Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Martin Schwidefsky | 244 | 45.69% | 2 | 10.00% |
Harald Freudenberger | 232 | 43.45% | 13 | 65.00% |
Holger Dengler | 35 | 6.55% | 2 | 10.00% |
Ingo Tuchscherer | 22 | 4.12% | 2 | 10.00% |
Arun Sharma | 1 | 0.19% | 1 | 5.00% |
Total | 534 | 20 |
/* SPDX-License-Identifier: GPL-2.0+ */ /* * Copyright IBM Corp. 2001, 2006 * Author(s): Robert Burroughs * Eric Rossman (edrossma@us.ibm.com) * * Hotplug & misc device support: Jochen Roehrig (roehrig@de.ibm.com) * Major cleanup & driver split: Martin Schwidefsky <schwidefsky@de.ibm.com> */ #ifndef _ZCRYPT_ERROR_H_ #define _ZCRYPT_ERROR_H_ #include <linux/atomic.h> #include "zcrypt_debug.h" #include "zcrypt_api.h" #include "zcrypt_msgtype6.h" /** * Reply Messages * * Error reply messages are of two types: * 82: Error (see below) * 88: Error (see below) * Both type 82 and type 88 have the same structure in the header. * * Request reply messages are of three known types: * 80: Reply from a Type 50 Request (see CEX2A-RELATED STRUCTS) * 84: Reply from a Type 4 Request (see PCICA-RELATED STRUCTS) * 86: Reply from a Type 6 Request (see PCICC/PCIXCC/CEX2C-RELATED STRUCTS) * */ struct error_hdr { unsigned char reserved1; /* 0x00 */ unsigned char type; /* 0x82 or 0x88 */ unsigned char reserved2[2]; /* 0x0000 */ unsigned char reply_code; /* reply code */ unsigned char reserved3[3]; /* 0x000000 */ }; #define TYPE82_RSP_CODE 0x82 #define TYPE88_RSP_CODE 0x88 #define REP82_ERROR_MACHINE_FAILURE 0x10 #define REP82_ERROR_PREEMPT_FAILURE 0x12 #define REP82_ERROR_CHECKPT_FAILURE 0x14 #define REP82_ERROR_MESSAGE_TYPE 0x20 #define REP82_ERROR_INVALID_COMM_CD 0x21 /* Type 84 */ #define REP82_ERROR_INVALID_MSG_LEN 0x23 #define REP82_ERROR_RESERVD_FIELD 0x24 /* was 0x50 */ #define REP82_ERROR_FORMAT_FIELD 0x29 #define REP82_ERROR_INVALID_COMMAND 0x30 #define REP82_ERROR_MALFORMED_MSG 0x40 #define REP82_ERROR_INVALID_SPECIAL_CMD 0x41 #define REP82_ERROR_RESERVED_FIELDO 0x50 /* old value */ #define REP82_ERROR_WORD_ALIGNMENT 0x60 #define REP82_ERROR_MESSAGE_LENGTH 0x80 #define REP82_ERROR_OPERAND_INVALID 0x82 #define REP82_ERROR_OPERAND_SIZE 0x84 #define REP82_ERROR_EVEN_MOD_IN_OPND 0x85 #define REP82_ERROR_RESERVED_FIELD 0x88 #define REP82_ERROR_INVALID_DOMAIN_PENDING 0x8A #define REP82_ERROR_FILTERED_BY_HYPERVISOR 0x8B #define REP82_ERROR_TRANSPORT_FAIL 0x90 #define REP82_ERROR_PACKET_TRUNCATED 0xA0 #define REP82_ERROR_ZERO_BUFFER_LEN 0xB0 #define REP88_ERROR_MODULE_FAILURE 0x10 #define REP88_ERROR_MESSAGE_TYPE 0x20 #define REP88_ERROR_MESSAGE_MALFORMD 0x22 #define REP88_ERROR_MESSAGE_LENGTH 0x23 #define REP88_ERROR_RESERVED_FIELD 0x24 #define REP88_ERROR_KEY_TYPE 0x34 #define REP88_ERROR_INVALID_KEY 0x82 /* CEX2A */ #define REP88_ERROR_OPERAND 0x84 /* CEX2A */ #define REP88_ERROR_OPERAND_EVEN_MOD 0x85 /* CEX2A */ static inline int convert_error(struct zcrypt_queue *zq, struct ap_message *reply) { struct error_hdr *ehdr = reply->msg; int card = AP_QID_CARD(zq->queue->qid); int queue = AP_QID_QUEUE(zq->queue->qid); switch (ehdr->reply_code) { case REP82_ERROR_INVALID_MSG_LEN: /* 0x23 */ case REP82_ERROR_RESERVD_FIELD: /* 0x24 */ case REP82_ERROR_FORMAT_FIELD: /* 0x29 */ case REP82_ERROR_MALFORMED_MSG: /* 0x40 */ case REP82_ERROR_INVALID_SPECIAL_CMD: /* 0x41 */ case REP82_ERROR_MESSAGE_LENGTH: /* 0x80 */ case REP82_ERROR_OPERAND_INVALID: /* 0x82 */ case REP82_ERROR_OPERAND_SIZE: /* 0x84 */ case REP82_ERROR_EVEN_MOD_IN_OPND: /* 0x85 */ case REP82_ERROR_INVALID_DOMAIN_PENDING: /* 0x8A */ case REP82_ERROR_FILTERED_BY_HYPERVISOR: /* 0x8B */ case REP82_ERROR_PACKET_TRUNCATED: /* 0xA0 */ case REP88_ERROR_MESSAGE_MALFORMD: /* 0x22 */ case REP88_ERROR_KEY_TYPE: /* 0x34 */ /* RY indicates malformed request */ if (ehdr->reply_code == REP82_ERROR_FILTERED_BY_HYPERVISOR && ehdr->type == TYPE86_RSP_CODE) { struct { struct type86_hdr hdr; struct type86_fmt2_ext fmt2; } __packed * head = reply->msg; unsigned int apfs = *((u32 *)head->fmt2.apfs); ZCRYPT_DBF_WARN("%s dev=%02x.%04x RY=0x%02x apfs=0x%x => rc=EINVAL\n", __func__, card, queue, ehdr->reply_code, apfs); } else { ZCRYPT_DBF_WARN("%s dev=%02x.%04x RY=0x%02x => rc=EINVAL\n", __func__, card, queue, ehdr->reply_code); } return -EINVAL; case REP82_ERROR_MACHINE_FAILURE: /* 0x10 */ case REP82_ERROR_MESSAGE_TYPE: /* 0x20 */ case REP82_ERROR_TRANSPORT_FAIL: /* 0x90 */ /* * Msg to wrong type or card/infrastructure failure. Return * EAGAIN, the upper layer may do a retry on the request. */ /* For type 86 response show the apfs value (failure reason) */ if (ehdr->reply_code == REP82_ERROR_TRANSPORT_FAIL && ehdr->type == TYPE86_RSP_CODE) { struct { struct type86_hdr hdr; struct type86_fmt2_ext fmt2; } __packed * head = reply->msg; unsigned int apfs = *((u32 *)head->fmt2.apfs); ZCRYPT_DBF_WARN( "%s dev=%02x.%04x RY=0x%02x apfs=0x%x => bus rescan, rc=EAGAIN\n", __func__, card, queue, ehdr->reply_code, apfs); } else { ZCRYPT_DBF_WARN("%s dev=%02x.%04x RY=0x%02x => bus rescan, rc=EAGAIN\n", __func__, card, queue, ehdr->reply_code); } return -EAGAIN; default: /* Assume request is valid and a retry will be worth it */ ZCRYPT_DBF_WARN("%s dev=%02x.%04x RY=0x%02x => rc=EAGAIN\n", __func__, card, queue, ehdr->reply_code); return -EAGAIN; } } #endif /* _ZCRYPT_ERROR_H_ */
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