[TG3]: Set minimal hw interrupt mitigation.
[linux-2.6/verdex.git] / arch / sh / boards / overdrive / irq.c
blob23adc6be71e728e6fc8a6bba7efdfaf1abe9061f
1 /*
2 * Copyright (C) 2000 David J. Mckay (david.mckay@st.com)
4 * May be copied or modified under the terms of the GNU General Public
5 * License. See linux/COPYING for more information.
7 * Looks after interrupts on the overdrive board.
9 * Bases on the IPR irq system
12 #include <linux/config.h>
13 #include <linux/init.h>
14 #include <linux/irq.h>
16 #include <asm/system.h>
17 #include <asm/io.h>
19 #include <asm/overdrive/overdrive.h>
21 struct od_data {
22 int overdrive_irq;
23 int irq_mask;
26 #define NUM_EXTERNAL_IRQS 16
27 #define EXTERNAL_IRQ_NOT_IN_USE (-1)
28 #define EXTERNAL_IRQ_NOT_ASSIGNED (-1)
31 * This table is used to determine what to program into the FPGA's CT register
32 * for the specified Linux IRQ.
34 * The irq_mask gives the interrupt number from the PCI board (PCI_Int(6:0))
35 * but is one greater than that because the because the FPGA treats 0
36 * as disabled, a value of 1 asserts PCI_Int0, and so on.
38 * The overdrive_irq specifies which of the eight interrupt sources generates
39 * that interrupt, and but is multiplied by four to give the bit offset into
40 * the CT register.
42 * The seven interrupts levels (SH4 IRL's) we have available here is hardwired
43 * by the EPLD. The assignments here of which PCI interrupt generates each
44 * level is arbitary.
46 static struct od_data od_data_table[NUM_EXTERNAL_IRQS] = {
47 /* overdrive_irq , irq_mask */
48 {EXTERNAL_IRQ_NOT_ASSIGNED, EXTERNAL_IRQ_NOT_IN_USE}, /* 0 */
49 {EXTERNAL_IRQ_NOT_ASSIGNED, 7}, /* 1 */
50 {EXTERNAL_IRQ_NOT_ASSIGNED, 6}, /* 2 */
51 {EXTERNAL_IRQ_NOT_ASSIGNED, EXTERNAL_IRQ_NOT_IN_USE}, /* 3 */
52 {EXTERNAL_IRQ_NOT_ASSIGNED, 5}, /* 4 */
53 {EXTERNAL_IRQ_NOT_ASSIGNED, EXTERNAL_IRQ_NOT_IN_USE}, /* 5 */
54 {EXTERNAL_IRQ_NOT_ASSIGNED, EXTERNAL_IRQ_NOT_IN_USE}, /* 6 */
55 {EXTERNAL_IRQ_NOT_ASSIGNED, 4}, /* 7 */
56 {EXTERNAL_IRQ_NOT_ASSIGNED, EXTERNAL_IRQ_NOT_IN_USE}, /* 8 */
57 {EXTERNAL_IRQ_NOT_ASSIGNED, EXTERNAL_IRQ_NOT_IN_USE}, /* 9 */
58 {EXTERNAL_IRQ_NOT_ASSIGNED, 3}, /* 10 */
59 {EXTERNAL_IRQ_NOT_ASSIGNED, 2}, /* 11 */
60 {EXTERNAL_IRQ_NOT_ASSIGNED, EXTERNAL_IRQ_NOT_IN_USE}, /* 12 */
61 {EXTERNAL_IRQ_NOT_ASSIGNED, 1}, /* 13 */
62 {EXTERNAL_IRQ_NOT_ASSIGNED, EXTERNAL_IRQ_NOT_IN_USE}, /* 14 */
63 {EXTERNAL_IRQ_NOT_ASSIGNED, EXTERNAL_IRQ_NOT_IN_USE} /* 15 */
66 static void set_od_data(int overdrive_irq, int irq)
68 if (irq >= NUM_EXTERNAL_IRQS || irq < 0)
69 return;
70 od_data_table[irq].overdrive_irq = overdrive_irq << 2;
73 static void enable_od_irq(unsigned int irq);
74 void disable_od_irq(unsigned int irq);
76 /* shutdown is same as "disable" */
77 #define shutdown_od_irq disable_od_irq
79 static void mask_and_ack_od(unsigned int);
80 static void end_od_irq(unsigned int irq);
82 static unsigned int startup_od_irq(unsigned int irq)
84 enable_od_irq(irq);
85 return 0; /* never anything pending */
88 static struct hw_interrupt_type od_irq_type = {
89 "Overdrive-IRQ",
90 startup_od_irq,
91 shutdown_od_irq,
92 enable_od_irq,
93 disable_od_irq,
94 mask_and_ack_od,
95 end_od_irq
98 static void disable_od_irq(unsigned int irq)
100 unsigned val, flags;
101 int overdrive_irq;
102 unsigned mask;
104 /* Not a valid interrupt */
105 if (irq < 0 || irq >= NUM_EXTERNAL_IRQS)
106 return;
108 /* Is is necessary to use a cli here? Would a spinlock not be
109 * mroe efficient?
111 local_irq_save(flags);
112 overdrive_irq = od_data_table[irq].overdrive_irq;
113 if (overdrive_irq != EXTERNAL_IRQ_NOT_ASSIGNED) {
114 mask = ~(0x7 << overdrive_irq);
115 val = ctrl_inl(OVERDRIVE_INT_CT);
116 val &= mask;
117 ctrl_outl(val, OVERDRIVE_INT_CT);
119 local_irq_restore(flags);
122 static void enable_od_irq(unsigned int irq)
124 unsigned val, flags;
125 int overdrive_irq;
126 unsigned mask;
128 /* Not a valid interrupt */
129 if (irq < 0 || irq >= NUM_EXTERNAL_IRQS)
130 return;
132 /* Set priority in OD back to original value */
133 local_irq_save(flags);
134 /* This one is not in use currently */
135 overdrive_irq = od_data_table[irq].overdrive_irq;
136 if (overdrive_irq != EXTERNAL_IRQ_NOT_ASSIGNED) {
137 val = ctrl_inl(OVERDRIVE_INT_CT);
138 mask = ~(0x7 << overdrive_irq);
139 val &= mask;
140 mask = od_data_table[irq].irq_mask << overdrive_irq;
141 val |= mask;
142 ctrl_outl(val, OVERDRIVE_INT_CT);
144 local_irq_restore(flags);
149 /* this functions sets the desired irq handler to be an overdrive type */
150 static void __init make_od_irq(unsigned int irq)
152 disable_irq_nosync(irq);
153 irq_desc[irq].handler = &od_irq_type;
154 disable_od_irq(irq);
158 static void mask_and_ack_od(unsigned int irq)
160 disable_od_irq(irq);
163 static void end_od_irq(unsigned int irq)
165 enable_od_irq(irq);
168 void __init init_overdrive_irq(void)
170 int i;
172 /* Disable all interrupts */
173 ctrl_outl(0, OVERDRIVE_INT_CT);
175 /* Update interrupt pin mode to use encoded interrupts */
176 i = ctrl_inw(INTC_ICR);
177 i &= ~INTC_ICR_IRLM;
178 ctrl_outw(i, INTC_ICR);
180 for (i = 0; i < NUM_EXTERNAL_IRQS; i++) {
181 if (od_data_table[i].irq_mask != EXTERNAL_IRQ_NOT_IN_USE) {
182 make_od_irq(i);
183 } else if (i != 15) { // Cannot use imask on level 15
184 make_imask_irq(i);
188 /* Set up the interrupts */
189 set_od_data(OVERDRIVE_PCI_INTA, OVERDRIVE_PCI_IRQ1);
190 set_od_data(OVERDRIVE_PCI_INTB, OVERDRIVE_PCI_IRQ2);
191 set_od_data(OVERDRIVE_AUDIO_INT, OVERDRIVE_ESS_IRQ);