root / lab3 / lab3.c @ 395
History | View | Annotate | Download (4.99 KB)
1 | 30 | up20180655 | #include <lcom/lcf.h> |
---|---|---|---|
2 | #include <lcom/lab3.h> |
||
3 | |||
4 | #include <stdbool.h> |
||
5 | #include <stdint.h> |
||
6 | |||
7 | #include "kbc.h" |
||
8 | 60 | up20180642 | #include "kbc_macros.h" |
9 | #include "keyboard.h" |
||
10 | #include "timer.h" |
||
11 | #include "utils.h" |
||
12 | 30 | up20180655 | |
13 | int main(int argc, char *argv[]) { |
||
14 | // sets the language of LCF messages (can be either EN-US or PT-PT)
|
||
15 | lcf_set_language("EN-US");
|
||
16 | |||
17 | // enables to log function invocations that are being "wrapped" by LCF
|
||
18 | // [comment this out if you don't want/need it]
|
||
19 | lcf_trace_calls("/home/lcom/labs/lab3/trace.txt");
|
||
20 | |||
21 | // enables to save the output of printf function calls on a file
|
||
22 | // [comment this out if you don't want/need it]
|
||
23 | lcf_log_output("/home/lcom/labs/lab3/output.txt");
|
||
24 | |||
25 | // handles control over to LCF
|
||
26 | // [LCF handles command line arguments and invokes the right function]
|
||
27 | if (lcf_start(argc, argv))
|
||
28 | return 1; |
||
29 | |||
30 | // LCF clean up tasks
|
||
31 | // [must be the last statement before return]
|
||
32 | lcf_cleanup(); |
||
33 | |||
34 | return 0; |
||
35 | } |
||
36 | |||
37 | int(kbd_test_scan)() {
|
||
38 | 44 | up20180642 | /// loop stuff
|
39 | 30 | up20180655 | int ipc_status, r;
|
40 | message msg; |
||
41 | 44 | up20180642 | /// Keyboard interrupt handling
|
42 | 37 | up20180655 | uint8_t kbc_irq_bit = 1;
|
43 | 30 | up20180655 | int kbc_id = 0; |
44 | 37 | up20180655 | int kbc_irq = BIT(kbc_irq_bit);
|
45 | 60 | up20180642 | if (subscribe_keyboard_interrupt(kbc_irq_bit, &kbc_id)) return 1; |
46 | 44 | up20180642 | /// cycle
|
47 | int good = 1; |
||
48 | while (good) {
|
||
49 | 30 | up20180655 | /* Get a request message. */
|
50 | if ((r = driver_receive(ANY, &msg, &ipc_status)) != 0) { |
||
51 | printf("driver_receive failed with %d", r);
|
||
52 | continue;
|
||
53 | } |
||
54 | if (is_ipc_notify(ipc_status)) { /* received notification */ |
||
55 | switch (_ENDPOINT_P(msg.m_source)) {
|
||
56 | case HARDWARE: /* hardware interrupt notification */ |
||
57 | 37 | up20180655 | if (msg.m_notify.interrupts & kbc_irq) { /* subscribed interrupt */ |
58 | 30 | up20180655 | kbc_ih(); |
59 | 67 | up20180642 | if(keyboard_done)
|
60 | kbd_print_scancode(!(scancode[scancode_sz-1] & BREAK_CODE_BIT), scancode_sz, scancode);
|
||
61 | 44 | up20180642 | if (scancode[0] == ESC_BREAK_CODE) good = 0; |
62 | 30 | up20180655 | } |
63 | break;
|
||
64 | default:
|
||
65 | break; /* no other notifications expected: do nothing */ |
||
66 | } |
||
67 | } else { /* received standart message, not a notification */ |
||
68 | /* no standart message expected: do nothing */
|
||
69 | } |
||
70 | } |
||
71 | |||
72 | 44 | up20180642 | if (unsubscribe_interrupt(&kbc_id)) return 1; |
73 | 30 | up20180655 | |
74 | 42 | up20180642 | if (kbd_print_no_sysinb(sys_inb_counter)) return 1; |
75 | 30 | up20180655 | |
76 | return 0; |
||
77 | } |
||
78 | |||
79 | int(kbd_test_poll)() {
|
||
80 | 36 | up20180642 | uint8_t c[2]; uint8_t size;
|
81 | do{
|
||
82 | 60 | up20180642 | if(keyboard_poll(c, &size)) return 1; |
83 | 50 | up20180655 | if(kbd_print_scancode((~c[size-1])&BREAK_CODE_BIT, size, c)) return 1; |
84 | 36 | up20180642 | }while(!(size == 1 && c[0] == ESC_BREAK_CODE)); |
85 | 38 | up20180642 | |
86 | 60 | up20180642 | if(kbc_restore_keyboard()) return 1; |
87 | 39 | up20180642 | |
88 | 43 | up20180642 | if(kbd_print_no_sysinb(sys_inb_counter)) return 1; |
89 | 42 | up20180642 | |
90 | 36 | up20180642 | return 0; |
91 | 30 | up20180655 | } |
92 | |||
93 | 44 | up20180642 | int(kbd_test_timed_scan)(uint8_t idle) {
|
94 | /// loop stuff
|
||
95 | int ipc_status, r;
|
||
96 | message msg; |
||
97 | /// Timer interrupt handling
|
||
98 | const uint32_t frequency = 60; // Frequency asummed at 60Hz |
||
99 | uint8_t timer_irq_bit = 0;
|
||
100 | int timer_id = 0; |
||
101 | int timer_irq = BIT(timer_irq_bit);
|
||
102 | if(subscribe_timer_interrupt(timer_irq_bit, &timer_id)) return 1; |
||
103 | |||
104 | no_interrupts = 0;
|
||
105 | int time = 0; |
||
106 | /// Keyboard interrupt handling
|
||
107 | uint8_t kbc_irq_bit = 1;
|
||
108 | int kbc_id = 0; |
||
109 | int kbc_irq = BIT(kbc_irq_bit);
|
||
110 | 60 | up20180642 | if(subscribe_keyboard_interrupt(kbc_irq_bit, &kbc_id)) return 1; |
111 | 44 | up20180642 | /// cycle
|
112 | int good = 1; |
||
113 | while (good) {
|
||
114 | /* Get a request message. */
|
||
115 | if ((r = driver_receive(ANY, &msg, &ipc_status)) != 0) { |
||
116 | printf("driver_receive failed with %d", r);
|
||
117 | continue;
|
||
118 | } |
||
119 | if (is_ipc_notify(ipc_status)) { /* received notification */ |
||
120 | switch (_ENDPOINT_P(msg.m_source)) {
|
||
121 | case HARDWARE: /* hardware interrupt notification */ |
||
122 | if (msg.m_notify.interrupts & timer_irq) { /* subscribed interrupt */ |
||
123 | timer_int_handler(); |
||
124 | if (no_interrupts%frequency == 0) time++; |
||
125 | if(time >= idle) good = 0; |
||
126 | } |
||
127 | if (msg.m_notify.interrupts & kbc_irq) { /// subscribed interrupt |
||
128 | kbc_ih(); |
||
129 | 67 | up20180642 | if(keyboard_done) {
|
130 | kbd_print_scancode(!(scancode[scancode_sz-1] & BREAK_CODE_BIT), scancode_sz, scancode);
|
||
131 | 44 | up20180642 | time = 0;
|
132 | 45 | up20180642 | no_interrupts = 0;
|
133 | 44 | up20180642 | if (scancode[0] == ESC_BREAK_CODE) good = 0; |
134 | } |
||
135 | } |
||
136 | break;
|
||
137 | default:
|
||
138 | break; /* no other notifications expected: do nothing */ |
||
139 | } |
||
140 | } else { /* received standart message, not a notification */ |
||
141 | /* no standart message expected: do nothing */
|
||
142 | } |
||
143 | } |
||
144 | |||
145 | if (unsubscribe_interrupt(&kbc_id)) return 1; |
||
146 | if (unsubscribe_interrupt(&timer_id)) return 1; |
||
147 | |||
148 | return 0; |
||
149 | 30 | up20180655 | } |