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1 #include <linux/init.h>
2 #include <linux/suspend.h>
3 #include <asm/io.h>
4 #include <asm/time.h>
5 #include <asm/mpc52xx.h>
6 #include <asm/switch_to.h>
7 
8 /* defined in lite5200_sleep.S and only used here */
9 extern void lite5200_low_power(void __iomem *sram, void __iomem *mbar);
10 
11 static struct mpc52xx_cdm __iomem *cdm;
12 static struct mpc52xx_intr __iomem *pic;
13 static struct mpc52xx_sdma __iomem *bes;
14 static struct mpc52xx_xlb __iomem *xlb;
15 static struct mpc52xx_gpio __iomem *gps;
16 static struct mpc52xx_gpio_wkup __iomem *gpw;
17 static void __iomem *pci;
18 static void __iomem *sram;
19 static const int sram_size = 0x4000;	/* 16 kBytes */
20 static void __iomem *mbar;
21 
22 static suspend_state_t lite5200_pm_target_state;
23 
lite5200_pm_valid(suspend_state_t state)24 static int lite5200_pm_valid(suspend_state_t state)
25 {
26 	switch (state) {
27 	case PM_SUSPEND_STANDBY:
28 	case PM_SUSPEND_MEM:
29 		return 1;
30 	default:
31 		return 0;
32 	}
33 }
34 
lite5200_pm_begin(suspend_state_t state)35 static int lite5200_pm_begin(suspend_state_t state)
36 {
37 	if (lite5200_pm_valid(state)) {
38 		lite5200_pm_target_state = state;
39 		return 0;
40 	}
41 	return -EINVAL;
42 }
43 
lite5200_pm_prepare(void)44 static int lite5200_pm_prepare(void)
45 {
46 	struct device_node *np;
47 	const struct of_device_id immr_ids[] = {
48 		{ .compatible = "fsl,mpc5200-immr", },
49 		{ .compatible = "fsl,mpc5200b-immr", },
50 		{ .type = "soc", .compatible = "mpc5200", }, /* lite5200 */
51 		{ .type = "builtin", .compatible = "mpc5200", }, /* efika */
52 		{}
53 	};
54 	u64 regaddr64 = 0;
55 	const u32 *regaddr_p;
56 
57 	/* deep sleep? let mpc52xx code handle that */
58 	if (lite5200_pm_target_state == PM_SUSPEND_STANDBY)
59 		return mpc52xx_pm_prepare();
60 
61 	if (lite5200_pm_target_state != PM_SUSPEND_MEM)
62 		return -EINVAL;
63 
64 	/* map registers */
65 	np = of_find_matching_node(NULL, immr_ids);
66 	regaddr_p = of_get_address(np, 0, NULL, NULL);
67 	if (regaddr_p)
68 		regaddr64 = of_translate_address(np, regaddr_p);
69 	of_node_put(np);
70 
71 	mbar = ioremap((u32) regaddr64, 0xC000);
72 	if (!mbar) {
73 		printk(KERN_ERR "%s:%i Error mapping registers\n", __func__, __LINE__);
74 		return -ENOSYS;
75 	}
76 
77 	cdm = mbar + 0x200;
78 	pic = mbar + 0x500;
79 	gps = mbar + 0xb00;
80 	gpw = mbar + 0xc00;
81 	pci = mbar + 0xd00;
82 	bes = mbar + 0x1200;
83 	xlb = mbar + 0x1f00;
84 	sram = mbar + 0x8000;
85 
86 	return 0;
87 }
88 
89 /* save and restore registers not bound to any real devices */
90 static struct mpc52xx_cdm scdm;
91 static struct mpc52xx_intr spic;
92 static struct mpc52xx_sdma sbes;
93 static struct mpc52xx_xlb sxlb;
94 static struct mpc52xx_gpio sgps;
95 static struct mpc52xx_gpio_wkup sgpw;
96 static char spci[0x200];
97 
lite5200_save_regs(void)98 static void lite5200_save_regs(void)
99 {
100 	_memcpy_fromio(&spic, pic, sizeof(*pic));
101 	_memcpy_fromio(&sbes, bes, sizeof(*bes));
102 	_memcpy_fromio(&scdm, cdm, sizeof(*cdm));
103 	_memcpy_fromio(&sxlb, xlb, sizeof(*xlb));
104 	_memcpy_fromio(&sgps, gps, sizeof(*gps));
105 	_memcpy_fromio(&sgpw, gpw, sizeof(*gpw));
106 	_memcpy_fromio(spci, pci, 0x200);
107 
108 	_memcpy_fromio(saved_sram, sram, sram_size);
109 }
110 
lite5200_restore_regs(void)111 static void lite5200_restore_regs(void)
112 {
113 	int i;
114 	_memcpy_toio(sram, saved_sram, sram_size);
115 
116 	/* PCI Configuration */
117 	_memcpy_toio(pci, spci, 0x200);
118 
119 	/*
120 	 * GPIOs. Interrupt Master Enable has higher address then other
121 	 * registers, so just memcpy is ok.
122 	 */
123 	_memcpy_toio(gpw, &sgpw, sizeof(*gpw));
124 	_memcpy_toio(gps, &sgps, sizeof(*gps));
125 
126 
127 	/* XLB Arbitrer */
128 	out_be32(&xlb->snoop_window, sxlb.snoop_window);
129 	out_be32(&xlb->master_priority, sxlb.master_priority);
130 	out_be32(&xlb->master_pri_enable, sxlb.master_pri_enable);
131 
132 	/* enable */
133 	out_be32(&xlb->int_enable, sxlb.int_enable);
134 	out_be32(&xlb->config, sxlb.config);
135 
136 
137 	/* CDM - Clock Distribution Module */
138 	out_8(&cdm->ipb_clk_sel, scdm.ipb_clk_sel);
139 	out_8(&cdm->pci_clk_sel, scdm.pci_clk_sel);
140 
141 	out_8(&cdm->ext_48mhz_en, scdm.ext_48mhz_en);
142 	out_8(&cdm->fd_enable, scdm.fd_enable);
143 	out_be16(&cdm->fd_counters, scdm.fd_counters);
144 
145 	out_be32(&cdm->clk_enables, scdm.clk_enables);
146 
147 	out_8(&cdm->osc_disable, scdm.osc_disable);
148 
149 	out_be16(&cdm->mclken_div_psc1, scdm.mclken_div_psc1);
150 	out_be16(&cdm->mclken_div_psc2, scdm.mclken_div_psc2);
151 	out_be16(&cdm->mclken_div_psc3, scdm.mclken_div_psc3);
152 	out_be16(&cdm->mclken_div_psc6, scdm.mclken_div_psc6);
153 
154 
155 	/* BESTCOMM */
156 	out_be32(&bes->taskBar, sbes.taskBar);
157 	out_be32(&bes->currentPointer, sbes.currentPointer);
158 	out_be32(&bes->endPointer, sbes.endPointer);
159 	out_be32(&bes->variablePointer, sbes.variablePointer);
160 
161 	out_8(&bes->IntVect1, sbes.IntVect1);
162 	out_8(&bes->IntVect2, sbes.IntVect2);
163 	out_be16(&bes->PtdCntrl, sbes.PtdCntrl);
164 
165 	for (i=0; i<32; i++)
166 		out_8(&bes->ipr[i], sbes.ipr[i]);
167 
168 	out_be32(&bes->cReqSelect, sbes.cReqSelect);
169 	out_be32(&bes->task_size0, sbes.task_size0);
170 	out_be32(&bes->task_size1, sbes.task_size1);
171 	out_be32(&bes->MDEDebug, sbes.MDEDebug);
172 	out_be32(&bes->ADSDebug, sbes.ADSDebug);
173 	out_be32(&bes->Value1, sbes.Value1);
174 	out_be32(&bes->Value2, sbes.Value2);
175 	out_be32(&bes->Control, sbes.Control);
176 	out_be32(&bes->Status, sbes.Status);
177 	out_be32(&bes->PTDDebug, sbes.PTDDebug);
178 
179 	/* restore tasks */
180 	for (i=0; i<16; i++)
181 		out_be16(&bes->tcr[i], sbes.tcr[i]);
182 
183 	/* enable interrupts */
184 	out_be32(&bes->IntPend, sbes.IntPend);
185 	out_be32(&bes->IntMask, sbes.IntMask);
186 
187 
188 	/* PIC */
189 	out_be32(&pic->per_pri1, spic.per_pri1);
190 	out_be32(&pic->per_pri2, spic.per_pri2);
191 	out_be32(&pic->per_pri3, spic.per_pri3);
192 
193 	out_be32(&pic->main_pri1, spic.main_pri1);
194 	out_be32(&pic->main_pri2, spic.main_pri2);
195 
196 	out_be32(&pic->enc_status, spic.enc_status);
197 
198 	/* unmask and enable interrupts */
199 	out_be32(&pic->per_mask, spic.per_mask);
200 	out_be32(&pic->main_mask, spic.main_mask);
201 	out_be32(&pic->ctrl, spic.ctrl);
202 }
203 
lite5200_pm_enter(suspend_state_t state)204 static int lite5200_pm_enter(suspend_state_t state)
205 {
206 	/* deep sleep? let mpc52xx code handle that */
207 	if (state == PM_SUSPEND_STANDBY) {
208 		return mpc52xx_pm_enter(state);
209 	}
210 
211 	lite5200_save_regs();
212 
213 	/* effectively save FP regs */
214 	enable_kernel_fp();
215 
216 	lite5200_low_power(sram, mbar);
217 
218 	lite5200_restore_regs();
219 
220 	iounmap(mbar);
221 	return 0;
222 }
223 
lite5200_pm_finish(void)224 static void lite5200_pm_finish(void)
225 {
226 	/* deep sleep? let mpc52xx code handle that */
227 	if (lite5200_pm_target_state == PM_SUSPEND_STANDBY)
228 		mpc52xx_pm_finish();
229 }
230 
lite5200_pm_end(void)231 static void lite5200_pm_end(void)
232 {
233 	lite5200_pm_target_state = PM_SUSPEND_ON;
234 }
235 
236 static const struct platform_suspend_ops lite5200_pm_ops = {
237 	.valid		= lite5200_pm_valid,
238 	.begin		= lite5200_pm_begin,
239 	.prepare	= lite5200_pm_prepare,
240 	.enter		= lite5200_pm_enter,
241 	.finish		= lite5200_pm_finish,
242 	.end		= lite5200_pm_end,
243 };
244 
lite5200_pm_init(void)245 int __init lite5200_pm_init(void)
246 {
247 	suspend_set_ops(&lite5200_pm_ops);
248 	return 0;
249 }
250