| blob | 224a7e97cbeae6b523ed5e5ae61b726cad18e58a |
1 // SPDX-License-Identifier: GPL-2.0-only
2 /*
3 * IBM Accelerator Family 'GenWQE'
4 *
5 * (C) Copyright IBM Corp. 2013
6 *
7 * Author: Frank Haverkamp <haver@linux.vnet.ibm.com>
8 * Author: Joerg-Stephan Vogt <jsvogt@de.ibm.com>
9 * Author: Michael Jung <mijung@gmx.net>
10 * Author: Michael Ruettger <michael@ibmra.de>
11 */
13 /*
14 * Module initialization and PCIe setup. Card health monitoring and
15 * recovery functionality. Character device creation and deletion are
16 * controlled from here.
17 */
19 #include <linux/types.h>
20 #include <linux/pci.h>
21 #include <linux/err.h>
22 #include <linux/string.h>
23 #include <linux/sched.h>
24 #include <linux/wait.h>
25 #include <linux/delay.h>
26 #include <linux/dma-mapping.h>
27 #include <linux/module.h>
28 #include <linux/notifier.h>
29 #include <linux/device.h>
30 #include <linux/log2.h>
49 /* PCI structure for identifying device by PCI vendor and device ID */
59 /* Initial SR-IOV bring-up image */
76 /* Fixed up image */
93 /* Even one more ... */
103 };
107 /**
108 * genwqe_devnode() - Set default access mode for genwqe devices.
109 * @dev: Pointer to device (unused)
110 * @mode: Carrier to pass-back given mode (permissions)
111 *
112 * Default mode should be rw for everybody. Do not change default
113 * device name.
114 */
116 {
120 }
125 };
127 /**
128 * genwqe_dev_alloc() - Create and prepare a new card descriptor
129 *
130 * Return: Pointer to card descriptor, or ERR_PTR(err) on error
131 */
133 {
140 }
152 /*
153 * This comes from kernel config option and can be overritten via
154 * debugfs.
155 */
174 }
177 {
183 }
185 /**
186 * genwqe_bus_reset() - Card recovery
187 * @cd: GenWQE device information
188 *
189 * pci_reset_function() will recover the device and ensure that the
190 * registers are accessible again when it completes with success. If
191 * not, the card will stay dead and registers will be unaccessible
192 * still.
193 */
195 {
209 /*
210 * Firmware/BIOS might change memory mapping during bus reset.
211 * Settings like enable bus-mastering, ... are backuped and
212 * restored by the pci_reset_function().
213 */
220 }
223 /*
224 * Here is the right spot to clear the register read
225 * failure. pci_bus_reset() does this job in real systems.
226 */
228 GENWQE_INJECT_GFIR_FATAL |
229 GENWQE_INJECT_GFIR_INFO);
236 }
243 }
245 }
247 /*
248 * Hardware circumvention section. Certain bitstreams in our test-lab
249 * had different kinds of problems. Here is where we adjust those
250 * bitstreams to function will with this version of our device driver.
251 *
252 * Thise circumventions are applied to the physical function only.
253 * The magical numbers below are identifying development/manufacturing
254 * versions of the bitstream used on the card.
255 *
256 * Turn off error reporting for old/manufacturing images.
257 */
260 {
262 }
265 {
268 /* Mask FIRs for development images */
280 }
281 }
283 /**
284 * genwqe_recovery_on_fatal_gfir_required() - Version depended actions
285 * @cd: GenWQE device information
286 *
287 * Bitstreams older than 2013-02-17 have a bug where fatal GFIRs must
288 * be ignored. This is e.g. true for the bitstream we gave to the card
289 * manufacturer, but also for some old bitstreams we released to our
290 * test-lab.
291 */
293 {
295 }
298 {
300 }
302 /**
303 * genwqe_T_psec() - Calculate PF/VF timeout register content
304 * @cd: GenWQE device information
305 *
306 * Note: From a design perspective it turned out to be a bad idea to
307 * use codes here to specifiy the frequency/speed values. An old
308 * driver cannot understand new codes and is therefore always a
309 * problem. Better is to measure out the value or put the
310 * speed/frequency directly into a register which is always a valid
311 * value for old as well as for new software.
312 */
313 /* T = 1/f */
315 {
324 }
326 /**
327 * genwqe_setup_pf_jtimer() - Setup PF hardware timeouts for DDCB execution
328 * @cd: GenWQE device information
329 *
330 * Do this _after_ card_reset() is called. Otherwise the values will
331 * vanish. The settings need to be done when the queues are inactive.
332 *
333 * The max. timeout value is 2^(10+x) * T (6ns for 166MHz) * 15/16.
334 * The min. timeout value is 2^(10+x) * T (6ns for 166MHz) * 14/16.
335 */
337 {
339 u64 x;
344 /* PF: large value needed, flash update 2sec per block */
351 }
353 /**
354 * genwqe_setup_vf_jtimer() - Setup VF hardware timeouts for DDCB execution
355 * @cd: GenWQE device information
356 */
358 {
362 u64 x;
379 }
381 }
384 {
401 }
403 /* currently support only the debug units mentioned here */
407 GFP_KERNEL);
408 /*
409 * regs == NULL is ok, the using code treats this as no regs,
410 * Printing warning is ok in this case.
411 */
412 }
414 }
417 {
423 }
424 }
427 {
438 }
446 }
454 }
457 /*
458 * Is access to all registers possible? If we are a VF the
459 * answer is obvious. If we run fully virtualized, we need to
460 * check if we can access all registers. If we do not have
461 * full access we will cause an UR and some informational FIRs
462 * in the PF, but that should not harm.
463 */
466 else
470 out_err:
472 }
475 {
484 /* do this after the tweaks. alloc fail is acceptable */
488 /* Collect registers e.g. FIRs, UNITIDs, traces ... */
510 /*
511 * Stealth Mode: Reload chip on either hot
512 * reset or PERST.
513 */
522 __func__);
524 }
526 /*
527 * Re-read the IDs because
528 * it could happen that the bitstream load
529 * failed!
530 */
534 }
535 }
543 }
550 }
557 }
560 out_release_service_layer:
562 out:
566 }
568 /**
569 * genwqe_stop() - Stop card operation
570 * @cd: GenWQE device information
571 *
572 * Recovery notes:
573 * As long as genwqe_thread runs we might access registers during
574 * error data capture. Same is with the genwqe_health_thread.
575 * When genwqe_bus_reset() fails this function might called two times:
576 * first by the genwqe_health_thread() and later by genwqe_remove() to
577 * unbind the device. We must be able to survive that.
578 *
579 * This function must be robust enough to be called twice.
580 */
582 {
590 }
593 }
595 /**
596 * genwqe_recover_card() - Try to recover the card if it is possible
597 * @cd: GenWQE device information
598 * @fatal_err: Indicate whether to attempt soft reset
599 *
600 * If fatal_err is set no register access is possible anymore. It is
601 * likely that genwqe_start fails in that situation. Proper error
602 * handling is required in this case.
603 *
604 * genwqe_bus_reset() will cause the pci code to call genwqe_remove()
605 * and later genwqe_probe() for all virtual functions.
606 */
608 {
614 /*
615 * Make sure chip is not reloaded to maintain FFDC. Write SLU
616 * Reset Register, CPLDReset field to 0.
617 */
621 }
628 }
635 }
637 }
640 {
644 }
646 /**
647 * genwqe_fir_checking() - Check the fault isolation registers of the card
648 * @cd: GenWQE device information
649 *
650 * If this code works ok, can be tried out with help of the genwqe_poke tool:
651 * sudo ./tools/genwqe_poke 0x8 0xfefefefefef
652 *
653 * Now the relevant FIRs/sFIRs should be printed out and the driver should
654 * invoke recovery (devices are removed and readded).
655 */
657 {
663 healthMonitor:
664 iterations++;
667 iterations);
669 }
678 /*
679 * Avoid printing when to GFIR bit is on prevents contignous
680 * printout e.g. for the following bug:
681 * FIR set without a 2ndary FIR/FIR cannot be cleared
682 * Comment out the following if to get the prints:
683 */
691 /* read the primary FIR (pfir) */
701 /* read primary FEC */
711 /* secondary fir empty, skip it */
735 /* gfir turned on during routine! get out and
736 start over. */
740 }
742 /* do not clear if we entered with a fatal gfir */
745 /* NEW clear by mask the logged bits */
753 /*
754 * note, these cannot be error-Firs
755 * since gfir_masked is 0 after sfir
756 * was read. Also, it is safe to do
757 * this write if sfir=0. Still need to
758 * clear the primary. This just means
759 * there is no secondary FIR.
760 */
762 /* clear by mask the logged bit. */
769 }
770 }
771 }
777 /*
778 * Check once more that it didn't go on after all the
779 * FIRS were cleared.
780 */
782 iterations);
784 }
787 fatal_error:
789 }
791 /**
792 * genwqe_pci_fundamental_reset() - trigger a PCIe fundamental reset on the slot
793 * @pci_dev: PCI device information struct
794 *
795 * Note: pci_set_pcie_reset_state() is not implemented on all archs, so this
796 * reset method will not work in all cases.
797 *
798 * Return: 0 on success or error code from pci_set_pcie_reset_state()
799 */
801 {
804 /*
805 * lock pci config space access from userspace,
806 * save state and issue PCIe fundamental reset
807 */
812 /* keep PCIe reset asserted for 250ms */
815 /* Wait for 2s to reload flash and train the link */
817 }
821 }
825 {
832 /* Clear out error injection flags */
834 GENWQE_INJECT_GFIR_FATAL |
835 GENWQE_INJECT_GFIR_INFO);
839 /* Try recoverying the card with fundamental reset */
846 else
853 }
856 }
858 /**
859 * genwqe_reload_bistream() - reload card bitstream
860 * @cd: GenWQE device information
861 *
862 * Set the appropriate register and call fundamental reset to reaload the card
863 * bitstream.
864 *
865 * Return: 0 on success, error code otherwise
866 */
868 {
874 __func__);
878 /*
879 * Cause a CPLD reprogram with the 'next_bitstream'
880 * partition on PCIe hot or fundamental reset
881 */
887 /*
888 * A fundamental reset failure can be caused
889 * by lack of support on the arch, so we just
890 * log the error and try to start the card
891 * again.
892 */
895 __func__);
896 }
904 }
908 }
911 /**
912 * genwqe_health_thread() - Health checking thread
913 * @data: GenWQE device information
914 *
915 * This thread is only started for the PF of the card.
916 *
917 * This thread monitors the health of the card. A critical situation
918 * is when we read registers which contain -1 (IO_ILLEGAL_VALUE). In
919 * this case we need to be recovered from outside. Writing to
920 * registers will very likely not work either.
921 *
922 * This thread must only exit if kthread_should_stop() becomes true.
923 *
924 * Condition for the health-thread to trigger:
925 * a) when a kthread_stop() request comes in or
926 * b) a critical GFIR occured
927 *
928 * Informational GFIRs are checked and potentially printed in
929 * GENWQE_HEALTH_CHECK_INTERVAL seconds.
930 */
932 {
938 health_thread_begin:
952 }
960 }
968 }
975 gfir);
977 }
983 /*
984 * GFIR ErrorTrigger bits set => reset the card!
985 * Never do this for old/manufacturing images!
986 */
994 /* FIXME Card is unusable and needs unbind! */
996 }
997 }
1000 /* Userspace requested card bitstream reload */
1004 }
1008 }
1012 fatal_error:
1014 /*
1015 * Since we use raw accessors, EEH errors won't be detected
1016 * by the platform until we do a non-raw MMIO or config space
1017 * read
1018 */
1021 /* We do nothing if the card is going over PCI recovery */
1025 /*
1026 * If it's supported by the platform, we try a fundamental reset
1027 * to recover from a fatal error. Otherwise, we continue to wait
1028 * for an external recovery procedure to take care of it.
1029 */
1033 }
1038 /* Bring down logical devices to inform user space via udev remove. */
1042 /* genwqe_bus_reset failed(). Now wait for genwqe_remove(). */
1047 }
1050 {
1056 /* moved before request_irq() */
1057 /* init_waitqueue_head(&cd->health_waitq); */
1066 }
1068 }
1071 {
1073 }
1076 {
1083 }
1085 /**
1086 * genwqe_pci_setup() - Allocate PCIe related resources for our card
1087 * @cd: GenWQE device information
1088 */
1090 {
1099 }
1101 /* Reserve PCI I/O and memory resources */
1108 }
1110 /* check for 64-bit DMA address supported (DAC) */
1111 /* check for 32-bit DMA address supported (SAC) */
1118 }
1122 /* EEH recovery requires PCIe fundamental reset */
1125 /* request complete BAR-0 space (length = 0) */
1133 }
1145 out_iounmap:
1147 out_release_resources:
1149 err_disable_device:
1151 err_out:
1153 }
1155 /**
1156 * genwqe_pci_remove() - Free PCIe related resources for our card
1157 * @cd: GenWQE device information
1158 */
1160 {
1168 }
1170 /**
1171 * genwqe_probe() - Device initialization
1172 * @pci_dev: PCI device information struct
1173 * @id: PCI device ID
1174 *
1175 * Callable for multiple cards. This function is called on bind.
1176 *
1177 * Return: 0 if succeeded, < 0 when failed
1178 */
1181 {
1192 }
1202 }
1209 }
1216 err);
1218 }
1219 }
1222 out_stop_services:
1224 out_pci_remove:
1226 out_free_dev:
1229 }
1231 /**
1232 * genwqe_remove() - Called when device is removed (hot-plugable)
1233 * @pci_dev: PCI device information struct
1234 *
1235 * Or when driver is unloaded respecitively when unbind is done.
1236 */
1238 {
1243 /*
1244 * genwqe_stop() must survive if it is called twice
1245 * sequentially. This happens when the health thread calls it
1246 * and fails on genwqe_bus_reset().
1247 */
1251 }
1253 /**
1254 * genwqe_err_error_detected() - Error detection callback
1255 * @pci_dev: PCI device information struct
1256 * @state: PCI channel state
1257 *
1258 * This callback is called by the PCI subsystem whenever a PCI bus
1259 * error is detected.
1260 */
1262 pci_channel_state_t state)
1263 {
1272 /* Stop the card */
1276 /*
1277 * On permanent failure, the PCI code will call device remove
1278 * after the return of this function.
1279 * genwqe_stop() can be called twice.
1280 */
1286 }
1287 }
1290 {
1301 }
1302 }
1305 {
1307 }
1310 {
1320 rc);
1324 }
1325 }
1328 {
1338 }
1342 }
1344 }
1351 };
1360 };
1362 /**
1363 * genwqe_init_module() - Driver registration and initialization
1364 */
1366 {
1373 }
1381 }
1385 err_out0:
1389 }
1391 /**
1392 * genwqe_exit_module() - Driver exit
1393 */
1395 {
1399 }