Changes in / [beee81a:d38d830] in mainline
- Files:
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- 24 edited
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- Added
- Removed
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kernel/generic/include/ddi/irq.h
rbeee81a rd38d830 77 77 */ 78 78 CMD_PIO_WRITE_A_32, 79 79 80 /** Read 1 byte from the memory space. */ 81 CMD_MEM_READ_8, 82 /** Read 2 bytes from the memory space. */ 83 CMD_MEM_READ_16, 84 /** Read 4 bytes from the memory space. */ 85 CMD_MEM_READ_32, 86 87 /** Write 1 byte to the memory space. */ 88 CMD_MEM_WRITE_8, 89 /** Write 2 bytes to the memory space. */ 90 CMD_MEM_WRITE_16, 91 /** Write 4 bytes to the memory space. */ 92 CMD_MEM_WRITE_32, 93 94 /** Write 1 byte from the source argument to the memory space. */ 95 CMD_MEM_WRITE_A_8, 96 /** Write 2 bytes from the source argument to the memory space. */ 97 CMD_MEM_WRITE_A_16, 98 /** Write 4 bytes from the source argument to the memory space. */ 99 CMD_MEM_WRITE_A_32, 100 80 101 /** 81 102 * Perform a bit masking on the source argument … … 203 224 /** Notification configuration structure. */ 204 225 ipc_notif_cfg_t notif_cfg; 226 227 as_t *driver_as; 205 228 } irq_t; 206 229 -
kernel/generic/src/ipc/irq.c
rbeee81a rd38d830 174 174 irq->notif_cfg.code = code; 175 175 irq->notif_cfg.counter = 0; 176 irq->driver_as = AS; 176 177 177 178 /* … … 364 365 return IRQ_DECLINE; 365 366 367 #define CMD_MEM_READ(target) \ 368 do { \ 369 void *va = code->cmds[i].addr; \ 370 if (AS != irq->driver_as) \ 371 as_switch(AS, irq->driver_as); \ 372 printf("Copying data from address: %p.\n", va); \ 373 memcpy_from_uspace(&target, va, (sizeof(target))); \ 374 if (dstarg) \ 375 scratch[dstarg] = target; \ 376 } while(0) 377 378 #define CMD_MEM_WRITE(val) \ 379 do { \ 380 void *va = code->cmds[i].addr; \ 381 if (AS != irq->driver_as) \ 382 as_switch(AS, irq->driver_as); \ 383 printf("Writing data to address: %p.\n", va); \ 384 memcpy_to_uspace(va, &val, sizeof(val)); \ 385 } while (0) 386 387 as_t *current_as = AS; 366 388 size_t i; 367 389 for (i = 0; i < code->cmdcount; i++) { … … 422 444 } 423 445 break; 446 case CMD_MEM_READ_8: { 447 uint8_t val; 448 CMD_MEM_READ(val); 449 break; 450 } 451 case CMD_MEM_READ_16: { 452 uint16_t val; 453 CMD_MEM_READ(val); 454 break; 455 } 456 case CMD_MEM_READ_32: { 457 uint32_t val; 458 CMD_MEM_READ(val); 459 printf("mem READ value: %x.\n", val); 460 break; 461 } 462 case CMD_MEM_WRITE_8: { 463 uint8_t val = code->cmds[i].value; 464 CMD_MEM_WRITE(val); 465 break; 466 } 467 case CMD_MEM_WRITE_16: { 468 uint16_t val = code->cmds[i].value; 469 CMD_MEM_WRITE(val); 470 break; 471 } 472 case CMD_MEM_WRITE_32: { 473 uint32_t val = code->cmds[i].value; 474 CMD_MEM_WRITE(val); 475 break; 476 } 477 case CMD_MEM_WRITE_A_8: 478 if (srcarg) { 479 uint8_t val = scratch[srcarg]; 480 CMD_MEM_WRITE(val); 481 } 482 break; 483 case CMD_MEM_WRITE_A_16: 484 if (srcarg) { 485 uint16_t val = scratch[srcarg]; 486 CMD_MEM_WRITE(val); 487 } 488 break; 489 case CMD_MEM_WRITE_A_32: 490 if (srcarg) { 491 uint32_t val = scratch[srcarg]; 492 CMD_MEM_WRITE(val); 493 } 494 break; 424 495 case CMD_BTEST: 425 496 if ((srcarg) && (dstarg)) { … … 435 506 break; 436 507 case CMD_ACCEPT: 508 if (AS != current_as) 509 as_switch(AS, current_as); 437 510 return IRQ_ACCEPT; 438 511 case CMD_DECLINE: 439 512 default: 513 if (AS != current_as) 514 as_switch(AS, current_as); 440 515 return IRQ_DECLINE; 441 516 } 442 517 } 518 if (AS != current_as) 519 as_switch(AS, current_as); 443 520 444 521 return IRQ_DECLINE; -
uspace/drv/ehci-hcd/ehci-hcd.ma
rbeee81a rd38d830 2 2 10 pci/ven=1002&dev=4386 3 3 10 pci/ven=1002&dev=4396 4 10 pci/ven=1002&dev=4373 4 5 10 pci/ven=1022&dev=7463 5 6 10 pci/ven=1022&dev=7808 -
uspace/drv/ehci-hcd/pci.c
rbeee81a rd38d830 186 186 CHECK_RET_HANGUP_RETURN(ret, "Failed(%d) to read PCI config space.\n", 187 187 ret); 188 usb_log_info("Register space BAR at %p:%" PRIxn ".\n", (void *) address, value); 188 usb_log_info("Register space BAR at %p:%" PRIxn ".\n", 189 (void *) address, value); 189 190 190 191 /* clear lower byte, it's not part of the BASE address */ -
uspace/drv/ohci/hc.c
rbeee81a rd38d830 45 45 #include "hcd_endpoint.h" 46 46 47 #define OHCI_USED_INTERRUPTS \ 48 (I_SO | I_WDH | I_UE | I_RHSC) 47 49 static int interrupt_emulator(hc_t *instance); 48 50 static void hc_gain_control(hc_t *instance); … … 285 287 { 286 288 assert(instance); 287 if ((status & ~IS_SF) == 0) /* ignore sof status */ 289 usb_log_debug("OHCI interrupt: %x.\n", status); 290 if ((status & ~I_SF) == 0) /* ignore sof status */ 288 291 return; 289 if (status & I S_RHSC)292 if (status & I_RHSC) 290 293 rh_interrupt(&instance->rh); 291 294 292 usb_log_debug("OHCI interrupt: %x.\n", status); 293 294 if (status & IS_WDH) { 295 296 if (status & I_WDH) { 295 297 fibril_mutex_lock(&instance->guard); 296 298 usb_log_debug2("HCCA: %p-%#" PRIx32 " (%p).\n", instance->hcca, … … 332 334 { 333 335 assert(instance); 336 usb_log_debug("Requesting OHCI control.\n"); 334 337 /* Turn off legacy emulation */ 335 338 volatile uint32_t *ohci_emulation_reg = … … 337 340 usb_log_debug("OHCI legacy register %p: %x.\n", 338 341 ohci_emulation_reg, *ohci_emulation_reg); 339 *ohci_emulation_reg = 0;342 *ohci_emulation_reg &= ~0x1; 340 343 341 344 /* Interrupt routing enabled => smm driver is active */ … … 421 424 instance->registers->control); 422 425 423 /* Disable interrupts */ 424 instance->registers->interrupt_disable = I_SF | I_OC; 425 usb_log_debug2("Disabling interrupts: %x.\n", 426 instance->registers->interrupt_disable); 427 instance->registers->interrupt_disable = I_MI; 426 /* Enable interrupts */ 427 instance->registers->interrupt_enable = OHCI_USED_INTERRUPTS; 428 428 usb_log_debug2("Enabled interrupts: %x.\n", 429 429 instance->registers->interrupt_enable); 430 instance->registers->interrupt_enable = I_MI; 430 431 431 432 /* Set periodic start to 90% */ … … 492 493 instance->lists[USB_TRANSFER_INTERRUPT].list_head_pa); 493 494 495 /* Init interrupt code */ 496 instance->interrupt_code.cmds = instance->interrupt_commands; 497 { 498 /* Read status register */ 499 instance->interrupt_commands[0].cmd = CMD_MEM_READ_32; 500 instance->interrupt_commands[0].dstarg = 1; 501 instance->interrupt_commands[0].addr = 502 (void*)&instance->registers->interrupt_status; 503 504 /* Test whether we are the interrupt cause */ 505 instance->interrupt_commands[1].cmd = CMD_BTEST; 506 instance->interrupt_commands[1].value = 507 OHCI_USED_INTERRUPTS; 508 instance->interrupt_commands[1].srcarg = 1; 509 instance->interrupt_commands[1].dstarg = 2; 510 511 /* Predicate cleaning and accepting */ 512 instance->interrupt_commands[2].cmd = CMD_PREDICATE; 513 instance->interrupt_commands[2].value = 2; 514 instance->interrupt_commands[2].srcarg = 2; 515 516 /* Write clean status register */ 517 instance->interrupt_commands[3].cmd = CMD_MEM_WRITE_A_32; 518 instance->interrupt_commands[3].srcarg = 1; 519 instance->interrupt_commands[3].addr = 520 (void*)&instance->registers->interrupt_status; 521 522 /* Accept interrupt */ 523 instance->interrupt_commands[4].cmd = CMD_ACCEPT; 524 525 instance->interrupt_code.cmdcount = OHCI_NEEDED_IRQ_COMMANDS; 526 } 527 494 528 return EOK; 495 529 } -
uspace/drv/ohci/hc.h
rbeee81a rd38d830 51 51 #include "hw_struct/hcca.h" 52 52 53 #define OHCI_NEEDED_IRQ_COMMANDS 5 54 53 55 typedef struct hc { 54 56 ohci_regs_t *registers; … … 65 67 fid_t interrupt_emulator; 66 68 fibril_mutex_t guard; 69 70 /** Code to be executed in kernel interrupt handler */ 71 irq_code_t interrupt_code; 72 73 /** Commands that form interrupt code */ 74 irq_cmd_t interrupt_commands[OHCI_NEEDED_IRQ_COMMANDS]; 67 75 } hc_t; 68 76 -
uspace/drv/ohci/ohci.c
rbeee81a rd38d830 202 202 203 203 /* It does no harm if we register this on polling */ 204 ret = register_interrupt_handler(device, irq, irq_handler, NULL); 204 ret = register_interrupt_handler(device, irq, irq_handler, 205 &instance->hc.interrupt_code); 205 206 CHECK_RET_FINI_RETURN(ret, 206 207 "Failed(%d) to register interrupt handler.\n", ret); -
uspace/drv/ohci/ohci.ma
rbeee81a rd38d830 1 1 10 pci/ven=106b&dev=003f 2 2 10 pci/ven=10de&dev=0aa5 3 10 pci/ven=10de&dev=0aa5 3 4 10 pci/ven=1002&dev=4374 5 10 pci/ven=1002&dev=4375 6 7 10 pci/ven=1002&dev=4387 8 10 pci/ven=1002&dev=4388 9 10 pci/ven=1002&dev=4389 10 10 pci/ven=1002&dev=438a 11 10 pci/ven=1002&dev=438b -
uspace/drv/ohci/ohci_regs.h
rbeee81a rd38d830 72 72 #define CS_SOC_SHIFT (16) 73 73 74 /** Interupt enable/disable/status, 75 * reads give the same value, 76 * writing causes enable/disable, 77 * status is write-clean (writing 1 clears the bit*/ 74 78 volatile uint32_t interrupt_status; 75 #define IS_SO (1 << 0) /* Scheduling overrun */76 #define IS_WDH (1 << 1) /* Write-back done head */77 #define IS_SF (1 << 2) /* Start of frame */78 #define IS_RD (1 << 3) /* Resume detected */79 #define IS_UE (1 << 4) /* Unrecoverable error */80 #define IS_FNO (1 << 5) /* Frame number overflow */81 #define IS_RHSC (1 << 6) /* Root hub status change */82 #define IS_OC (1 << 30) /* Ownership change */83 84 /** Interupt enable/disable, reads give the same value, writing causes85 * enable/disable */86 79 volatile uint32_t interrupt_enable; 87 80 volatile uint32_t interrupt_disable; -
uspace/drv/ohci/pci.c
rbeee81a rd38d830 46 46 47 47 #include "pci.h" 48 49 #define PAGE_SIZE_MASK 0xfffff00050 51 #define HCC_PARAMS_OFFSET 0x852 #define HCC_PARAMS_EECP_MASK 0xff53 #define HCC_PARAMS_EECP_OFFSET 854 55 #define CMD_OFFSET 0x056 #define CONFIGFLAG_OFFSET 0x4057 58 #define USBCMD_RUN 159 60 #define USBLEGSUP_OFFSET 061 #define USBLEGSUP_BIOS_CONTROL (1 << 16)62 #define USBLEGSUP_OS_CONTROL (1 << 24)63 #define USBLEGCTLSTS_OFFSET 464 65 #define DEFAULT_WAIT 1000066 #define WAIT_STEP 1067 48 68 49 /** Get address of registers and IRQ for given device. … … 146 127 int pci_enable_interrupts(ddf_dev_t *device) 147 128 { 148 return ENOTSUP;149 129 int parent_phone = 150 130 devman_parent_device_connect(device->handle, IPC_FLAG_BLOCKING); -
uspace/drv/usbhid/generic/hiddev.c
rbeee81a rd38d830 39 39 #include <errno.h> 40 40 #include <str_error.h> 41 #include <bool.h> 41 42 42 43 #include <usbhid_iface.h> … … 64 65 size_t size, size_t *act_size, unsigned int flags); 65 66 67 static int usb_generic_hid_client_connected(ddf_fun_t *fun); 68 66 69 /*----------------------------------------------------------------------------*/ 67 70 … … 72 75 73 76 static ddf_dev_ops_t usb_generic_hid_ops = { 74 .interfaces[USBHID_DEV_IFACE] = &usb_generic_iface 77 .interfaces[USBHID_DEV_IFACE] = &usb_generic_iface, 78 .open = usb_generic_hid_client_connected 75 79 }; 76 80 … … 104 108 105 109 /*! @todo This should probably be atomic. */ 106 memcpy(buffer, hid_dev->input_report, hid_dev->input_report_size); 107 *act_size = hid_dev->input_report_size; 110 if (usb_hid_report_ready()) { 111 memcpy(buffer, hid_dev->input_report, 112 hid_dev->input_report_size); 113 *act_size = hid_dev->input_report_size; 114 usb_hid_report_received(); 115 } 108 116 109 117 // clear the buffer so that it will not be received twice 110 memset(hid_dev->input_report, 0, hid_dev->input_report_size);118 //memset(hid_dev->input_report, 0, hid_dev->input_report_size); 111 119 120 // note that we already received this report 121 // report_received = true; 122 123 return EOK; 124 } 125 126 /*----------------------------------------------------------------------------*/ 127 128 static int usb_generic_hid_client_connected(ddf_fun_t *fun) 129 { 130 usb_hid_report_received(); 112 131 return EOK; 113 132 } -
uspace/drv/usbhid/kbd/kbddev.c
rbeee81a rd38d830 255 255 256 256 if (hid_dev == NULL || hid_dev->data == NULL) { 257 usb_log_debug("default_connection_handler: " 258 "Missing parameter.\n"); 257 259 async_answer_0(icallid, EINVAL); 258 260 return; … … 267 269 268 270 if (kbd_dev->console_phone != -1) { 271 usb_log_debug("default_connection_handler: " 272 "console phone already set\n"); 269 273 async_answer_0(icallid, ELIMIT); 270 274 return; … … 272 276 273 277 kbd_dev->console_phone = callback; 278 279 usb_log_debug("default_connection_handler: OK\n"); 274 280 async_answer_0(icallid, EOK); 275 281 return; 276 282 } 277 283 284 usb_log_debug("default_connection_handler: Wrong function.\n"); 278 285 async_answer_0(icallid, EINVAL); 279 286 } … … 555 562 usb_log_debug2("Key pressed: %d (keycode: %d)\n", key, 556 563 kbd_dev->keys[i]); 557 usb_kbd_push_ev(hid_dev, kbd_dev, KEY_PRESS, key);558 564 if (!usb_kbd_is_lock(key)) { 559 565 usb_kbd_repeat_start(kbd_dev, key); 560 566 } 567 usb_kbd_push_ev(hid_dev, kbd_dev, KEY_PRESS, key); 561 568 } else { 562 569 // found, nothing happens -
uspace/drv/usbhid/mouse/mousedev.c
rbeee81a rd38d830 43 43 #include <str_error.h> 44 44 #include <ipc/mouse.h> 45 #include <io/console.h> 46 47 #include <ipc/kbd.h> 48 #include <io/keycode.h> 45 49 46 50 #include "mousedev.h" … … 61 65 62 66 const char *HID_MOUSE_FUN_NAME = "mouse"; 67 const char *HID_MOUSE_WHEEL_FUN_NAME = "mouse-wheel"; 63 68 const char *HID_MOUSE_CLASS_NAME = "mouse"; 69 const char *HID_MOUSE_WHEEL_CLASS_NAME = "keyboard"; 64 70 65 71 /** Default idle rate for mouses. */ … … 119 125 120 126 if (hid_dev == NULL || hid_dev->data == NULL) { 127 usb_log_debug("default_connection_handler: Missing " 128 "parameters.\n"); 121 129 async_answer_0(icallid, EINVAL); 122 130 return; … … 127 135 usb_mouse_t *mouse_dev = (usb_mouse_t *)hid_dev->data; 128 136 137 int *phone = (str_cmp(fun->name, HID_MOUSE_FUN_NAME) == 0) 138 ? &mouse_dev->mouse_phone : &mouse_dev->wheel_phone; 139 129 140 if (method == IPC_M_CONNECT_TO_ME) { 130 141 int callback = IPC_GET_ARG5(*icall); 131 142 132 if (mouse_dev->console_phone != -1) { 143 if (*phone != -1) { 144 usb_log_debug("default_connection_handler: Console " 145 "phone to mouse already set.\n"); 133 146 async_answer_0(icallid, ELIMIT); 147 //async_answer_0(icallid, EOK); 134 148 return; 135 149 } 136 150 137 mouse_dev->console_phone = callback;151 *phone = callback; 138 152 usb_log_debug("Console phone to mouse set ok (%d).\n", callback); 139 153 async_answer_0(icallid, EOK); … … 141 155 } 142 156 157 usb_log_debug("default_connection_handler: Invalid function.\n"); 143 158 async_answer_0(icallid, EINVAL); 144 159 } … … 152 167 return NULL; 153 168 } 154 mouse->console_phone = -1; 169 mouse->mouse_phone = -1; 170 mouse->wheel_phone = -1; 155 171 156 172 return mouse; … … 164 180 165 181 // hangup phone to the console 166 if ((*mouse_dev)->console_phone >= 0) { 167 async_hangup((*mouse_dev)->console_phone); 182 if ((*mouse_dev)->mouse_phone >= 0) { 183 async_hangup((*mouse_dev)->mouse_phone); 184 } 185 186 if ((*mouse_dev)->wheel_phone >= 0) { 187 async_hangup((*mouse_dev)->wheel_phone); 168 188 } 169 189 … … 174 194 /*----------------------------------------------------------------------------*/ 175 195 176 static bool usb_mouse_process_boot_report(usb_hid_dev_t *hid_dev, 177 uint8_t *buffer, size_t buffer_size) 196 static void usb_mouse_send_wheel(const usb_mouse_t *mouse_dev, int wheel) 197 { 198 console_event_t ev; 199 200 ev.type = KEY_PRESS; 201 ev.key = (wheel > 0) ? KC_UP : (wheel < 0) ? KC_DOWN : 0; 202 ev.mods = 0; 203 ev.c = 0; 204 205 if (mouse_dev->wheel_phone < 0) { 206 usb_log_warning( 207 "Connection to console not ready, key discarded.\n"); 208 return; 209 } 210 211 int count = (wheel < 0) ? -wheel : wheel; 212 int i; 213 214 for (i = 0; i < count * 3; ++i) { 215 usb_log_debug2("Sending key %d to the console\n", ev.key); 216 async_msg_4(mouse_dev->wheel_phone, KBD_EVENT, ev.type, 217 ev.key, ev.mods, ev.c); 218 // send key release right away 219 async_msg_4(mouse_dev->wheel_phone, KBD_EVENT, KEY_RELEASE, 220 ev.key, ev.mods, ev.c); 221 } 222 } 223 224 /*----------------------------------------------------------------------------*/ 225 226 static bool usb_mouse_process_report(usb_hid_dev_t *hid_dev, uint8_t *buffer, 227 size_t buffer_size) 178 228 { 179 229 usb_mouse_t *mouse_dev = (usb_mouse_t *)hid_dev->data; … … 182 232 usb_debug_str_buffer(buffer, buffer_size, 0)); 183 233 184 if (mouse_dev-> console_phone < 0) {234 if (mouse_dev->mouse_phone < 0) { 185 235 usb_log_error(NAME " No console phone.\n"); 186 236 return false; // ?? … … 252 302 253 303 if ((shift_x != 0) || (shift_y != 0)) { 254 async_req_2_0(mouse_dev-> console_phone,304 async_req_2_0(mouse_dev->mouse_phone, 255 305 MEVENT_MOVE, shift_x, shift_y); 256 306 } 307 308 /* 309 * Wheel 310 */ 311 int wheel = 0; 312 313 path = usb_hid_report_path(); 314 usb_hid_report_path_append_item(path, USB_HIDUT_PAGE_GENERIC_DESKTOP, 315 USB_HIDUT_USAGE_GENERIC_DESKTOP_WHEEL); 316 317 usb_hid_report_path_set_report_id(path, report_id); 318 319 field = usb_hid_report_get_sibling( 320 hid_dev->report, NULL, path, USB_HID_PATH_COMPARE_END, 321 USB_HID_REPORT_TYPE_INPUT); 322 323 if (field != NULL) { 324 usb_log_debug(NAME " VALUE(%X) USAGE(%X)\n", field->value, 325 field->usage); 326 wheel = field->value; 327 } 328 329 usb_hid_report_path_free(path); 330 331 // send arrow up for positive direction and arrow down for negative 332 // direction; three arrows for difference of 1 333 usb_mouse_send_wheel(mouse_dev, wheel); 334 257 335 258 336 /* … … 274 352 if (mouse_dev->buttons[field->usage - field->usage_minimum] == 0 275 353 && field->value != 0) { 276 async_req_2_0(mouse_dev-> console_phone,354 async_req_2_0(mouse_dev->mouse_phone, 277 355 MEVENT_BUTTON, field->usage, 1); 278 356 mouse_dev->buttons[field->usage - field->usage_minimum] … … 281 359 mouse_dev->buttons[field->usage - field->usage_minimum] != 0 282 360 && field->value == 0) { 283 async_req_2_0(mouse_dev-> console_phone,361 async_req_2_0(mouse_dev->mouse_phone, 284 362 MEVENT_BUTTON, field->usage, 0); 285 363 mouse_dev->buttons[field->usage - field->usage_minimum] … … 337 415 } 338 416 417 /* 418 * Special function for acting as keyboard (wheel) 419 */ 420 usb_log_debug("Creating DDF function %s...\n", 421 HID_MOUSE_WHEEL_FUN_NAME); 422 fun = ddf_fun_create(hid_dev->usb_dev->ddf_dev, fun_exposed, 423 HID_MOUSE_WHEEL_FUN_NAME); 424 if (fun == NULL) { 425 usb_log_error("Could not create DDF function node.\n"); 426 return ENOMEM; 427 } 428 429 /* 430 * Store the initialized HID device and HID ops 431 * to the DDF function. 432 */ 433 fun->ops = &hid_dev->ops; 434 fun->driver_data = hid_dev; // TODO: maybe change to hid_dev->data 435 436 rc = ddf_fun_bind(fun); 437 if (rc != EOK) { 438 usb_log_error("Could not bind DDF function: %s.\n", 439 str_error(rc)); 440 ddf_fun_destroy(fun); 441 return rc; 442 } 443 444 usb_log_debug("Adding DDF function to class %s...\n", 445 HID_MOUSE_WHEEL_CLASS_NAME); 446 rc = ddf_fun_add_to_class(fun, HID_MOUSE_WHEEL_CLASS_NAME); 447 if (rc != EOK) { 448 usb_log_error( 449 "Could not add DDF function to class %s: %s.\n", 450 HID_MOUSE_WHEEL_CLASS_NAME, str_error(rc)); 451 ddf_fun_destroy(fun); 452 return rc; 453 } 454 339 455 return EOK; 340 456 } … … 407 523 } 408 524 409 return usb_mouse_process_ boot_report(hid_dev, buffer, buffer_size);525 return usb_mouse_process_report(hid_dev, buffer, buffer_size); 410 526 } 411 527 -
uspace/drv/usbhid/mouse/mousedev.h
rbeee81a rd38d830 48 48 //suseconds_t poll_interval_us; 49 49 /** IPC phone to console (consumer). */ 50 int console_phone; 50 int mouse_phone; 51 int wheel_phone; 51 52 52 53 int32_t *buttons; -
uspace/drv/usbhid/subdrivers.c
rbeee81a rd38d830 36 36 #include "subdrivers.h" 37 37 #include "usb/classes/hidut.h" 38 #include "usb/classes/hidpath.h" 38 39 39 40 #include "lgtch-ultrax/lgtch-ultrax.h" 41 #include "mouse/mousedev.h" 40 42 41 43 static usb_hid_subdriver_usage_t path_kbd[] = { 42 44 {USB_HIDUT_PAGE_KEYBOARD, 0}, 45 {0, 0} 46 }; 47 48 static usb_hid_subdriver_usage_t path_mouse2[] = { 49 {USB_HIDUT_PAGE_GENERIC_DESKTOP, USB_HIDUT_USAGE_GENERIC_DESKTOP_X}, 43 50 {0, 0} 44 51 }; … … 79 86 } 80 87 }, 88 { 89 path_mouse2, 90 -1, 91 USB_HID_PATH_COMPARE_END 92 | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY, 93 -1, 94 -1, 95 { 96 .init = usb_mouse_init, 97 .deinit = usb_mouse_deinit, 98 .poll = usb_mouse_polling_callback, 99 .poll_end = NULL 100 } 101 }, 81 102 {NULL, -1, 0, -1, -1, {NULL, NULL, NULL, NULL}} 82 103 }; -
uspace/drv/usbhid/usbhid.c
rbeee81a rd38d830 63 63 static const int USB_HID_MAX_SUBDRIVERS = 10; 64 64 65 static fibril_local bool report_received; 66 65 67 /*----------------------------------------------------------------------------*/ 66 68 … … 412 414 } 413 415 414 // TODO: remove the mouse hack 415 if (hid_dev->poll_pipe_index == USB_HID_MOUSE_POLL_EP_NO || 416 fallback) { 416 if (fallback) { 417 417 // fall back to boot protocol 418 418 switch (hid_dev->poll_pipe_index) { … … 509 509 free(input_old); 510 510 } 511 usb_hid_new_report(); 511 512 } 512 513 } … … 589 590 /*----------------------------------------------------------------------------*/ 590 591 592 void usb_hid_new_report(void) 593 { 594 report_received = false; 595 } 596 597 /*----------------------------------------------------------------------------*/ 598 599 void usb_hid_report_received(void) 600 { 601 report_received = true; 602 } 603 604 /*----------------------------------------------------------------------------*/ 605 606 bool usb_hid_report_ready(void) 607 { 608 return !report_received; 609 } 610 611 /*----------------------------------------------------------------------------*/ 612 591 613 void usb_hid_free(usb_hid_dev_t **hid_dev) 592 614 { -
uspace/drv/usbhid/usbhid.h
rbeee81a rd38d830 44 44 #include <usb/devdrv.h> 45 45 #include <usb/classes/hid.h> 46 #include <bool.h> 46 47 47 48 struct usb_hid_dev; … … 128 129 //const char *usb_hid_get_class_name(const usb_hid_dev_t *hid_dev); 129 130 131 void usb_hid_new_report(void); 132 133 void usb_hid_report_received(void); 134 135 bool usb_hid_report_ready(void); 136 130 137 void usb_hid_free(usb_hid_dev_t **hid_dev); 131 138 -
uspace/lib/usb/include/usb/classes/hiddescriptor.h
rbeee81a rd38d830 78 78 uint32_t usb_hid_report_tag_data_uint32(const uint8_t *data, size_t size); 79 79 80 usb_hid_report_path_t *usb_hid_report_path_try_insert(usb_hid_report_t *report, usb_hid_report_path_t *cmp_path); 80 81 #endif 81 82 /** -
uspace/lib/usb/include/usb/classes/hidpath.h
rbeee81a rd38d830 43 43 * Description of path of usage pages and usages in report descriptor 44 44 */ 45 #define USB_HID_PATH_COMPARE_STRICT 0 46 #define USB_HID_PATH_COMPARE_END 1 47 #define USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY 4 48 #define USB_HID_PATH_COMPARE_COLLECTION_ONLY 2 /* porovnava jenom cestu z Kolekci */ 45 /** Wanted usage path must be exactly the same as the searched one */ 46 #define USB_HID_PATH_COMPARE_STRICT 0 47 /** Wanted usage path must be the suffix in the searched one */ 48 #define USB_HID_PATH_COMPARE_END 1 49 /** */ 50 #define USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY 2 51 /** Searched usage page must be prefix of the other one */ 52 #define USB_HID_PATH_COMPARE_BEGIN 4 53 /** Searched couple of usage page and usage can be anywhere in usage path */ 54 #define USB_HID_PATH_COMPARE_ANYWHERE 8 49 55 50 56 -
uspace/lib/usb/include/usb/classes/hidtypes.h
rbeee81a rd38d830 165 165 /** */ 166 166 link_t link; 167 168 int in_delimiter; 167 169 } usb_hid_report_item_t; 168 170 -
uspace/lib/usb/src/hiddescriptor.c
rbeee81a rd38d830 41 41 #include <assert.h> 42 42 43 44 #define OUTSIDE_DELIMITER_SET 0 45 #define START_DELIMITER_SET 1 46 #define INSIDE_DELIMITER_SET 2 47 43 48 /** The new report item flag. Used to determine when the item is completly 44 49 * configured and should be added to the report structure … … 56 61 #define USB_HID_UNKNOWN_TAG -99 57 62 58 59 /** 60 * Initialize the report descriptor parser structure 61 * 62 * @param parser Report descriptor parser structure 63 * @return Error code 64 */ 65 int usb_hid_report_init(usb_hid_report_t *report) 66 { 67 if(report == NULL) { 68 return EINVAL; 69 } 70 71 memset(report, 0, sizeof(usb_hid_report_t)); 72 list_initialize(&report->reports); 73 list_initialize(&report->collection_paths); 74 75 report->use_report_ids = 0; 76 return EOK; 77 } 78 79 int usb_hid_report_append_fields(usb_hid_report_t *report, usb_hid_report_item_t *report_item) 80 { 81 usb_hid_report_field_t *field; 82 int i; 83 84 63 usb_hid_report_path_t *usb_hid_report_path_try_insert(usb_hid_report_t *report, usb_hid_report_path_t *cmp_path) 64 { 85 65 /* find or append current collection path to the list */ 86 66 link_t *path_it = report->collection_paths.next; … … 89 69 path = list_get_instance(path_it, usb_hid_report_path_t, link); 90 70 91 if(usb_hid_report_compare_usage_path(path, report_item->usage_path, USB_HID_PATH_COMPARE_STRICT) == EOK){71 if(usb_hid_report_compare_usage_path(path, cmp_path, USB_HID_PATH_COMPARE_STRICT) == EOK){ 92 72 break; 93 73 } … … 95 75 } 96 76 if(path_it == &report->collection_paths) { 97 path = usb_hid_report_path_clone( report_item->usage_path);77 path = usb_hid_report_path_clone(cmp_path); 98 78 list_append(&path->link, &report->collection_paths); 99 79 report->collection_paths_count++; 100 } 80 81 return path; 82 } 83 else { 84 return list_get_instance(path_it, usb_hid_report_path_t, link); 85 } 86 } 87 88 /** 89 * Initialize the report descriptor parser structure 90 * 91 * @param parser Report descriptor parser structure 92 * @return Error code 93 */ 94 int usb_hid_report_init(usb_hid_report_t *report) 95 { 96 if(report == NULL) { 97 return EINVAL; 98 } 99 100 memset(report, 0, sizeof(usb_hid_report_t)); 101 list_initialize(&report->reports); 102 list_initialize(&report->collection_paths); 103 104 report->use_report_ids = 0; 105 return EOK; 106 } 107 108 109 /* 110 * 111 * 112 */ 113 int usb_hid_report_append_fields(usb_hid_report_t *report, usb_hid_report_item_t *report_item) 114 { 115 usb_hid_report_field_t *field; 116 int i; 101 117 102 118 for(i=0; i<report_item->usages_count; i++){ … … 104 120 } 105 121 106 122 usb_hid_report_path_t *path = report_item->usage_path; 107 123 for(i=0; i<report_item->count; i++){ 108 124 … … 112 128 113 129 /* fill the attributes */ 114 field->collection_path = path;115 130 field->logical_minimum = report_item->logical_minimum; 116 131 field->logical_maximum = report_item->logical_maximum; … … 129 144 if(report_item->usages_count > 0 && ((report_item->usage_minimum == 0) && (report_item->usage_maximum == 0))) { 130 145 uint32_t usage; 131 if(report_item->type != USB_HID_REPORT_TYPE_OUTPUT) { 132 if(i < report_item->usages_count){ 133 usage = report_item->usages[i]; 134 } 135 else { 136 usage = report_item->usages[report_item->usages_count - 1]; 137 } 146 if(i < report_item->usages_count){ 147 usage = report_item->usages[i]; 138 148 } 139 149 else { 140 if((report_item->count - i - 1) < report_item->usages_count){ 141 usage = report_item->usages[(report_item->count - i - 1)]; 142 } 143 else { 144 usage = report_item->usages[report_item->usages_count - 1]; 145 } 150 usage = report_item->usages[report_item->usages_count - 1]; 146 151 } 147 152 … … 159 164 160 165 if((USB_HID_ITEM_FLAG_VARIABLE(report_item->item_flags) != 0) && (!((report_item->usage_minimum == 0) && (report_item->usage_maximum == 0)))) { 161 if(report_item->type == USB_HID_REPORT_TYPE_INPUT) { 162 field->usage = report_item->usage_maximum - i; 163 } 164 else { 165 field->usage = report_item->usage_minimum + i; 166 } 167 168 } 169 166 field->usage = report_item->usage_minimum + i; 167 } 168 169 usb_hid_report_set_last_item(path, USB_HID_TAG_CLASS_GLOBAL, field->usage_page); 170 usb_hid_report_set_last_item(path, USB_HID_TAG_CLASS_LOCAL, field->usage); 171 172 field->collection_path = usb_hid_report_path_try_insert(report, path); 173 170 174 field->size = report_item->size; 171 field->offset = report_item->offset + (i * report_item->size); 175 176 size_t offset_byte = (report_item->offset + (i * report_item->size)) / 8; 177 size_t offset_bit = 8 - ((report_item->offset + (i * report_item->size)) % 8) - report_item->size; 178 179 field->offset = 8 * offset_byte + offset_bit; 172 180 if(report_item->id != 0) { 173 181 field->offset += 8; … … 264 272 return ENOMEM; 265 273 } 274 usb_hid_report_path_append_item(usage_path, 0, 0); 266 275 267 276 while(i<size){ … … 349 358 tmp_usage_path = list_get_instance(report_item->usage_path->link.prev, usb_hid_report_usage_path_t, link); 350 359 351 usb_hid_report_set_last_item(usage_path, tmp_usage_path->usage_page, tmp_usage_path->usage); 360 usb_hid_report_set_last_item(usage_path, USB_HID_TAG_CLASS_GLOBAL, tmp_usage_path->usage_page); 361 usb_hid_report_set_last_item(usage_path, USB_HID_TAG_CLASS_LOCAL, tmp_usage_path->usage); 352 362 353 363 usb_hid_report_path_free(report_item->usage_path); … … 427 437 int usb_hid_report_parse_main_tag(uint8_t tag, const uint8_t *data, size_t item_size, 428 438 usb_hid_report_item_t *report_item, usb_hid_report_path_t *usage_path) 429 { 439 { 440 usb_hid_report_usage_path_t *path_item; 441 430 442 switch(tag) 431 443 { … … 438 450 439 451 case USB_HID_REPORT_TAG_COLLECTION: 440 // TODO usage_path->flags = *data; 441 usb_hid_report_path_append_item(usage_path, report_item->usage_page, report_item->usages[report_item->usages_count-1]); 452 // store collection atributes 453 path_item = list_get_instance(usage_path->head.prev, usb_hid_report_usage_path_t, link); 454 path_item->flags = *data; 455 456 // set last item 457 usb_hid_report_set_last_item(usage_path, USB_HID_TAG_CLASS_GLOBAL, report_item->usage_page); 458 usb_hid_report_set_last_item(usage_path, USB_HID_TAG_CLASS_LOCAL, report_item->usages[report_item->usages_count-1]); 459 460 // append the new one which will be set by common 461 // usage/usage page 462 usb_hid_report_path_append_item(usage_path, report_item->usage_page, report_item->usages[report_item->usages_count-1]); 442 463 usb_hid_report_reset_local_items (report_item); 443 464 return USB_HID_NO_ACTION; … … 530 551 usb_hid_report_item_t *report_item, usb_hid_report_path_t *usage_path) 531 552 { 532 switch(tag) 533 { 553 switch(tag) { 534 554 case USB_HID_REPORT_TAG_USAGE: 535 report_item->usages[report_item->usages_count] = usb_hid_report_tag_data_uint32(data,item_size); 536 report_item->usages_count++; 555 switch(report_item->in_delimiter) { 556 case INSIDE_DELIMITER_SET: 557 // nothing to do 558 break; 559 case START_DELIMITER_SET: 560 report_item->in_delimiter = INSIDE_DELIMITER_SET; 561 case OUTSIDE_DELIMITER_SET: 562 report_item->usages[report_item->usages_count] = usb_hid_report_tag_data_uint32(data,item_size); 563 report_item->usages_count++; 564 break; 565 } 537 566 break; 538 567 case USB_HID_REPORT_TAG_USAGE_MINIMUM: … … 575 604 break; 576 605 case USB_HID_REPORT_TAG_DELIMITER: 577 //report_item->delimiter = usb_hid_report_tag_data_uint32(data,item_size); 578 //TODO: 579 // DELIMITER STUFF 580 break; 581 606 report_item->in_delimiter = usb_hid_report_tag_data_uint32(data,item_size); 607 break; 608 582 609 default: 583 610 return USB_HID_NO_ACTION; 584 611 } 585 612 586 613 return EOK; 587 614 } … … 629 656 630 657 usb_log_debug("\t\tOFFSET: %X\n", report_item->offset); 631 usb_log_debug("\t\tSIZE: %zu\n", report_item->size); 658 usb_log_debug("\t\tSIZE: %zu\n", report_item->size); 632 659 usb_log_debug("\t\tLOGMIN: %d\n", report_item->logical_minimum); 633 660 usb_log_debug("\t\tLOGMAX: %d\n", report_item->logical_maximum); … … 640 667 usb_log_debug("\t\ttUSAGE: %X\n", report_item->usage); 641 668 usb_log_debug("\t\tUSAGE PAGE: %X\n", report_item->usage_page); 642 643 // usb_log_debug("\n"); 669 670 //usb_hid_print_usage_path(report_item->collection_path); 671 672 usb_log_debug("\n"); 644 673 645 674 } … … 666 695 usb_log_debug("Report ID: %d\n", report_des->report_id); 667 696 usb_log_debug("\tType: %d\n", report_des->type); 668 usb_log_debug("\tLength: %zu\n", report_des->bit_length); 669 usb_log_debug("\tItems: %zu\n", report_des->item_length); 697 usb_log_debug("\tLength: %zu\n", report_des->bit_length); 698 usb_log_debug("\tItems: %zu\n", report_des->item_length); 670 699 671 700 usb_hid_descriptor_print_list(&report_des->report_items); -
uspace/lib/usb/src/hidparser.c
rbeee81a rd38d830 405 405 } 406 406 407 size_t shift = offset%8;407 size_t shift = 8 - offset%8 - length; 408 408 409 409 value = value << shift; -
uspace/lib/usb/src/hidpath.c
rbeee81a rd38d830 149 149 usb_log_debug("\tFLAGS: %d\n", path_item->flags); 150 150 151 item = item->next;151 item = item->next; 152 152 } 153 153 } … … 156 156 * Compares two usage paths structures 157 157 * 158 * If USB_HID_PATH_COMPARE_COLLECTION_ONLY flag is given, the last item in report_path structure is forgotten 159 * 160 * @param report_path usage path structure to compare 158 * 159 * @param report_path usage path structure to compare with @path 161 160 * @param path usage patrh structure to compare 162 161 * @param flags Flags determining the mode of comparison … … 179 178 } 180 179 180 // Empty path match all others 181 181 if(path->depth == 0){ 182 182 return EOK; … … 189 189 190 190 switch(flags){ 191 /* path must be completly identical */ 191 /* path is somewhere in report_path */ 192 case USB_HID_PATH_COMPARE_ANYWHERE: 193 if(path->depth != 1){ 194 return 1; 195 } 196 197 // projit skrz cestu a kdyz nekde sedi tak vratim EOK 198 // dojduli az za konec tak nnesedi 199 report_link = report_path->head.next; 200 path_link = path->head.next; 201 path_item = list_get_instance(path_link, usb_hid_report_usage_path_t, link); 202 203 while(report_link != &report_path->head) { 204 report_item = list_get_instance(report_link, usb_hid_report_usage_path_t, link); 205 if(report_item->usage_page == path_item->usage_page){ 206 if(only_page == 0){ 207 if(report_item->usage == path_item->usage) { 208 return EOK; 209 } 210 } 211 else { 212 return EOK; 213 } 214 } 215 216 report_link = report_link->next; 217 } 218 219 return 1; 220 break; 221 /* the paths must be identical */ 192 222 case USB_HID_PATH_COMPARE_STRICT: 193 223 if(report_path->depth != path->depth){ 194 224 return 1; 195 225 } 196 226 227 /* path is prefix of the report_path */ 228 case USB_HID_PATH_COMPARE_BEGIN: 229 197 230 report_link = report_path->head.next; 198 231 path_link = path->head.next; … … 221 254 } 222 255 223 if(((report_link == &report_path->head) && (path_link == &path->head)) || 224 (((flags & USB_HID_PATH_COMPARE_COLLECTION_ONLY) != 0) && 225 (path_link = &path->head) && 226 (report_link == report_path->head.prev))) { 256 if((((flags & USB_HID_PATH_COMPARE_BEGIN) != 0) && (path_link == &path->head)) || 257 ((report_link == &report_path->head) && (path_link == &path->head))) { 227 258 return EOK; 228 259 } … … 232 263 break; 233 264 234 /* compare with only the end of path*/265 /* path is suffix of report_path */ 235 266 case USB_HID_PATH_COMPARE_END: 236 267 237 if((flags & USB_HID_PATH_COMPARE_COLLECTION_ONLY) != 0) { 238 report_link = report_path->head.prev->prev; 239 } 240 else { 241 report_link = report_path->head.prev; 242 } 268 report_link = report_path->head.prev; 243 269 path_link = path->head.prev; 244 270 -
uspace/lib/usb/src/host/batch.c
rbeee81a rd38d830 128 128 memcpy(instance->buffer, instance->data_buffer, instance->buffer_size); 129 129 130 usb_log_debug("Batch %pdone (T%d.%d, %s %s in, %zuB): %s (%d).\n",130 usb_log_debug("Batch(%p) done (T%d.%d, %s %s in, %zuB): %s (%d).\n", 131 131 instance, instance->ep->address, instance->ep->endpoint, 132 132 usb_str_speed(instance->ep->speed), 133 133 usb_str_transfer_type_short(instance->ep->transfer_type), 134 instance->transfered_size, str_error(instance->error), instance->error); 134 instance->transfered_size, str_error(instance->error), 135 instance->error); 135 136 136 137 instance->callback_in(instance->fun, instance->error, … … 147 148 assert(instance->callback_out); 148 149 149 usb_log_debug("Batch %pdone (T%d.%d, %s %s out): %s (%d).\n",150 usb_log_debug("Batch(%p) done (T%d.%d, %s %s out): %s (%d).\n", 150 151 instance, instance->ep->address, instance->ep->endpoint, 151 152 usb_str_speed(instance->ep->speed),
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