Changes in uspace/drv/ohci/batch.c [d6522dd:8790650] in mainline
- File:
-
- 1 edited
-
uspace/drv/ohci/batch.c (modified) (13 diffs)
Legend:
- Unmodified
- Added
- Removed
-
uspace/drv/ohci/batch.c
rd6522dd r8790650 39 39 40 40 #include "batch.h" 41 #include "hcd_endpoint.h"42 41 #include "utils/malloc32.h" 43 42 #include "hw_struct/endpoint_descriptor.h" 44 43 #include "hw_struct/transfer_descriptor.h" 45 44 46 typedef struct ohci_ transfer_batch {45 typedef struct ohci_batch { 47 46 ed_t *ed; 48 td_t * *tds;47 td_t *tds; 49 48 size_t td_count; 50 size_t leave_td; 51 char *device_buffer; 52 } ohci_transfer_batch_t; 53 54 static void ohci_transfer_batch_dispose(void *ohci_batch) 55 { 56 ohci_transfer_batch_t *instance = ohci_batch; 57 if (!instance) 58 return; 59 free32(instance->device_buffer); 60 unsigned i = 0; 61 if (instance->tds) { 62 for (; i< instance->td_count; ++i) { 63 if (i != instance->leave_td) 64 free32(instance->tds[i]); 65 } 66 free(instance->tds); 67 } 68 free(instance); 69 } 70 /*----------------------------------------------------------------------------*/ 49 } ohci_batch_t; 50 71 51 static void batch_control(usb_transfer_batch_t *instance, 72 52 usb_direction_t data_dir, usb_direction_t status_dir); 73 static void batch_data(usb_transfer_batch_t *instance); 74 /*----------------------------------------------------------------------------*/ 53 static void batch_call_in_and_dispose(usb_transfer_batch_t *instance); 54 static void batch_call_out_and_dispose(usb_transfer_batch_t *instance); 55 56 #define DEFAULT_ERROR_COUNT 3 75 57 usb_transfer_batch_t * batch_get(ddf_fun_t *fun, endpoint_t *ep, 76 58 char *buffer, size_t buffer_size, char* setup_buffer, size_t setup_size, … … 82 64 usb_log_error(message); \ 83 65 if (instance) { \ 84 usb_transfer_batch_dispose(instance); \66 batch_dispose(instance); \ 85 67 } \ 86 68 return NULL; \ … … 90 72 CHECK_NULL_DISPOSE_RETURN(instance, 91 73 "Failed to allocate batch instance.\n"); 92 usb_transfer_batch_init(instance, ep, buffer, NULL, buffer_size, 93 NULL, setup_size, func_in, func_out, arg, fun, NULL, 94 ohci_transfer_batch_dispose); 95 96 hcd_endpoint_t *hcd_ep = hcd_endpoint_get(ep); 97 assert(hcd_ep); 98 99 ohci_transfer_batch_t *data = calloc(sizeof(ohci_transfer_batch_t), 1); 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)); 100 81 CHECK_NULL_DISPOSE_RETURN(data, "Failed to allocate batch data.\n"); 82 bzero(data, sizeof(ohci_batch_t)); 101 83 instance->private_data = data; 102 84 103 data->td_count = 85 /* we needs + 1 transfer descriptor as the last one won't be executed */ 86 data->td_count = 1 + 104 87 ((buffer_size + OHCI_TD_MAX_TRANSFER - 1) / OHCI_TD_MAX_TRANSFER); 105 88 if (ep->transfer_type == USB_TRANSFER_CONTROL) { … … 107 90 } 108 91 109 /* we need one extra place for td that is currently assigned to hcd_ep*/ 110 data->tds = calloc(sizeof(td_t*), data->td_count + 1); 92 data->tds = malloc32(sizeof(td_t) * data->td_count); 111 93 CHECK_NULL_DISPOSE_RETURN(data->tds, 112 94 "Failed to allocate transfer descriptors.\n"); 113 114 data->tds[0] = hcd_ep->td; 115 data->leave_td = 0; 116 unsigned i = 1; 117 for (; i <= data->td_count; ++i) { 118 data->tds[i] = malloc32(sizeof(td_t)); 119 CHECK_NULL_DISPOSE_RETURN(data->tds[i], 120 "Failed to allocate TD %d.\n", i ); 121 } 122 123 data->ed = hcd_ep->ed; 124 125 if (setup_size + buffer_size > 0) { 126 data->device_buffer = malloc32(setup_size + buffer_size); 127 CHECK_NULL_DISPOSE_RETURN(data->device_buffer, 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"); 100 101 if (buffer_size > 0) { 102 instance->transport_buffer = malloc32(buffer_size); 103 CHECK_NULL_DISPOSE_RETURN(instance->transport_buffer, 128 104 "Failed to allocate device accessible buffer.\n"); 129 instance->setup_buffer = data->device_buffer; 130 instance->data_buffer = data->device_buffer + setup_size; 105 } 106 107 if (setup_size > 0) { 108 instance->setup_buffer = malloc32(setup_size); 109 CHECK_NULL_DISPOSE_RETURN(instance->setup_buffer, 110 "Failed to allocate device accessible setup buffer.\n"); 131 111 memcpy(instance->setup_buffer, setup_buffer, setup_size); 132 112 } … … 135 115 } 136 116 /*----------------------------------------------------------------------------*/ 117 void batch_dispose(usb_transfer_batch_t *instance) 118 { 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); 125 free32(instance->transport_buffer); 126 free(data); 127 free(instance); 128 } 129 /*----------------------------------------------------------------------------*/ 137 130 bool batch_is_complete(usb_transfer_batch_t *instance) 138 131 { 139 132 assert(instance); 140 ohci_ transfer_batch_t *data = instance->private_data;141 assert(data); 142 size_t tds = data->td_count ;143 usb_log_debug ("Batch(%p) checking %d td(s) for completion.\n",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", 144 137 instance, tds); 145 usb_log_debug("ED: %x:%x:%x:%x.\n",146 data->ed->status, data->ed->td_head, data->ed->td_tail,147 data->ed->next);148 138 size_t i = 0; 149 139 for (; i < tds; ++i) { 150 assert(data->tds[i] != NULL); 151 usb_log_debug("TD %d: %x:%x:%x:%x.\n", i, 152 data->tds[i]->status, data->tds[i]->cbp, data->tds[i]->next, 153 data->tds[i]->be); 154 if (!td_is_finished(data->tds[i])) { 140 if (!td_is_finished(&data->tds[i])) 155 141 return false; 156 } 157 instance->error = td_error(data->tds[i]); 142 instance->error = td_error(&data->tds[i]); 158 143 /* FIXME: calculate real transfered size */ 159 144 instance->transfered_size = instance->buffer_size; 160 145 if (instance->error != EOK) { 161 146 usb_log_debug("Batch(%p) found error TD(%d):%x.\n", 162 instance, i, data->tds[i]->status); 163 break; 147 instance, i, data->tds[i].status); 148 return true; 149 // endpoint_toggle_set(instance->ep, 164 150 } 165 151 } 166 data->leave_td = i;167 assert(data->leave_td <= data->td_count);168 hcd_endpoint_t *hcd_ep = hcd_endpoint_get(instance->ep);169 assert(hcd_ep);170 hcd_ep->td = data->tds[i];171 172 152 return true; 173 153 } 174 154 /*----------------------------------------------------------------------------*/ 175 void batch_commit(usb_transfer_batch_t *instance)176 {177 assert(instance);178 ohci_transfer_batch_t *data = instance->private_data;179 assert(data);180 ed_set_end_td(data->ed, data->tds[data->td_count]);181 }182 /*----------------------------------------------------------------------------*/183 155 void batch_control_write(usb_transfer_batch_t *instance) 184 156 { 185 157 assert(instance); 186 158 /* We are data out, we are supposed to provide data */ 187 memcpy(instance->data_buffer, instance->buffer, instance->buffer_size); 188 instance->next_step = usb_transfer_batch_call_out_and_dispose; 159 memcpy(instance->transport_buffer, instance->buffer, 160 instance->buffer_size); 161 instance->next_step = batch_call_out_and_dispose; 189 162 batch_control(instance, USB_DIRECTION_OUT, USB_DIRECTION_IN); 190 163 usb_log_debug("Batch(%p) CONTROL WRITE initialized.\n", instance); … … 194 167 { 195 168 assert(instance); 196 instance->next_step = usb_transfer_batch_call_in_and_dispose;169 instance->next_step = batch_call_in_and_dispose; 197 170 batch_control(instance, USB_DIRECTION_IN, USB_DIRECTION_OUT); 198 171 usb_log_debug("Batch(%p) CONTROL READ initialized.\n", instance); … … 202 175 { 203 176 assert(instance); 204 instance->next_step = usb_transfer_batch_call_in_and_dispose; 205 batch_data(instance); 177 assert(instance->direction == USB_DIRECTION_IN); 178 instance->next_step = batch_call_in_and_dispose; 179 /* TODO: implement */ 206 180 usb_log_debug("Batch(%p) INTERRUPT IN initialized.\n", instance); 207 181 } … … 210 184 { 211 185 assert(instance); 186 assert(instance->direction == USB_DIRECTION_OUT); 212 187 /* We are data out, we are supposed to provide data */ 213 memcpy(instance->data_buffer, instance->buffer, instance->buffer_size); 214 instance->next_step = usb_transfer_batch_call_out_and_dispose; 215 batch_data(instance); 188 memcpy(instance->transport_buffer, instance->buffer, 189 instance->buffer_size); 190 instance->next_step = batch_call_out_and_dispose; 191 /* TODO: implement */ 216 192 usb_log_debug("Batch(%p) INTERRUPT OUT initialized.\n", instance); 217 193 } … … 220 196 { 221 197 assert(instance); 222 instance->next_step = usb_transfer_batch_call_in_and_dispose; 223 batch_data(instance); 198 instance->direction = USB_DIRECTION_IN; 199 instance->next_step = batch_call_in_and_dispose; 200 /* TODO: implement */ 224 201 usb_log_debug("Batch(%p) BULK IN initialized.\n", instance); 225 202 } … … 228 205 { 229 206 assert(instance); 230 instance->next_step = usb_transfer_batch_call_in_and_dispose; 231 batch_data(instance); 207 instance->direction = USB_DIRECTION_IN; 208 instance->next_step = batch_call_in_and_dispose; 209 /* TODO: implement */ 232 210 usb_log_debug("Batch(%p) BULK IN initialized.\n", instance); 233 211 } … … 236 214 { 237 215 assert(instance); 238 ohci_ transfer_batch_t *data = instance->private_data;216 ohci_batch_t *data = instance->private_data; 239 217 assert(data); 240 218 return data->ed; … … 245 223 { 246 224 assert(instance); 247 ohci_transfer_batch_t *data = instance->private_data; 248 assert(data); 249 usb_log_debug("Using ED(%p): %x:%x:%x:%x.\n", data->ed, 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(%p): %x:%x:%x:%x.\n", data->ed, 250 230 data->ed->status, data->ed->td_tail, data->ed->td_head, 251 231 data->ed->next); 252 232 int toggle = 0; 253 233 /* setup stage */ 254 td_init( data->tds[0], USB_DIRECTION_BOTH, instance->setup_buffer,234 td_init(&data->tds[0], USB_DIRECTION_BOTH, instance->setup_buffer, 255 235 instance->setup_size, toggle); 256 td_set_next( data->tds[0],data->tds[1]);257 usb_log_debug("Created SETUP TD: %x:%x:%x:%x.\n", data->tds[0] ->status,258 data->tds[0] ->cbp, data->tds[0]->next, data->tds[0]->be);236 td_set_next(&data->tds[0], &data->tds[1]); 237 usb_log_debug("Created SETUP TD: %x:%x:%x:%x.\n", data->tds[0].status, 238 data->tds[0].cbp, data->tds[0].next, data->tds[0].be); 259 239 260 240 /* data stage */ 261 241 size_t td_current = 1; 262 242 size_t remain_size = instance->buffer_size; 263 char * buffer = instance->data_buffer;243 char *transfer_buffer = instance->transport_buffer; 264 244 while (remain_size > 0) { 265 245 size_t transfer_size = remain_size > OHCI_TD_MAX_TRANSFER ? … … 267 247 toggle = 1 - toggle; 268 248 269 td_init( data->tds[td_current], data_dir,buffer,249 td_init(&data->tds[td_current], data_dir, transfer_buffer, 270 250 transfer_size, toggle); 271 td_set_next( data->tds[td_current],data->tds[td_current + 1]);251 td_set_next(&data->tds[td_current], &data->tds[td_current + 1]); 272 252 usb_log_debug("Created DATA TD: %x:%x:%x:%x.\n", 273 data->tds[td_current] ->status, data->tds[td_current]->cbp,274 data->tds[td_current] ->next, data->tds[td_current]->be);275 276 buffer += transfer_size;253 data->tds[td_current].status, data->tds[td_current].cbp, 254 data->tds[td_current].next, data->tds[td_current].be); 255 256 transfer_buffer += transfer_size; 277 257 remain_size -= transfer_size; 278 assert(td_current < data->td_count - 1);258 assert(td_current < data->td_count - 2); 279 259 ++td_current; 280 260 } 281 261 282 262 /* status stage */ 283 assert(td_current == data->td_count - 1); 284 td_init(data->tds[td_current], status_dir, NULL, 0, 1); 285 td_set_next(data->tds[td_current], data->tds[td_current + 1]); 263 assert(td_current == data->td_count - 2); 264 td_init(&data->tds[td_current], status_dir, NULL, 0, 1); 286 265 usb_log_debug("Created STATUS TD: %x:%x:%x:%x.\n", 287 data->tds[td_current]->status, data->tds[td_current]->cbp, 288 data->tds[td_current]->next, data->tds[td_current]->be); 289 } 290 /*----------------------------------------------------------------------------*/ 291 void batch_data(usb_transfer_batch_t *instance) 292 { 293 assert(instance); 294 ohci_transfer_batch_t *data = instance->private_data; 295 assert(data); 296 usb_log_debug("Using ED(%p): %x:%x:%x:%x.\n", data->ed, 297 data->ed->status, data->ed->td_tail, data->ed->td_head, 298 data->ed->next); 299 300 size_t td_current = 0; 301 size_t remain_size = instance->buffer_size; 302 char *buffer = instance->data_buffer; 303 while (remain_size > 0) { 304 size_t transfer_size = remain_size > OHCI_TD_MAX_TRANSFER ? 305 OHCI_TD_MAX_TRANSFER : remain_size; 306 307 td_init(data->tds[td_current], instance->ep->direction, 308 buffer, transfer_size, -1); 309 td_set_next(data->tds[td_current], data->tds[td_current + 1]); 310 usb_log_debug("Created DATA TD: %x:%x:%x:%x.\n", 311 data->tds[td_current]->status, data->tds[td_current]->cbp, 312 data->tds[td_current]->next, data->tds[td_current]->be); 313 314 buffer += transfer_size; 315 remain_size -= transfer_size; 316 assert(td_current < data->td_count); 317 ++td_current; 318 } 266 data->tds[td_current].status, data->tds[td_current].cbp, 267 data->tds[td_current].next, data->tds[td_current].be); 268 } 269 /*----------------------------------------------------------------------------*/ 270 /** Helper function calls callback and correctly disposes of batch structure. 271 * 272 * @param[in] instance Batch structure to use. 273 */ 274 void batch_call_in_and_dispose(usb_transfer_batch_t *instance) 275 { 276 assert(instance); 277 usb_transfer_batch_call_in(instance); 278 batch_dispose(instance); 279 } 280 /*----------------------------------------------------------------------------*/ 281 /** Helper function calls callback and correctly disposes of batch structure. 282 * 283 * @param[in] instance Batch structure to use. 284 */ 285 void batch_call_out_and_dispose(usb_transfer_batch_t *instance) 286 { 287 assert(instance); 288 usb_transfer_batch_call_out(instance); 289 batch_dispose(instance); 319 290 } 320 291 /**
Note:
See TracChangeset
for help on using the changeset viewer.
