPhilipp Tomsich
932*297bb9e0SPhilipp Tomsich /*
933*297bb9e0SPhilipp Tomsich * Disable A80 internal 240 ohm resistor.
934*297bb9e0SPhilipp Tomsich *
935*297bb9e0SPhilipp Tomsich * This code sequence is adapated from Allwinner's Boot0 (see
936*297bb9e0SPhilipp Tomsich * https://github.com/allwinner-zh/bootloader.git), as there
937*297bb9e0SPhilipp Tomsich * is no documentation for these two registers in the R_PRCM
938*297bb9e0SPhilipp Tomsich * block.
939*297bb9e0SPhilipp Tomsich */
940*297bb9e0SPhilipp Tomsich setbits_le32(SUNXI_PRCM_BASE + 0x1e0, (0x3 << 8));
941*297bb9e0SPhilipp Tomsich writel(0, SUNXI_PRCM_BASE + 0x1e8);
942*297bb9e0SPhilipp Tomsich
943*297bb9e0SPhilipp Tomsich mctl_sys_init();
944*297bb9e0SPhilipp Tomsich
945*297bb9e0SPhilipp Tomsich if (!mctl_channel_init(0, ¶))
946*297bb9e0SPhilipp Tomsich return 0;
947*297bb9e0SPhilipp Tomsich
948*297bb9e0SPhilipp Tomsich /* dual-channel */
949*297bb9e0SPhilipp Tomsich if (!mctl_channel_init(1, ¶)) {
950*297bb9e0SPhilipp Tomsich /* disable channel 1 */
951*297bb9e0SPhilipp Tomsich clrsetbits_le32(&mctl_com->cr, MCTL_CR_CHANNEL_MASK,
952*297bb9e0SPhilipp Tomsich MCTL_CR_CHANNEL_SINGLE);
953*297bb9e0SPhilipp Tomsich /* disable channel 1 global clock */
954*297bb9e0SPhilipp Tomsich clrbits_le32(&mctl_com->cr, MCTL_CCR_CH1_CLK_EN);
955*297bb9e0SPhilipp Tomsich }
956*297bb9e0SPhilipp Tomsich
957*297bb9e0SPhilipp Tomsich mctl_com_init(¶);
958*297bb9e0SPhilipp Tomsich
959*297bb9e0SPhilipp Tomsich /* return the proper RAM size */
960*297bb9e0SPhilipp Tomsich return DRAMC_get_dram_size() << 20;
961*297bb9e0SPhilipp Tomsich }
962