Changeset 7b715892 in mainline
- Timestamp:
- 2011-04-09T16:00:33Z (13 years ago)
- Branches:
- lfn, master, serial, ticket/834-toolchain-update, topic/msim-upgrade, topic/simplify-dev-export
- Children:
- 5410c04
- Parents:
- 8efafda (diff), 8e8b84f (diff)
Note: this is a merge changeset, the changes displayed below correspond to the merge itself.
Use the(diff)
links above to see all the changes relative to each parent. - Location:
- uspace
- Files:
-
- 4 added
- 15 edited
Legend:
- Unmodified
- Added
- Removed
-
uspace/drv/ohci/Makefile
r8efafda r7b715892 33 33 34 34 SOURCES = \ 35 batch.c \ 36 hc.c \ 35 37 iface.c \ 36 batch.c \37 38 main.c \ 38 hc.c \39 39 ohci.c \ 40 pci.c \ 40 41 root_hub.c \ 41 pci.c 42 transfer_list.c \ 43 hw_struct/endpoint_descriptor.c \ 44 hw_struct/transfer_descriptor.c 45 42 46 43 47 include $(USPACE_PREFIX)/Makefile.common -
uspace/drv/ohci/batch.c
r8efafda r7b715892 40 40 #include "batch.h" 41 41 #include "utils/malloc32.h" 42 42 #include "hw_struct/endpoint_descriptor.h" 43 #include "hw_struct/transfer_descriptor.h" 44 45 typedef struct ohci_batch { 46 ed_t *ed; 47 td_t *tds; 48 size_t td_count; 49 } ohci_batch_t; 50 51 static void batch_control(usb_transfer_batch_t *instance, 52 usb_direction_t data_dir, usb_direction_t status_dir); 43 53 static void batch_call_in_and_dispose(usb_transfer_batch_t *instance); 44 54 static void batch_call_out_and_dispose(usb_transfer_batch_t *instance); 45 55 46 56 #define DEFAULT_ERROR_COUNT 3 47 usb_transfer_batch_t * batch_get( 48 ddf_fun_t *fun, 49 usb_target_t target, 50 usb_transfer_type_t transfer_type, 51 size_t max_packet_size, 52 usb_speed_t speed, 53 char *buffer, 54 size_t buffer_size, 55 char *setup_buffer, 56 size_t setup_size, 57 usb_transfer_batch_t * batch_get(ddf_fun_t *fun, endpoint_t *ep, 58 char *buffer, size_t buffer_size, char* setup_buffer, size_t setup_size, 57 59 usbhc_iface_transfer_in_callback_t func_in, 58 usbhc_iface_transfer_out_callback_t func_out, 59 void *arg, 60 usb_device_keeper_t *manager 61 ) 60 usbhc_iface_transfer_out_callback_t func_out, void *arg) 62 61 { 63 62 #define CHECK_NULL_DISPOSE_RETURN(ptr, message...) \ … … 73 72 CHECK_NULL_DISPOSE_RETURN(instance, 74 73 "Failed to allocate batch instance.\n"); 75 usb_transfer_batch_init(instance, target, transfer_type, speed, 76 max_packet_size, buffer, NULL, buffer_size, NULL, setup_size, 77 func_in, func_out, arg, fun, NULL, NULL); 74 usb_target_t target = 75 { .address = ep->address, .endpoint = ep->endpoint }; 76 usb_transfer_batch_init(instance, target, ep->transfer_type, ep->speed, 77 ep->max_packet_size, buffer, NULL, buffer_size, NULL, setup_size, 78 func_in, func_out, arg, fun, ep, NULL); 79 80 ohci_batch_t *data = malloc(sizeof(ohci_batch_t)); 81 CHECK_NULL_DISPOSE_RETURN(data, "Failed to allocate batch data.\n"); 82 bzero(data, sizeof(ohci_batch_t)); 83 instance->private_data = data; 84 85 /* we needs + 1 transfer descriptor as the last one won't be executed */ 86 data->td_count = 1 + 87 ((buffer_size + OHCI_TD_MAX_TRANSFER - 1) / OHCI_TD_MAX_TRANSFER); 88 if (ep->transfer_type == USB_TRANSFER_CONTROL) { 89 data->td_count += 2; 90 } 91 92 data->tds = malloc32(sizeof(td_t) * data->td_count); 93 CHECK_NULL_DISPOSE_RETURN(data->tds, 94 "Failed to allocate transfer descriptors.\n"); 95 bzero(data->tds, sizeof(td_t) * data->td_count); 96 97 data->ed = malloc32(sizeof(ed_t)); 98 CHECK_NULL_DISPOSE_RETURN(data->ed, 99 "Failed to allocate endpoint descriptor.\n"); 78 100 79 101 if (buffer_size > 0) { … … 90 112 } 91 113 92 93 114 return instance; 94 115 } … … 97 118 { 98 119 assert(instance); 120 ohci_batch_t *data = instance->private_data; 121 assert(data); 122 free32(data->ed); 123 free32(data->tds); 124 free32(instance->setup_buffer); 99 125 free32(instance->transport_buffer); 100 free 32(instance->setup_buffer);126 free(data); 101 127 free(instance); 128 } 129 /*----------------------------------------------------------------------------*/ 130 bool batch_is_complete(usb_transfer_batch_t *instance) 131 { 132 assert(instance); 133 ohci_batch_t *data = instance->private_data; 134 assert(data); 135 size_t tds = data->td_count - 1; 136 usb_log_debug2("Batch(%p) checking %d td(s) for completion.\n", 137 instance, tds); 138 size_t i = 0; 139 for (; i < tds; ++i) { 140 if (!td_is_finished(&data->tds[i])) 141 return false; 142 instance->error = td_error(&data->tds[i]); 143 /* FIXME: calculate real transfered size */ 144 instance->transfered_size = instance->buffer_size; 145 if (instance->error != EOK) { 146 usb_log_debug("Batch(%p) found error TD(%d):%x.\n", 147 instance, i, data->tds[i].status); 148 return true; 149 // endpoint_toggle_set(instance->ep, 150 } 151 } 152 return true; 102 153 } 103 154 /*----------------------------------------------------------------------------*/ … … 109 160 instance->buffer_size); 110 161 instance->next_step = batch_call_out_and_dispose; 111 /* TODO: implement */162 batch_control(instance, USB_DIRECTION_OUT, USB_DIRECTION_IN); 112 163 usb_log_debug("Batch(%p) CONTROL WRITE initialized.\n", instance); 113 164 } … … 117 168 assert(instance); 118 169 instance->next_step = batch_call_in_and_dispose; 119 /* TODO: implement */170 batch_control(instance, USB_DIRECTION_IN, USB_DIRECTION_OUT); 120 171 usb_log_debug("Batch(%p) CONTROL READ initialized.\n", instance); 121 172 } … … 124 175 { 125 176 assert(instance); 126 instance->direction = USB_DIRECTION_IN;177 assert(instance->direction == USB_DIRECTION_IN); 127 178 instance->next_step = batch_call_in_and_dispose; 128 179 /* TODO: implement */ … … 133 184 { 134 185 assert(instance); 135 instance->direction = USB_DIRECTION_OUT;186 assert(instance->direction == USB_DIRECTION_OUT); 136 187 /* We are data out, we are supposed to provide data */ 137 188 memcpy(instance->transport_buffer, instance->buffer, … … 160 211 } 161 212 /*----------------------------------------------------------------------------*/ 213 ed_t * batch_ed(usb_transfer_batch_t *instance) 214 { 215 assert(instance); 216 ohci_batch_t *data = instance->private_data; 217 assert(data); 218 return data->ed; 219 } 220 /*----------------------------------------------------------------------------*/ 221 void batch_control(usb_transfer_batch_t *instance, 222 usb_direction_t data_dir, usb_direction_t status_dir) 223 { 224 assert(instance); 225 ohci_batch_t *data = instance->private_data; 226 assert(data); 227 ed_init(data->ed, instance->ep); 228 ed_add_tds(data->ed, &data->tds[0], &data->tds[data->td_count - 1]); 229 usb_log_debug("Created ED: %x:%x:%x:%x.\n", data->ed->status, 230 data->ed->td_tail, data->ed->td_head, data->ed->next); 231 int toggle = 0; 232 /* setup stage */ 233 td_init(&data->tds[0], USB_DIRECTION_BOTH, instance->setup_buffer, 234 instance->setup_size, toggle); 235 td_set_next(&data->tds[0], &data->tds[1]); 236 usb_log_debug("Created SETUP TD: %x:%x:%x:%x.\n", data->tds[0].status, 237 data->tds[0].cbp, data->tds[0].next, data->tds[0].be); 238 239 /* data stage */ 240 size_t td_current = 1; 241 size_t remain_size = instance->buffer_size; 242 char *transfer_buffer = instance->transport_buffer; 243 while (remain_size > 0) { 244 size_t transfer_size = remain_size > OHCI_TD_MAX_TRANSFER ? 245 OHCI_TD_MAX_TRANSFER : remain_size; 246 toggle = 1 - toggle; 247 248 td_init(&data->tds[td_current], data_dir, transfer_buffer, 249 transfer_size, toggle); 250 td_set_next(&data->tds[td_current], &data->tds[td_current + 1]); 251 usb_log_debug("Created DATA TD: %x:%x:%x:%x.\n", 252 data->tds[td_current].status, data->tds[td_current].cbp, 253 data->tds[td_current].next, data->tds[td_current].be); 254 255 transfer_buffer += transfer_size; 256 remain_size -= transfer_size; 257 assert(td_current < data->td_count - 2); 258 ++td_current; 259 } 260 261 /* status stage */ 262 assert(td_current == data->td_count - 2); 263 td_init(&data->tds[td_current], status_dir, NULL, 0, 1); 264 usb_log_debug("Created STATUS TD: %x:%x:%x:%x.\n", 265 data->tds[td_current].status, data->tds[td_current].cbp, 266 data->tds[td_current].next, data->tds[td_current].be); 267 } 268 /*----------------------------------------------------------------------------*/ 162 269 /** Helper function calls callback and correctly disposes of batch structure. 163 270 * -
uspace/drv/ohci/batch.h
r8efafda r7b715892 26 26 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 27 27 */ 28 /** @addtogroup drvusb ohci28 /** @addtogroup drvusbuhcihc 29 29 * @{ 30 30 */ 31 31 /** @file 32 * @brief OHCI driver USB transaction structure32 * @brief UHCI driver USB transaction structure 33 33 */ 34 #ifndef DRV_OHCI_BATCH_H 35 #define DRV_OHCI_BATCH_H 36 34 #ifndef DRV_UHCI_BATCH_H 35 #define DRV_UHCI_BATCH_H 37 36 38 37 #include <usbhc_iface.h> 39 38 #include <usb/usb.h> 40 39 #include <usb/host/device_keeper.h> 40 #include <usb/host/endpoint.h> 41 41 #include <usb/host/batch.h> 42 42 43 #include "hw_struct/endpoint_descriptor.h" 44 43 45 usb_transfer_batch_t * batch_get( 44 ddf_fun_t *fun, 45 usb_target_t target, 46 usb_transfer_type_t transfer_type, 47 size_t max_packet_size, 48 usb_speed_t speed, 49 char *buffer, 50 size_t size, 51 char *setup_buffer, 52 size_t setup_size, 46 ddf_fun_t *fun, endpoint_t *ep, char *buffer, size_t size, 47 char *setup_buffer, size_t setup_size, 53 48 usbhc_iface_transfer_in_callback_t func_in, 54 49 usbhc_iface_transfer_out_callback_t func_out, 55 void *arg, 56 usb_device_keeper_t *manager 57 ); 50 void *arg); 58 51 59 52 void batch_dispose(usb_transfer_batch_t *instance); 53 54 bool batch_is_complete(usb_transfer_batch_t *instance); 60 55 61 56 void batch_control_write(usb_transfer_batch_t *instance); … … 70 65 71 66 void batch_bulk_out(usb_transfer_batch_t *instance); 67 68 ed_t * batch_ed(usb_transfer_batch_t *instance); 72 69 #endif 73 70 /** -
uspace/drv/ohci/hc.c
r8efafda r7b715892 47 47 static void hc_gain_control(hc_t *instance); 48 48 static void hc_init_hw(hc_t *instance); 49 static int hc_init_transfer_lists(hc_t *instance); 50 static int hc_init_memory(hc_t *instance); 49 51 /*----------------------------------------------------------------------------*/ 50 52 int hc_register_hub(hc_t *instance, ddf_fun_t *hub_fun) … … 59 61 &instance->manager, hub_address, hub_fun->handle); 60 62 63 endpoint_t *ep = malloc(sizeof(endpoint_t)); 64 assert(ep); 65 int ret = endpoint_init(ep, hub_address, 0, USB_DIRECTION_BOTH, 66 USB_TRANSFER_CONTROL, USB_SPEED_FULL, 64); 67 assert(ret == EOK); 68 ret = usb_endpoint_manager_register_ep(&instance->ep_manager, ep, 0); 69 assert(ret == EOK); 70 61 71 char *match_str = NULL; 62 intret = asprintf(&match_str, "usb&class=hub");63 ret = (match_str == NULL) ? ret : EOK;72 ret = asprintf(&match_str, "usb&class=hub"); 73 // ret = (match_str == NULL) ? ret : EOK; 64 74 if (ret < 0) { 65 usb_log_error("Failed to create root hub match-id string.\n"); 75 usb_log_error( 76 "Failed(%d) to create root hub match-id string.\n", ret); 66 77 return ret; 67 78 } … … 107 118 rh_init(&instance->rh, dev, instance->registers); 108 119 120 hc_init_memory(instance); 109 121 hc_init_hw(instance); 110 122 … … 117 129 assert(instance); 118 130 assert(batch); 131 132 /* check for root hub communication */ 119 133 if (batch->target.address == instance->rh.address) { 120 134 return rh_request(&instance->rh, batch); 121 135 } 122 /* TODO: implement */ 123 return ENOTSUP; 136 137 transfer_list_add_batch( 138 instance->transfers[batch->transfer_type], batch); 139 140 switch (batch->transfer_type) { 141 case USB_TRANSFER_CONTROL: 142 instance->registers->command_status |= CS_CLF; 143 break; 144 case USB_TRANSFER_BULK: 145 instance->registers->command_status |= CS_BLF; 146 break; 147 default: 148 break; 149 } 150 return EOK; 124 151 } 125 152 /*----------------------------------------------------------------------------*/ … … 134 161 usb_log_info("OHCI interrupt: %x.\n", status); 135 162 136 /* TODO: Check for further interrupt causes */ 137 /* TODO: implement */ 163 LIST_INITIALIZE(done); 164 transfer_list_remove_finished(&instance->transfers_interrupt, &done); 165 transfer_list_remove_finished(&instance->transfers_isochronous, &done); 166 transfer_list_remove_finished(&instance->transfers_control, &done); 167 transfer_list_remove_finished(&instance->transfers_bulk, &done); 168 169 while (!list_empty(&done)) { 170 link_t *item = done.next; 171 list_remove(item); 172 usb_transfer_batch_t *batch = 173 list_get_instance(item, usb_transfer_batch_t, link); 174 usb_transfer_batch_finish(batch); 175 } 138 176 } 139 177 /*----------------------------------------------------------------------------*/ … … 197 235 assert(instance); 198 236 const uint32_t fm_interval = instance->registers->fm_interval; 237 238 /* reset hc */ 199 239 instance->registers->command_status = CS_HCR; 200 240 async_usleep(10); 241 242 /* restore fm_interval */ 201 243 instance->registers->fm_interval = fm_interval; 202 244 assert((instance->registers->command_status & CS_HCR) == 0); 245 203 246 /* hc is now in suspend state */ 204 /* TODO: init HCCA block */ 205 /* TODO: initqueues */206 /* TODO: enable queues */247 248 /* enable queues */ 249 instance->registers->control |= (C_PLE | C_IE | C_CLE | C_BLE); 207 250 /* TODO: enable interrupts */ 208 /* TODO: set periodic start to 90% */ 251 /* set periodic start to 90% */ 252 instance->registers->periodic_start = (fm_interval / 10) * 9; 209 253 210 254 instance->registers->control &= (C_HCFS_OPERATIONAL << C_HCFS_SHIFT); 211 255 usb_log_info("OHCI HC up and running.\n"); 256 } 257 /*----------------------------------------------------------------------------*/ 258 int hc_init_transfer_lists(hc_t *instance) 259 { 260 assert(instance); 261 262 #define SETUP_TRANSFER_LIST(type, name) \ 263 do { \ 264 int ret = transfer_list_init(&instance->type, name); \ 265 if (ret != EOK) { \ 266 usb_log_error("Failed(%d) to setup %s transfer list.\n", \ 267 ret, name); \ 268 transfer_list_fini(&instance->transfers_isochronous); \ 269 transfer_list_fini(&instance->transfers_interrupt); \ 270 transfer_list_fini(&instance->transfers_control); \ 271 transfer_list_fini(&instance->transfers_bulk); \ 272 } \ 273 } while (0) 274 275 SETUP_TRANSFER_LIST(transfers_isochronous, "ISOCHRONOUS"); 276 SETUP_TRANSFER_LIST(transfers_interrupt, "INTERRUPT"); 277 SETUP_TRANSFER_LIST(transfers_control, "CONTROL"); 278 SETUP_TRANSFER_LIST(transfers_bulk, "BULK"); 279 280 transfer_list_set_next(&instance->transfers_interrupt, 281 &instance->transfers_isochronous); 282 283 /* Assign pointers to be used during scheduling */ 284 instance->transfers[USB_TRANSFER_INTERRUPT] = 285 &instance->transfers_interrupt; 286 instance->transfers[USB_TRANSFER_ISOCHRONOUS] = 287 &instance->transfers_interrupt; 288 instance->transfers[USB_TRANSFER_CONTROL] = 289 &instance->transfers_control; 290 instance->transfers[USB_TRANSFER_BULK] = 291 &instance->transfers_bulk; 292 293 return EOK; 294 #undef CHECK_RET_CLEAR_RETURN 295 } 296 /*----------------------------------------------------------------------------*/ 297 int hc_init_memory(hc_t *instance) 298 { 299 assert(instance); 300 /* init queues */ 301 hc_init_transfer_lists(instance); 302 303 /* init HCCA */ 304 instance->hcca = malloc32(sizeof(hcca_t)); 305 if (instance->hcca == NULL) 306 return ENOMEM; 307 bzero(instance->hcca, sizeof(hcca_t)); 308 instance->registers->hcca = addr_to_phys(instance->hcca); 309 310 /* use queues */ 311 instance->registers->bulk_head = instance->transfers_bulk.list_head_pa; 312 instance->registers->control_head = 313 instance->transfers_control.list_head_pa; 314 315 unsigned i = 0; 316 for (; i < 32; ++i) { 317 instance->hcca->int_ep[i] = 318 instance->transfers_interrupt.list_head_pa; 319 } 320 321 return EOK; 212 322 } 213 323 /** -
uspace/drv/ohci/hc.h
r8efafda r7b715892 48 48 #include "ohci_regs.h" 49 49 #include "root_hub.h" 50 #include "transfer_list.h" 50 51 #include "hw_struct/hcca.h" 51 52 … … 54 55 usb_address_t rh_address; 55 56 rh_t rh; 57 58 hcca_t *hcca; 59 60 transfer_list_t transfers_isochronous; 61 transfer_list_t transfers_interrupt; 62 transfer_list_t transfers_control; 63 transfer_list_t transfers_bulk; 64 65 transfer_list_t *transfers[4]; 66 56 67 ddf_fun_t *ddf_instance; 57 68 usb_device_keeper_t manager; -
uspace/drv/ohci/hw_struct/completion_codes.h
r8efafda r7b715892 35 35 #define DRV_OHCI_HW_STRUCT_COMPLETION_CODES_H 36 36 37 #include <errno.h> 38 37 39 #define CC_NOERROR (0x0) 38 40 #define CC_CRC (0x1) … … 50 52 #define CC_NOACCESS2 (0xf) 51 53 54 inline static int cc_to_rc(int cc) 55 { 56 switch (cc) { 57 case CC_NOERROR: 58 return EOK; 59 60 case CC_CRC: 61 return EBADCHECKSUM; 62 63 case CC_PIDUNEXPECTED: 64 case CC_PIDFAIL: 65 case CC_BITSTUFF: 66 return EIO; 67 68 case CC_TOGGLE: 69 case CC_STALL: 70 return ESTALL; 71 72 case CC_NORESPONSE: 73 return ETIMEOUT; 74 75 case CC_DATAOVERRRUN: 76 case CC_DATAUNDERRRUN: 77 case CC_BUFFEROVERRRUN: 78 case CC_BUFFERUNDERRUN: 79 return EOVERFLOW; 80 81 case CC_NOACCESS1: 82 case CC_NOACCESS2: 83 default: 84 return ENOTSUP; 85 } 86 } 87 52 88 #endif 53 89 /** -
uspace/drv/ohci/hw_struct/endpoint_descriptor.h
r8efafda r7b715892 35 35 #define DRV_OHCI_HW_STRUCT_ENDPOINT_DESCRIPTOR_H 36 36 37 #include <assert.h> 37 38 #include <stdint.h> 39 40 #include <usb/host/endpoint.h> 41 42 #include "utils/malloc32.h" 43 #include "transfer_descriptor.h" 38 44 39 45 #include "completion_codes.h" … … 44 50 #define ED_STATUS_FA_SHIFT (0) 45 51 #define ED_STATUS_EN_MASK (0xf) /* USB endpoint address */ 46 #define ED_STATUS_EN_SHIFT ( 6)52 #define ED_STATUS_EN_SHIFT (7) 47 53 #define ED_STATUS_D_MASK (0x3) /* direction */ 48 #define ED_STATUS_D_SHIFT (1 0)54 #define ED_STATUS_D_SHIFT (11) 49 55 #define ED_STATUS_D_IN (0x1) 50 56 #define ED_STATUS_D_OUT (0x2) 57 #define ED_STATUS_D_TRANSFER (0x3) 51 58 52 #define ED_STATUS_S_FLAG (1 << 13) /* speed flag */59 #define ED_STATUS_S_FLAG (1 << 13) /* speed flag: 1 = low */ 53 60 #define ED_STATUS_K_FLAG (1 << 14) /* skip flag (no not execute this ED) */ 54 61 #define ED_STATUS_F_FLAG (1 << 15) /* format: 1 = isochronous*/ … … 71 78 #define ED_NEXT_PTR_SHIFT (0) 72 79 } __attribute__((packed)) ed_t; 80 81 void ed_init(ed_t *instance, endpoint_t *ep); 82 83 static inline void ed_add_tds(ed_t *instance, td_t *head, td_t *tail) 84 { 85 assert(instance); 86 instance->td_head = addr_to_phys(head) & ED_TDHEAD_PTR_MASK; 87 instance->td_tail = addr_to_phys(tail) & ED_TDTAIL_PTR_MASK; 88 } 89 90 static inline void ed_append_ed(ed_t *instance, ed_t *next) 91 { 92 assert(instance); 93 assert(next); 94 uint32_t pa = addr_to_phys(next); 95 assert((pa & ED_NEXT_PTR_MASK) << ED_NEXT_PTR_SHIFT == pa); 96 instance->next = pa; 97 } 98 73 99 #endif 74 100 /** -
uspace/drv/ohci/hw_struct/transfer_descriptor.h
r8efafda r7b715892 35 35 #define DRV_OHCI_HW_STRUCT_TRANSFER_DESCRIPTOR_H 36 36 37 #include <bool.h> 37 38 #include <stdint.h> 39 #include "utils/malloc32.h" 38 40 39 41 #include "completion_codes.h" 42 43 /* OHCI TDs can handle up to 8KB buffers */ 44 #define OHCI_TD_MAX_TRANSFER (8 * 1024) 40 45 41 46 typedef struct td { … … 52 57 #define TD_STATUS_T_MASK (0x3) /* data toggle 1x = use ED toggle carry */ 53 58 #define TD_STATUS_T_SHIFT (24) 59 #define TD_STATUS_T_0 (0x2) 60 #define TD_STATUS_T_1 (0x3) 54 61 #define TD_STATUS_EC_MASK (0x3) /* error count */ 55 62 #define TD_STATUS_EC_SHIFT (26) … … 64 71 volatile uint32_t be; /* buffer end, address of the last byte */ 65 72 } __attribute__((packed)) td_t; 73 74 void td_init( 75 td_t *instance, usb_direction_t dir, void *buffer, size_t size, int toggle); 76 77 inline static void td_set_next(td_t *instance, td_t *next) 78 { 79 assert(instance); 80 instance->next = addr_to_phys(next) & TD_NEXT_PTR_MASK; 81 } 82 83 inline static bool td_is_finished(td_t *instance) 84 { 85 assert(instance); 86 int cc = (instance->status >> TD_STATUS_CC_SHIFT) & TD_STATUS_CC_MASK; 87 /* something went wrong, error code is set */ 88 if (cc != CC_NOACCESS1 && cc != CC_NOACCESS2 && cc != CC_NOERROR) { 89 return true; 90 } 91 /* everything done */ 92 if (cc == CC_NOERROR && instance->cbp == 0) { 93 return true; 94 } 95 return false; 96 } 97 98 static inline int td_error(td_t *instance) 99 { 100 assert(instance); 101 int cc = (instance->status >> TD_STATUS_CC_SHIFT) & TD_STATUS_CC_MASK; 102 return cc_to_rc(cc); 103 } 66 104 #endif 67 105 /** -
uspace/drv/ohci/iface.c
r8efafda r7b715892 1 1 /* 2 * Copyright (c) 2011 Vojtech Horky 2 * Copyright (c) 2011 Vojtech Horky, Jan Vesely 3 3 * All rights reserved. 4 4 * … … 30 30 */ 31 31 /** @file 32 * USB-HC interface implementation.32 * @brief OHCI driver hc interface implementation 33 33 */ 34 34 #include <ddf/driver.h> … … 36 36 37 37 #include <usb/debug.h> 38 #include <usb/host/endpoint.h> 38 39 39 40 #include "iface.h" 40 41 #include "hc.h" 41 42 42 #define UNSUPPORTED(methodname) \ 43 usb_log_warning("Unsupported interface method `%s()' in %s:%d.\n", \ 44 methodname, __FILE__, __LINE__) 45 46 /** Reserve default address. 47 * 48 * This function may block the caller. 49 * 50 * @param[in] fun Device function the action was invoked on. 51 * @param[in] speed Speed of the device for which the default address is 52 * reserved. 43 static inline int setup_batch( 44 ddf_fun_t *fun, usb_target_t target, usb_direction_t direction, 45 void *data, size_t size, void * setup_data, size_t setup_size, 46 usbhc_iface_transfer_in_callback_t in, 47 usbhc_iface_transfer_out_callback_t out, void *arg, const char* name, 48 hc_t **hc, usb_transfer_batch_t **batch) 49 { 50 assert(hc); 51 assert(batch); 52 assert(fun); 53 *hc = fun_to_hc(fun); 54 assert(*hc); 55 56 size_t res_bw; 57 endpoint_t *ep = usb_endpoint_manager_get_ep(&(*hc)->ep_manager, 58 target.address, target.endpoint, direction, &res_bw); 59 if (ep == NULL) { 60 usb_log_error("Endpoint(%d:%d) not registered for %s.\n", 61 target.address, target.endpoint, name); 62 return ENOENT; 63 } 64 65 const size_t bw = bandwidth_count_usb11( 66 ep->speed, ep->transfer_type, size, ep->max_packet_size); 67 if (res_bw < bw) { 68 usb_log_error("Endpoint(%d:%d) %s needs %zu bw " 69 "but only %zu is reserved.\n", 70 name, target.address, target.endpoint, bw, res_bw); 71 return ENOSPC; 72 } 73 usb_log_debug("%s %d:%d %zu(%zu).\n", 74 name, target.address, target.endpoint, size, ep->max_packet_size); 75 76 assert(ep->speed == 77 usb_device_keeper_get_speed(&(*hc)->manager, target.address)); 78 // assert(ep->max_packet_size == max_packet_size); 79 // assert(ep->transfer_type == USB_TRANSFER_CONTROL); 80 81 *batch = 82 batch_get(fun, ep, data, size, setup_data, setup_size, 83 in, out, arg); 84 if (!batch) 85 return ENOMEM; 86 return EOK; 87 } 88 89 90 /** Reserve default address interface function 91 * 92 * @param[in] fun DDF function that was called. 93 * @param[in] speed Speed to associate with the new default address. 53 94 * @return Error code. 54 95 */ … … 61 102 usb_device_keeper_reserve_default_address(&hc->manager, speed); 62 103 return EOK; 63 } 64 /*----------------------------------------------------------------------------*/ 65 /** Release default address. 66 * 67 * @param[in] fun Device function the action was invoked on. 104 #if 0 105 endpoint_t *ep = malloc(sizeof(endpoint_t)); 106 if (ep == NULL) 107 return ENOMEM; 108 const size_t max_packet_size = speed == USB_SPEED_LOW ? 8 : 64; 109 endpoint_init(ep, USB_TRANSFER_CONTROL, speed, max_packet_size); 110 int ret; 111 try_retgister: 112 ret = usb_endpoint_manager_register_ep(&hc->ep_manager, 113 USB_ADDRESS_DEFAULT, 0, USB_DIRECTION_BOTH, ep, endpoint_destroy, 0); 114 if (ret == EEXISTS) { 115 async_usleep(1000); 116 goto try_retgister; 117 } 118 if (ret != EOK) { 119 endpoint_destroy(ep); 120 } 121 return ret; 122 #endif 123 } 124 /*----------------------------------------------------------------------------*/ 125 /** Release default address interface function 126 * 127 * @param[in] fun DDF function that was called. 68 128 * @return Error code. 69 129 */ … … 74 134 assert(hc); 75 135 usb_log_debug("Default address release.\n"); 136 // return usb_endpoint_manager_unregister_ep(&hc->ep_manager, 137 // USB_ADDRESS_DEFAULT, 0, USB_DIRECTION_BOTH); 76 138 usb_device_keeper_release_default_address(&hc->manager); 77 139 return EOK; 78 140 } 79 141 /*----------------------------------------------------------------------------*/ 80 /** Found free USB address.81 * 82 * @param[in] fun D evice function the action was invoked on.83 * @param[in] speed Speed of the device that will get thisaddress.84 * @param[out] address Non-null pointer where to store the freeaddress.142 /** Request address interface function 143 * 144 * @param[in] fun DDF function that was called. 145 * @param[in] speed Speed to associate with the new default address. 146 * @param[out] address Place to write a new address. 85 147 * @return Error code. 86 148 */ … … 101 163 } 102 164 /*----------------------------------------------------------------------------*/ 103 /** Bind USB address with device devman handle.104 * 105 * @param[in] fun D evice function the action was invoked on.106 * @param[in] address USB address of the device.107 * @param[in] handle Devman handle of the device .165 /** Bind address interface function 166 * 167 * @param[in] fun DDF function that was called. 168 * @param[in] address Address of the device 169 * @param[in] handle Devman handle of the device driver. 108 170 * @return Error code. 109 171 */ 110 172 static int bind_address( 111 173 ddf_fun_t *fun, usb_address_t address, devman_handle_t handle) 112 174 { 113 175 assert(fun); … … 119 181 } 120 182 /*----------------------------------------------------------------------------*/ 121 /** Release previously requested address.122 * 123 * @param[in] fun D evice function the action was invoked on.183 /** Release address interface function 184 * 185 * @param[in] fun DDF function that was called. 124 186 * @param[in] address USB address to be released. 125 187 * @return Error code. … … 135 197 } 136 198 /*----------------------------------------------------------------------------*/ 137 /** Register endpoint for bandwidth reservation.138 *139 * @param[in] fun Device function the action was invoked on.140 * @param[in] address USB address of the device.141 * @param[in] endpoint Endpoint number.142 * @param[in] transfer_type USB transfer type.143 * @param[in] direction Endpoint data direction.144 * @param[in] max_packet_size Max packet size of the endpoint.145 * @param[in] interval Polling interval.146 * @return Error code.147 */148 199 static int register_endpoint( 149 200 ddf_fun_t *fun, usb_address_t address, usb_endpoint_t endpoint, … … 151 202 size_t max_packet_size, unsigned int interval) 152 203 { 153 assert(fun); 154 hc_t *hc = fun_to_hc(fun); 155 assert(hc); 156 if (address == hc->rh.address) 157 return EOK; 204 hc_t *hc = fun_to_hc(fun); 205 assert(hc); 158 206 const usb_speed_t speed = 159 usb_device_keeper_get_speed(&hc->manager, address); 160 const size_t size = max_packet_size; 207 usb_device_keeper_get_speed(&hc->manager, address); 208 const size_t size = 209 (transfer_type == USB_TRANSFER_INTERRUPT 210 || transfer_type == USB_TRANSFER_ISOCHRONOUS) ? 211 max_packet_size : 0; 212 int ret; 213 214 endpoint_t *ep = malloc(sizeof(endpoint_t)); 215 if (ep == NULL) 216 return ENOMEM; 217 ret = endpoint_init(ep, address, endpoint, direction, 218 transfer_type, speed, max_packet_size); 219 if (ret != EOK) { 220 free(ep); 221 return ret; 222 } 223 161 224 usb_log_debug("Register endpoint %d:%d %s %s(%d) %zu(%zu) %u.\n", 162 225 address, endpoint, usb_str_transfer_type(transfer_type), 163 226 usb_str_speed(speed), direction, size, max_packet_size, interval); 164 // TODO use real endpoint here! 165 return usb_endpoint_manager_register_ep(&hc->ep_manager,NULL, 0); 166 } 167 /*----------------------------------------------------------------------------*/ 168 /** Unregister endpoint (free some bandwidth reservation). 169 * 170 * @param[in] fun Device function the action was invoked on. 171 * @param[in] address USB address of the device. 172 * @param[in] endpoint Endpoint number. 173 * @param[in] direction Endpoint data direction. 174 * @return Error code. 175 */ 227 228 ret = usb_endpoint_manager_register_ep(&hc->ep_manager, ep, size); 229 if (ret != EOK) { 230 endpoint_destroy(ep); 231 } else { 232 usb_device_keeper_add_ep(&hc->manager, address, ep); 233 } 234 return ret; 235 } 236 /*----------------------------------------------------------------------------*/ 176 237 static int unregister_endpoint( 177 238 ddf_fun_t *fun, usb_address_t address, 178 239 usb_endpoint_t endpoint, usb_direction_t direction) 179 240 { 180 assert(fun);181 241 hc_t *hc = fun_to_hc(fun); 182 242 assert(hc); … … 187 247 } 188 248 /*----------------------------------------------------------------------------*/ 189 /** Schedule interrupt out transfer. 190 * 191 * The callback is supposed to be called once the transfer (on the wire) is 192 * complete regardless of the outcome. 193 * However, the callback could be called only when this function returns 194 * with success status (i.e. returns EOK). 195 * 196 * @param[in] fun Device function the action was invoked on. 197 * @param[in] target Target pipe (address and endpoint number) specification. 198 * @param[in] max_packet_size Max packet size for the transfer. 199 * @param[in] data Data to be sent (in USB endianess, allocated and deallocated 200 * by the caller). 201 * @param[in] size Size of the @p data buffer in bytes. 202 * @param[in] callback Callback to be issued once the transfer is complete. 203 * @param[in] arg Pass-through argument to the callback. 249 /** Interrupt out transaction interface function 250 * 251 * @param[in] fun DDF function that was called. 252 * @param[in] target USB device to write to. 253 * @param[in] max_packet_size maximum size of data packet the device accepts 254 * @param[in] data Source of data. 255 * @param[in] size Size of data source. 256 * @param[in] callback Function to call on transaction completion 257 * @param[in] arg Additional for callback function. 204 258 * @return Error code. 205 259 */ … … 208 262 size_t size, usbhc_iface_transfer_out_callback_t callback, void *arg) 209 263 { 210 assert(fun); 211 hc_t *hc = fun_to_hc(fun); 212 assert(hc); 213 usb_speed_t speed = 214 usb_device_keeper_get_speed(&hc->manager, target.address); 215 216 usb_log_debug("Interrupt OUT %d:%d %zu(%zu).\n", 217 target.address, target.endpoint, size, max_packet_size); 218 219 usb_transfer_batch_t *batch = 220 batch_get(fun, target, USB_TRANSFER_INTERRUPT, max_packet_size, 221 speed, data, size, NULL, 0, NULL, callback, arg, &hc->manager); 222 if (!batch) 223 return ENOMEM; 264 usb_transfer_batch_t *batch = NULL; 265 hc_t *hc = NULL; 266 int ret = setup_batch(fun, target, USB_DIRECTION_OUT, data, size, 267 NULL, 0, NULL, callback, arg, "Interrupt OUT", &hc, &batch); 268 if (ret != EOK) 269 return ret; 224 270 batch_interrupt_out(batch); 225 const int ret = hc_schedule(hc, batch); 226 if (ret != EOK) { 227 batch_dispose(batch); 228 } 229 return ret; 230 } 231 /*----------------------------------------------------------------------------*/ 232 /** Schedule interrupt in transfer. 233 * 234 * The callback is supposed to be called once the transfer (on the wire) is 235 * complete regardless of the outcome. 236 * However, the callback could be called only when this function returns 237 * with success status (i.e. returns EOK). 238 * 239 * @param[in] fun Device function the action was invoked on. 240 * @param[in] target Target pipe (address and endpoint number) specification. 241 * @param[in] max_packet_size Max packet size for the transfer. 242 * @param[in] data Buffer where to store the data (in USB endianess, 243 * allocated and deallocated by the caller). 244 * @param[in] size Size of the @p data buffer in bytes. 245 * @param[in] callback Callback to be issued once the transfer is complete. 246 * @param[in] arg Pass-through argument to the callback. 271 ret = hc_schedule(hc, batch); 272 if (ret != EOK) { 273 batch_dispose(batch); 274 } 275 return ret; 276 } 277 /*----------------------------------------------------------------------------*/ 278 /** Interrupt in transaction interface function 279 * 280 * @param[in] fun DDF function that was called. 281 * @param[in] target USB device to write to. 282 * @param[in] max_packet_size maximum size of data packet the device accepts 283 * @param[out] data Data destination. 284 * @param[in] size Size of data source. 285 * @param[in] callback Function to call on transaction completion 286 * @param[in] arg Additional for callback function. 247 287 * @return Error code. 248 288 */ … … 251 291 size_t size, usbhc_iface_transfer_in_callback_t callback, void *arg) 252 292 { 253 assert(fun); 254 hc_t *hc = fun_to_hc(fun); 255 assert(hc); 256 usb_speed_t speed = 257 usb_device_keeper_get_speed(&hc->manager, target.address); 258 usb_log_debug("Interrupt IN %d:%d %zu(%zu).\n", 259 target.address, target.endpoint, size, max_packet_size); 260 261 usb_transfer_batch_t *batch = 262 batch_get(fun, target, USB_TRANSFER_INTERRUPT, max_packet_size, 263 speed, data, size, NULL, 0, callback, NULL, arg, &hc->manager); 264 if (!batch) 265 return ENOMEM; 293 usb_transfer_batch_t *batch = NULL; 294 hc_t *hc = NULL; 295 int ret = setup_batch(fun, target, USB_DIRECTION_IN, data, size, 296 NULL, 0, callback, NULL, arg, "Interrupt IN", &hc, &batch); 297 if (ret != EOK) 298 return ret; 266 299 batch_interrupt_in(batch); 267 const int ret = hc_schedule(hc, batch); 268 if (ret != EOK) { 269 batch_dispose(batch); 270 } 271 return ret; 272 } 273 /*----------------------------------------------------------------------------*/ 274 /** Schedule bulk out transfer. 275 * 276 * The callback is supposed to be called once the transfer (on the wire) is 277 * complete regardless of the outcome. 278 * However, the callback could be called only when this function returns 279 * with success status (i.e. returns EOK). 280 * 281 * @param[in] fun Device function the action was invoked on. 282 * @param[in] target Target pipe (address and endpoint number) specification. 283 * @param[in] max_packet_size Max packet size for the transfer. 284 * @param[in] data Data to be sent (in USB endianess, allocated and deallocated 285 * by the caller). 286 * @param[in] size Size of the @p data buffer in bytes. 287 * @param[in] callback Callback to be issued once the transfer is complete. 288 * @param[in] arg Pass-through argument to the callback. 300 ret = hc_schedule(hc, batch); 301 if (ret != EOK) { 302 batch_dispose(batch); 303 } 304 return ret; 305 } 306 /*----------------------------------------------------------------------------*/ 307 /** Bulk out transaction interface function 308 * 309 * @param[in] fun DDF function that was called. 310 * @param[in] target USB device to write to. 311 * @param[in] max_packet_size maximum size of data packet the device accepts 312 * @param[in] data Source of data. 313 * @param[in] size Size of data source. 314 * @param[in] callback Function to call on transaction completion 315 * @param[in] arg Additional for callback function. 289 316 * @return Error code. 290 317 */ … … 293 320 size_t size, usbhc_iface_transfer_out_callback_t callback, void *arg) 294 321 { 295 assert(fun); 296 hc_t *hc = fun_to_hc(fun); 297 assert(hc); 298 usb_speed_t speed = 299 usb_device_keeper_get_speed(&hc->manager, target.address); 300 301 usb_log_debug("Bulk OUT %d:%d %zu(%zu).\n", 302 target.address, target.endpoint, size, max_packet_size); 303 304 usb_transfer_batch_t *batch = 305 batch_get(fun, target, USB_TRANSFER_BULK, max_packet_size, speed, 306 data, size, NULL, 0, NULL, callback, arg, &hc->manager); 307 if (!batch) 308 return ENOMEM; 322 usb_transfer_batch_t *batch = NULL; 323 hc_t *hc = NULL; 324 int ret = setup_batch(fun, target, USB_DIRECTION_OUT, data, size, 325 NULL, 0, NULL, callback, arg, "Bulk OUT", &hc, &batch); 326 if (ret != EOK) 327 return ret; 309 328 batch_bulk_out(batch); 310 const int ret = hc_schedule(hc, batch); 311 if (ret != EOK) { 312 batch_dispose(batch); 313 } 314 return ret; 315 } 316 /*----------------------------------------------------------------------------*/ 317 /** Schedule bulk in transfer. 318 * 319 * The callback is supposed to be called once the transfer (on the wire) is 320 * complete regardless of the outcome. 321 * However, the callback could be called only when this function returns 322 * with success status (i.e. returns EOK). 323 * 324 * @param[in] fun Device function the action was invoked on. 325 * @param[in] target Target pipe (address and endpoint number) specification. 326 * @param[in] max_packet_size Max packet size for the transfer. 327 * @param[in] data Buffer where to store the data (in USB endianess, 328 * allocated and deallocated by the caller). 329 * @param[in] size Size of the @p data buffer in bytes. 330 * @param[in] callback Callback to be issued once the transfer is complete. 331 * @param[in] arg Pass-through argument to the callback. 329 ret = hc_schedule(hc, batch); 330 if (ret != EOK) { 331 batch_dispose(batch); 332 } 333 return ret; 334 } 335 /*----------------------------------------------------------------------------*/ 336 /** Bulk in transaction interface function 337 * 338 * @param[in] fun DDF function that was called. 339 * @param[in] target USB device to write to. 340 * @param[in] max_packet_size maximum size of data packet the device accepts 341 * @param[out] data Data destination. 342 * @param[in] size Size of data source. 343 * @param[in] callback Function to call on transaction completion 344 * @param[in] arg Additional for callback function. 332 345 * @return Error code. 333 346 */ … … 336 349 size_t size, usbhc_iface_transfer_in_callback_t callback, void *arg) 337 350 { 338 assert(fun); 339 hc_t *hc = fun_to_hc(fun); 340 assert(hc); 341 usb_speed_t speed = 342 usb_device_keeper_get_speed(&hc->manager, target.address); 343 usb_log_debug("Bulk IN %d:%d %zu(%zu).\n", 344 target.address, target.endpoint, size, max_packet_size); 345 346 usb_transfer_batch_t *batch = 347 batch_get(fun, target, USB_TRANSFER_BULK, max_packet_size, speed, 348 data, size, NULL, 0, callback, NULL, arg, &hc->manager); 349 if (!batch) 350 return ENOMEM; 351 usb_transfer_batch_t *batch = NULL; 352 hc_t *hc = NULL; 353 int ret = setup_batch(fun, target, USB_DIRECTION_IN, data, size, 354 NULL, 0, callback, NULL, arg, "Bulk IN", &hc, &batch); 355 if (ret != EOK) 356 return ret; 351 357 batch_bulk_in(batch); 352 const int ret = hc_schedule(hc, batch); 353 if (ret != EOK) { 354 batch_dispose(batch); 355 } 356 return ret; 357 } 358 /*----------------------------------------------------------------------------*/ 359 /** Schedule control write transfer. 360 * 361 * The callback is supposed to be called once the transfer (on the wire) is 362 * complete regardless of the outcome. 363 * However, the callback could be called only when this function returns 364 * with success status (i.e. returns EOK). 365 * 366 * @param[in] fun Device function the action was invoked on. 367 * @param[in] target Target pipe (address and endpoint number) specification. 368 * @param[in] max_packet_size Max packet size for the transfer. 369 * @param[in] setup_packet Setup packet buffer (in USB endianess, allocated 370 * and deallocated by the caller). 371 * @param[in] setup_packet_size Size of @p setup_packet buffer in bytes. 372 * @param[in] data_buffer Data buffer (in USB endianess, allocated and 373 * deallocated by the caller). 374 * @param[in] data_buffer_size Size of @p data_buffer buffer in bytes. 375 * @param[in] callback Callback to be issued once the transfer is complete. 376 * @param[in] arg Pass-through argument to the callback. 358 ret = hc_schedule(hc, batch); 359 if (ret != EOK) { 360 batch_dispose(batch); 361 } 362 return ret; 363 } 364 /*----------------------------------------------------------------------------*/ 365 /** Control write transaction interface function 366 * 367 * @param[in] fun DDF function that was called. 368 * @param[in] target USB device to write to. 369 * @param[in] max_packet_size maximum size of data packet the device accepts. 370 * @param[in] setup_data Data to send with SETUP transfer. 371 * @param[in] setup_size Size of data to send with SETUP transfer (always 8B). 372 * @param[in] data Source of data. 373 * @param[in] size Size of data source. 374 * @param[in] callback Function to call on transaction completion. 375 * @param[in] arg Additional for callback function. 377 376 * @return Error code. 378 377 */ … … 382 381 usbhc_iface_transfer_out_callback_t callback, void *arg) 383 382 { 384 assert(fun); 385 hc_t *hc = fun_to_hc(fun); 386 assert(hc); 387 usb_speed_t speed = 388 usb_device_keeper_get_speed(&hc->manager, target.address); 389 usb_log_debug("Control WRITE (%d) %d:%d %zu(%zu).\n", 390 speed, target.address, target.endpoint, size, max_packet_size); 391 392 if (setup_size != 8) 393 return EINVAL; 394 395 usb_transfer_batch_t *batch = 396 batch_get(fun, target, USB_TRANSFER_CONTROL, max_packet_size, 397 speed, data, size, setup_data, setup_size, NULL, callback, arg, 398 &hc->manager); 399 if (!batch) 400 return ENOMEM; 383 usb_transfer_batch_t *batch = NULL; 384 hc_t *hc = NULL; 385 int ret = setup_batch(fun, target, USB_DIRECTION_BOTH, data, size, 386 setup_data, setup_size, NULL, callback, arg, "Control WRITE", 387 &hc, &batch); 388 if (ret != EOK) 389 return ret; 401 390 usb_device_keeper_reset_if_need(&hc->manager, target, setup_data); 402 391 batch_control_write(batch); 403 const int ret = hc_schedule(hc, batch); 404 if (ret != EOK) { 405 batch_dispose(batch); 406 } 407 return ret; 408 } 409 /*----------------------------------------------------------------------------*/ 410 /** Schedule control read transfer. 411 * 412 * The callback is supposed to be called once the transfer (on the wire) is 413 * complete regardless of the outcome. 414 * However, the callback could be called only when this function returns 415 * with success status (i.e. returns EOK). 416 * 417 * @param[in] fun Device function the action was invoked on. 418 * @param[in] target Target pipe (address and endpoint number) specification. 419 * @param[in] max_packet_size Max packet size for the transfer. 420 * @param[in] setup_packet Setup packet buffer (in USB endianess, allocated 421 * and deallocated by the caller). 422 * @param[in] setup_packet_size Size of @p setup_packet buffer in bytes. 423 * @param[in] data_buffer Buffer where to store the data (in USB endianess, 424 * allocated and deallocated by the caller). 425 * @param[in] data_buffer_size Size of @p data_buffer buffer in bytes. 426 * @param[in] callback Callback to be issued once the transfer is complete. 427 * @param[in] arg Pass-through argument to the callback. 392 ret = hc_schedule(hc, batch); 393 if (ret != EOK) { 394 batch_dispose(batch); 395 } 396 return ret; 397 } 398 /*----------------------------------------------------------------------------*/ 399 /** Control read transaction interface function 400 * 401 * @param[in] fun DDF function that was called. 402 * @param[in] target USB device to write to. 403 * @param[in] max_packet_size maximum size of data packet the device accepts. 404 * @param[in] setup_data Data to send with SETUP packet. 405 * @param[in] setup_size Size of data to send with SETUP packet (should be 8B). 406 * @param[out] data Source of data. 407 * @param[in] size Size of data source. 408 * @param[in] callback Function to call on transaction completion. 409 * @param[in] arg Additional for callback function. 428 410 * @return Error code. 429 411 */ … … 433 415 usbhc_iface_transfer_in_callback_t callback, void *arg) 434 416 { 435 assert(fun); 436 hc_t *hc = fun_to_hc(fun); 437 assert(hc); 438 usb_speed_t speed = 439 usb_device_keeper_get_speed(&hc->manager, target.address); 440 441 usb_log_debug("Control READ(%d) %d:%d %zu(%zu).\n", 442 speed, target.address, target.endpoint, size, max_packet_size); 443 usb_transfer_batch_t *batch = 444 batch_get(fun, target, USB_TRANSFER_CONTROL, max_packet_size, 445 speed, data, size, setup_data, setup_size, callback, NULL, arg, 446 &hc->manager); 447 if (!batch) 448 return ENOMEM; 417 usb_transfer_batch_t *batch = NULL; 418 hc_t *hc = NULL; 419 int ret = setup_batch(fun, target, USB_DIRECTION_BOTH, data, size, 420 setup_data, setup_size, callback, NULL, arg, "Control READ", 421 &hc, &batch); 422 if (ret != EOK) 423 return ret; 449 424 batch_control_read(batch); 450 const int ret = hc_schedule(hc, batch); 451 if (ret != EOK) { 452 batch_dispose(batch); 453 } 454 return ret; 455 } 456 /*----------------------------------------------------------------------------*/ 457 /** Host controller interface implementation for OHCI. */ 425 ret = hc_schedule(hc, batch); 426 if (ret != EOK) { 427 batch_dispose(batch); 428 } 429 return ret; 430 } 431 /*----------------------------------------------------------------------------*/ 458 432 usbhc_iface_t hc_iface = { 459 433 .reserve_default_address = reserve_default_address, … … 475 449 .control_read = control_read, 476 450 }; 477 478 451 /** 479 452 * @} -
uspace/drv/ohci/ohci_regs.h
r8efafda r7b715892 41 41 const volatile uint32_t revision; 42 42 volatile uint32_t control; 43 #define C_CSBR_MASK (0x3) 43 #define C_CSBR_MASK (0x3) /* Control-bulk service ratio */ 44 #define C_CSBR_1_1 (0x0) 45 #define C_CSBR_1_2 (0x1) 46 #define C_CSBR_1_3 (0x2) 47 #define C_CSBR_1_4 (0x3) 44 48 #define C_CSBR_SHIFT (0) 45 #define C_PLE (1 << 2) 46 #define C_ IE (1 << 3)47 #define C_ CLE (1 << 4)48 #define C_ BLE (1 << 5)49 50 #define C_HCFS_MASK (0x3) 51 #define C_HCFS_ SHIFT (6)52 #define C_HCFS_RESET (0x0)49 50 #define C_PLE (1 << 2) /* Periodic list enable */ 51 #define C_IE (1 << 3) /* Isochronous enable */ 52 #define C_CLE (1 << 4) /* Control list enable */ 53 #define C_BLE (1 << 5) /* Bulk list enable */ 54 55 #define C_HCFS_MASK (0x3) /* Host controller functional state */ 56 #define C_HCFS_RESET (0x0) 53 57 #define C_HCFS_OPERATIONAL (0x1) 54 #define C_HCFS_RESUME (0x2) 55 #define C_HCFS_SUSPEND (0x3) 56 57 #define C_IR (1 << 8) 58 #define C_RWC (1 << 9) 59 #define C_RWE (1 << 10) 58 #define C_HCFS_RESUME (0x2) 59 #define C_HCFS_SUSPEND (0x3) 60 #define C_HCFS_SHIFT (6) 61 62 #define C_IR (1 << 8) /* Interrupt routing, make sure it's 0 */ 63 #define C_RWC (1 << 9) /* Remote wakeup connected, host specific */ 64 #define C_RWE (1 << 10) /* Remote wakeup enable */ 60 65 61 66 volatile uint32_t command_status; 62 #define CS_HCR (1 << 0) 63 #define CS_CLF (1 << 1) 64 #define CS_BLF (1 << 2) 65 #define CS_OCR (1 << 3) 66 #define CS_SOC_MASK (0x3) 67 #define CS_HCR (1 << 0) /* Host controller reset */ 68 #define CS_CLF (1 << 1) /* Control list filled */ 69 #define CS_BLF (1 << 2) /* Bulk list filled */ 70 #define CS_OCR (1 << 3) /* Ownership change request */ 71 #define CS_SOC_MASK (0x3) /* Scheduling overrun count */ 67 72 #define CS_SOC_SHIFT (16) 68 73 69 74 volatile uint32_t interrupt_status; 70 #define IS_SO (1 << 0) 71 #define IS_WDH (1 << 1) 72 #define IS_SF (1 << 2) 73 #define IS_RD (1 << 3) 74 #define IS_UE (1 << 4) 75 #define IS_FNO (1 << 5) 76 #define IS_RHSC (1 << 6) 77 #define IS_OC (1 << 30) 78 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 causes 85 * enable/disable */ 79 86 volatile uint32_t interupt_enable; 80 #define IE_SO (1 << 0)81 #define IE_WDH (1 << 1)82 #define IE_SF (1 << 2)83 #define IE_RD (1 << 3)84 #define IE_UE (1 << 4)85 #define IE_FNO (1 << 5)86 #define IE_RHSC (1 << 6)87 #define IE_OC (1 << 30)88 #define IE_MIE (1 << 31)89 90 87 volatile uint32_t interrupt_disable; 88 #define I_SO (1 << 0) /* Scheduling overrun */ 89 #define I_WDH (1 << 1) /* Done head write-back */ 90 #define I_SF (1 << 2) /* Start of frame */ 91 #define I_RD (1 << 3) /* Resume detect */ 92 #define I_UE (1 << 4) /* Unrecoverable error */ 93 #define I_FNO (1 << 5) /* Frame number overflow */ 94 #define I_RHSC (1 << 6) /* Root hub status change */ 95 #define I_OC (1 << 30) /* Ownership change */ 96 #define I_MI (1 << 31) /* Master interrupt (all/any interrupts) */ 97 98 /** HCCA pointer (see hw_struct hcca.h) */ 91 99 volatile uint32_t hcca; 92 volatile uint32_t period_corrent; 100 #define HCCA_PTR_MASK 0xffffff00 /* HCCA is 256B aligned */ 101 102 /** Currently executed period endpoint */ 103 const volatile uint32_t period_current; 104 105 /** The first control endpoint */ 93 106 volatile uint32_t control_head; 107 108 /** Currently executed control endpoint */ 94 109 volatile uint32_t control_current; 110 111 /** The first bulk endpoint */ 95 112 volatile uint32_t bulk_head; 113 114 /** Currently executed bulk endpoint */ 96 115 volatile uint32_t bulk_current; 97 volatile uint32_t done_head; 116 117 /** Done TD list, this value is periodically written to HCCA */ 118 const volatile uint32_t done_head; 119 120 /** Frame time and max packet size for all transfers */ 98 121 volatile uint32_t fm_interval; 99 volatile uint32_t fm_remaining; 100 volatile uint32_t fm_number; 122 #define FMI_FI_MASK (0x1fff) /* Frame interval in bit times (should be 11999)*/ 123 #define FMI_FI_SHIFT (0) 124 #define FMI_FSMPS_MASK (0x7fff) /* Full speed max packet size */ 125 #define FMI_FSMPS_SHIFT (16) 126 #define FMI_TOGGLE_FLAG (1 << 31) 127 128 /** Bit times remaining in current frame */ 129 const volatile uint32_t fm_remaining; 130 #define FMR_FR_MASK FMI_FI_MASK 131 #define FMR_FR_SHIFT FMI_FI_SHIFT 132 #define FMR_TOGGLE_FLAG FMI_TOGGLE_FLAG 133 134 /** Frame number */ 135 const volatile uint32_t fm_number; 136 #define FMN_NUMBER_MASK (0xffff) 137 138 /** Remaining bit time in frame to start periodic transfers */ 101 139 volatile uint32_t periodic_start; 140 #define PS_PS_MASK (0x1fff) /* bit time when periodic get priority (0x3e67) */ 141 142 /** Threshold for starting LS transaction */ 102 143 volatile uint32_t ls_threshold; 144 #define LST_LST_MASK (0x7fff) 145 146 /** The first root hub control register */ 103 147 volatile uint32_t rh_desc_a; 148 #define RHDA_NDS_MASK (0xff) /* Number of downstream ports, max 15 */ 149 #define RHDA_NDS_SHIFT (0) 150 #define RHDA_PSM_FLAG (1 << 8) /* Power switching mode: 0-global, 1-per port*/ 151 #define RHDA_NPS_FLAG (1 << 9) /* No power switch: 1-power on, 0-use PSM*/ 152 #define RHDA_DT_FLAG (1 << 10) /* 1-Compound device, must be 0 */ 153 #define RHDA_OCPM_FLAG (1 << 11) /* Over-current mode: 0-global, 1-per port */ 154 #define RHDA_NOCP (1 << 12) /* OC control: 0-use OCPM, 1-OC off */ 155 #define RHDA_POTPGT_MASK (0xff) /* Power on to power good time */ 156 #define RHDA_POTPGT_SHIFT (24) 157 158 /** The other root hub control register */ 104 159 volatile uint32_t rh_desc_b; 160 #define RHDB_DR_MASK (0xffff) /* Device removable mask */ 161 #define RHDB_DR_SHIFT (0) 162 #define RHDB_PCC_MASK (0xffff) /* Power control mask */ 163 #define RHDB_PCC_SHIFT (16) 164 165 /* Port device removable status */ 166 #define RHDB_DR_FLAG(port) (((1 << port) & RHDB_DR_MASK) << RHDB_DR_SHIFT) 167 /* Port power control status: 1-per port power control, 0-global power switch */ 168 #define RHDB_PPC_FLAG(port) (((1 << port) & RHDB_DR_MASK) << RHDB_DR_SHIFT) 169 170 /** Root hub status register */ 105 171 volatile uint32_t rh_status; 172 #define RHS_LPS_FLAG (1 << 0)/* read: 0, 173 * write: 0-no effect, 174 * 1-turn off port power for ports 175 * specified in PPCM(RHDB), or all ports, 176 * if power is set globally */ 177 #define RHS_CLEAR_PORT_POWER RHS_LPS_FLAG /* synonym for the above */ 178 #define RHS_OCI_FLAG (1 << 1)/* Over-current indicator, if per-port: 0 */ 179 #define RHS_DRWE_FLAG (1 << 15)/* read: 0-connect status change does not wake HC 180 * 1-connect status change wakes HC 181 * write: 1-set DRWE, 0-no effect */ 182 #define RHS_SET_DRWE RHS_DRWE_FLAG 183 #define RHS_LPSC_FLAG (1 << 16)/* read: 0, 184 * write: 0-no effect 185 * 1-turn on port power for ports 186 * specified in PPCM(RHDB), or all ports, 187 * if power is set globally */ 188 #define RHS_SET_PORT_POWER RHS_LPSC_FLAG /* synonym for the above */ 189 #define RHS_OCIC_FLAG (1 << 17)/* Over-current indicator change */ 190 #define RHS_CLEAR_DRWE (1 << 31) 191 192 /** Root hub per port status */ 106 193 volatile uint32_t rh_port_status[]; 194 #define RHPS_CCS_FLAG (1 << 0) /* r: current connect status, 195 * w: 1-clear port enable, 0-nothing */ 196 #define RHPS_CLEAR_PORT_ENABLE RHPS_CCS_FLAG 197 #define RHPS_PES_FLAG (1 << 1) /* r: port enable status 198 * w: 1-set port enable, 0-nothing */ 199 #define RHPS_SET_PORT_ENABLE RHPS_PES_FLAG 200 #define RHPS_PSS_FLAG (1 << 2) /* r: port suspend status 201 * w: 1-set port suspend, 0-nothing */ 202 #define RHPS_SET_PORT_SUSPEND RHPS_PSS_FLAG 203 #define RHPS_POCI_FLAG (1 << 3) /* r: port over-current (if reports are per-port 204 * w: 1-clear port suspend (start resume 205 * if suspened) 206 * 0-nothing */ 207 #define RHPS_CLEAR_PORT_SUSPEND RHPS_POCI_FLAG 208 #define RHPS_PRS_FLAG (1 << 4) /* r: port reset status 209 * w: 1-set port reset, 0-nothing */ 210 #define RHPS_SET_PORT_RESET RHPS_PRS_FLAG 211 #define RHPS_PPS_FLAG (1 << 8) /* r: port power status 212 * w: 1-set port power, 0-nothing */ 213 #define RHPS_SET_PORT_POWER RHPS_PPS_FLAG 214 #define RHPS_LSDA_FLAG (1 << 9) /* r: low speed device attached 215 * w: 1-clear port power, 0-nothing */ 216 #define RHPS_CLEAR_PORT_POWER RHPS_LSDA_FLAG 217 #define RHPS_CSC_FLAG (1 << 16) /* connect status change Write-Clean */ 218 #define RHPS_PESC_FLAG (1 << 17) /* port enable status change WC */ 219 #define RHPS_PSSC_FLAG (1 << 18) /* port suspend status change WC */ 220 #define RHPS_OCIC_FLAG (1 << 19) /* port over-current change WC */ 221 #define RHPS_PRSC_FLAG (1 << 20) /* port reset status change WC */ 222 #define RHPS_CHANGE_WC_MASK 0x1f0000 107 223 } __attribute__((packed)) ohci_regs_t; 108 224 #endif -
uspace/drv/ohci/utils/malloc32.h
r8efafda r7b715892 37 37 #include <assert.h> 38 38 #include <malloc.h> 39 #include <errno.h> 39 40 #include <mem.h> 40 41 #include <as.h> -
uspace/drv/uhci-hcd/batch.c
r8efafda r7b715892 103 103 usb_target_t target = 104 104 { .address = ep->address, .endpoint = ep->endpoint }; 105 usb_transfer_batch_init(instance, target, 106 ep->transfer_type, ep->speed, ep->max_packet_size, 107 buffer, NULL, buffer_size, NULL, setup_size, func_in, 108 func_out, arg, fun, ep, NULL); 105 usb_transfer_batch_init(instance, target, ep->transfer_type, ep->speed, 106 ep->max_packet_size, buffer, NULL, buffer_size, NULL, setup_size, 107 func_in, func_out, arg, fun, ep, NULL); 109 108 110 109 111 110 uhci_batch_t *data = malloc(sizeof(uhci_batch_t)); 112 CHECK_NULL_DISPOSE_RETURN(instance, 113 "Failed to allocate batch instance.\n"); 111 CHECK_NULL_DISPOSE_RETURN(data, "Failed to allocate batch data.\n"); 114 112 bzero(data, sizeof(uhci_batch_t)); 115 113 instance->private_data = data; -
uspace/drv/uhci-hcd/hc.c
r8efafda r7b715892 240 240 usb_log_debug("Initialized device manager.\n"); 241 241 242 ret = 243 usb_endpoint_manager_init(&instance->ep_manager, 244 BANDWIDTH_AVAILABLE_USB11); 242 ret = usb_endpoint_manager_init(&instance->ep_manager, 243 BANDWIDTH_AVAILABLE_USB11); 245 244 assert(ret == EOK); 246 245 -
uspace/drv/uhci-hcd/iface.c
r8efafda r7b715892 206 206 const usb_speed_t speed = 207 207 usb_device_keeper_get_speed(&hc->manager, address); 208 const size_t size = 209 (transfer_type == USB_TRANSFER_INTERRUPT 210 || transfer_type == USB_TRANSFER_ISOCHRONOUS) ? 211 max_packet_size : 0; 208 const size_t size = max_packet_size; 212 209 int ret; 213 210 -
uspace/lib/usb/src/host/batch.c
r8efafda r7b715892 63 63 instance->transfer_type = transfer_type; 64 64 instance->speed = speed; 65 instance->direction = USB_DIRECTION_BOTH;65 instance->direction = ep->direction; 66 66 instance->callback_in = func_in; 67 67 instance->callback_out = func_out;
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