blob: b93e61dc2d8891c847de5ff1a74fd2d1c91f20dc [file] [log] [blame]
/*
* This header file defines the types and structures that were defined in
* ipa. It contains the constant values defined, enums, structures,
* messages, and service message IDs (in that order) Structures that were
* defined in the IDL as messages contain mandatory elements, optional
* elements, a combination of mandatory and optional elements (mandatory
* always come before optionals in the structure), or nothing (null message)
* An optional element in a message is preceded by a uint8_t value that must be
* set to true if the element is going to be included. When decoding a received
* message, the uint8_t values will be set to true or false by the decode
* routine, and should be checked before accessing the values that they
* correspond to.
* Variable sized arrays are defined as static sized arrays with an unsigned
* integer (32 bit) preceding it that must be set to the number of elements
* in the array that are valid. For Example:
* uint32_t test_opaque_len;
* uint8_t test_opaque[16];
* If only 4 elements are added to test_opaque[] then test_opaque_len must be
* set to 4 before sending the message. When decoding, the _len value is set
* by the decode routine and should be checked so that the correct number of
* elements in the array will be accessed.
*/
#ifndef IPA_QMI_SERVICE_V01_H
#define IPA_QMI_SERVICE_V01_H
#define QMI_IPA_IPFLTR_NUM_IHL_RANGE_16_EQNS_V01 2
#define QMI_IPA_IPFLTR_NUM_MEQ_32_EQNS_V01 2
#define QMI_IPA_IPFLTR_NUM_IHL_MEQ_32_EQNS_V01 2
#define QMI_IPA_IPFLTR_NUM_MEQ_128_EQNS_V01 2
#define QMI_IPA_MAX_FILTERS_V01 64
#define QMI_IPA_MAX_PIPES_V01 20
#define QMI_IPA_MAX_APN_V01 8
#define IPA_INT_MAX ((int)(~0U>>1))
#define IPA_INT_MIN (-IPA_INT_MAX - 1)
/* IPA definition as msm_qmi_interface.h */
enum ipa_qmi_result_type_v01 {
/* To force a 32 bit signed enum. Do not change or use*/
IPA_QMI_RESULT_TYPE_MIN_ENUM_VAL_V01 = IPA_INT_MIN,
IPA_QMI_RESULT_SUCCESS_V01 = 0,
IPA_QMI_RESULT_FAILURE_V01 = 1,
IPA_QMI_RESULT_TYPE_MAX_ENUM_VAL_V01 = IPA_INT_MAX,
};
enum ipa_qmi_error_type_v01 {
/* To force a 32 bit signed enum. Do not change or use*/
IPA_QMI_ERROR_TYPE_MIN_ENUM_VAL_V01 = IPA_INT_MIN,
IPA_QMI_ERR_NONE_V01 = 0x0000,
IPA_QMI_ERR_MALFORMED_MSG_V01 = 0x0001,
IPA_QMI_ERR_NO_MEMORY_V01 = 0x0002,
IPA_QMI_ERR_INTERNAL_V01 = 0x0003,
IPA_QMI_ERR_CLIENT_IDS_EXHAUSTED_V01 = 0x0005,
IPA_QMI_ERR_INVALID_ID_V01 = 0x0029,
IPA_QMI_ERR_ENCODING_V01 = 0x003A,
IPA_QMI_ERR_INCOMPATIBLE_STATE_V01 = 0x005A,
IPA_QMI_ERR_NOT_SUPPORTED_V01 = 0x005E,
IPA_QMI_ERROR_TYPE_MAX_ENUM_VAL_V01 = IPA_INT_MAX,
};
struct ipa_qmi_response_type_v01 {
enum ipa_qmi_result_type_v01 result;
enum ipa_qmi_error_type_v01 error;
};
enum ipa_platform_type_enum_v01 {
IPA_PLATFORM_TYPE_ENUM_MIN_ENUM_VAL_V01 =
-2147483647, /* To force a 32 bit signed enum. Do not change or use */
QMI_IPA_PLATFORM_TYPE_INVALID_V01 = 0,
/* Invalid platform identifier */
QMI_IPA_PLATFORM_TYPE_TN_V01 = 1,
/* Platform identifier - Data card device */
QMI_IPA_PLATFORM_TYPE_LE_V01 = 2,
/* Platform identifier - Data router device */
QMI_IPA_PLATFORM_TYPE_MSM_ANDROID_V01 = 3,
/* Platform identifier - MSM device with Android HLOS */
QMI_IPA_PLATFORM_TYPE_MSM_WINDOWS_V01 = 4,
/* Platform identifier - MSM device with Windows HLOS */
QMI_IPA_PLATFORM_TYPE_MSM_QNX_V01 = 5,
/* Platform identifier - MSM device with QNX HLOS */
IPA_PLATFORM_TYPE_ENUM_MAX_ENUM_VAL_V01 = 2147483647
/* To force a 32 bit signed enum. Do not change or use */
};
struct ipa_hdr_tbl_info_type_v01 {
uint32_t modem_offset_start;
/* Offset from the start of IPA Shared memory from which
* modem driver may insert header table entries.
*/
uint32_t modem_offset_end;
/* Offset from the start of IPA shared mem beyond which modem
* driver shall not insert header table entries. The space
* available for the modem driver shall include the
* modem_offset_start and modem_offset_end.
*/
}; /* Type */
struct ipa_route_tbl_info_type_v01 {
uint32_t route_tbl_start_addr;
/* Identifies the start of the routing table. Denotes the offset
* from the start of the IPA Shared Mem
*/
uint32_t num_indices;
/* Number of indices (starting from 0) that is being allocated to
* the modem. The number indicated here is also included in the
* allocation. The value of num_indices shall not exceed 31
* (5 bits used to specify the routing table index), unless there
* is a change in the hardware.
*/
}; /* Type */
struct ipa_modem_mem_info_type_v01 {
uint32_t block_start_addr;
/* Identifies the start of the memory block allocated for the
* modem. Denotes the offset from the start of the IPA Shared Mem
*/
uint32_t size;
/* Size of the block allocated for the modem driver */
}; /* Type */
struct ipa_hdr_proc_ctx_tbl_info_type_v01 {
uint32_t modem_offset_start;
/* Offset from the start of IPA shared memory from which the modem
* driver may insert header processing context table entries.
*/
uint32_t modem_offset_end;
/* Offset from the start of IPA shared memory beyond which the modem
* driver may not insert header proc table entries. The space
* available for the modem driver includes modem_offset_start and
* modem_offset_end.
*/
}; /* Type */
struct ipa_zip_tbl_info_type_v01 {
uint32_t modem_offset_start;
/* Offset from the start of IPA shared memory from which the modem
* driver may insert compression/decompression command entries.
*/
uint32_t modem_offset_end;
/* Offset from the start of IPA shared memory beyond which the modem
* driver may not insert compression/decompression command entries.
* The space available for the modem driver includes
* modem_offset_start and modem_offset_end.
*/
}; /* Type */
/** Request Message; Requests the modem IPA driver to perform initializtion */
struct ipa_init_modem_driver_req_msg_v01 {
/* Optional */
/* Platform info */
uint8_t platform_type_valid; /**< Must be set to true if platform_type
is being passed */
enum ipa_platform_type_enum_v01 platform_type;
/* Provides information about the platform (ex. TN/MN/LE/MSM,etc) */
/* Optional */
/* Header table info */
uint8_t hdr_tbl_info_valid;
/* Must be set to true if hdr_tbl_info is being passed */
struct ipa_hdr_tbl_info_type_v01 hdr_tbl_info;
/* Provides information about the header table */
/* Optional */
/* IPV4 Routing table info */
uint8_t v4_route_tbl_info_valid;
/* Must be set to true if v4_route_tbl_info is being passed */
struct ipa_route_tbl_info_type_v01 v4_route_tbl_info;
/* Provides information about the IPV4 routing table */
/* Optional */
/* IPV6 Routing table info */
uint8_t v6_route_tbl_info_valid; /**< Must be set to true if
v6_route_tbl_info is being passed */
struct ipa_route_tbl_info_type_v01 v6_route_tbl_info;
/* Provides information about the IPV6 routing table */
/* Optional */
/* IPV4 Filter table start address */
uint8_t v4_filter_tbl_start_addr_valid; /**< Must be set to true
if v4_filter_tbl_start_addr is being passed */
uint32_t v4_filter_tbl_start_addr;
/* Provides information about the starting address of IPV4 filter
* tableDenotes the offset from the start of the IPA Shared Mem
*/
/* Optional */
/* IPV6 Filter table start address */
uint8_t v6_filter_tbl_start_addr_valid;
/* Must be set to true if v6_filter_tbl_start_addr is being passed */
uint32_t v6_filter_tbl_start_addr;
/* Provides information about the starting address of IPV6 filter
* table Denotes the offset from the start of the IPA Shared Mem
*/
/* Optional */
/* Modem memory block */
uint8_t modem_mem_info_valid;
/* Must be set to true if modem_mem_info is being passed */
struct ipa_modem_mem_info_type_v01 modem_mem_info;
/* Provides information about the start address and the size of
* the memory block that is being allocated to the modem driver.
* Denotes the physical address
*/
/* Optional */
/* Destination end point for control commands from modem */
uint8_t ctrl_comm_dest_end_pt_valid; /**< Must be set to true if
ctrl_comm_dest_end_pt is being passed */
uint32_t ctrl_comm_dest_end_pt;
/* Provides information about the destination end point on the
* application processor to which the modem driver can send
* control commands. The value of this parameter cannot exceed
* 19 since IPA only supports 20 end points.
*/
/* Optional */
/* Modem Bootup Information */
uint8_t is_ssr_bootup_valid; /**< Must be set to true if
is_ssr_bootup is being passed */
uint8_t is_ssr_bootup;
/* Specifies whether the modem is booting up after a modem only
* sub-system restart or not. This will let the modem driver
* know that it doesn't have to reinitialize some of the HW
* blocks because IPA has not been reset since the previous
* initialization.
*/
/* Optional */
/* Header Processing Context Table Information */
uint8_t hdr_proc_ctx_tbl_info_valid;
/* Must be set to true if hdr_proc_ctx_tbl_info is being passed */
struct ipa_hdr_proc_ctx_tbl_info_type_v01 hdr_proc_ctx_tbl_info;
/* Provides information about the header processing context table.
*/
/* Optional */
/* Compression Decompression Table Information */
uint8_t zip_tbl_info_valid;
/* Must be set to true if zip_tbl_info is being passed */
struct ipa_zip_tbl_info_type_v01 zip_tbl_info;
/* Provides information about the header processing context table.
*/
}; /* Message */
/* Response Message; Requests the modem IPA driver about initializtion */
struct ipa_init_modem_driver_resp_msg_v01 {
/* Mandatory */
/* Result Code */
struct ipa_qmi_response_type_v01 resp;
/* Standard response type.*/
/* Optional */
/* Destination end point for control commands from master driver */
uint8_t ctrl_comm_dest_end_pt_valid;
/* Must be set to true if ctrl_comm_dest_ep is being passed */
uint32_t ctrl_comm_dest_end_pt;
/* Provides information about the destination end point on the
* modem processor to which the master driver can send control
* commands. The value of this parameter cannot exceed 19 since
* IPA only supports 20 end points. This field is looked at only
* if the result in TLV RESULT_CODE is QMI_RESULT_SUCCESS
*/
/* Optional */
/* Default end point */
uint8_t default_end_pt_valid;
/* Must be set to true if default_end_pt is being passed */
uint32_t default_end_pt;
/* Provides information about the default end point. The master
* driver may or may not set the register in the hardware with
* this value. The value of this parameter cannot exceed 19
* since IPA only supports 20 end points. This field is looked
* at only if the result in TLV RESULT_CODE is QMI_RESULT_SUCCESS
*/
}; /* Message */
/* Request Message; This is the message that is exchanged between the
* control point and the service in order to register for indications.
*/
struct ipa_indication_reg_req_msg_v01 {
/* Optional */
/* Master driver initialization completion */
uint8_t master_driver_init_complete_valid;
/* Must be set to true if master_driver_init_complete is being passed */
uint8_t master_driver_init_complete;
/* If set to TRUE, this field indicates that the client is
* interested in getting indications about the completion
* of the initialization sequence of the master driver.
* Setting this field in the request message makes sense
* only when the QMI_IPA_INDICATION_REGISTER_REQ is being
* originated from the modem driver
*/
/* Optional */
/* Data Usage Quota Reached */
uint8_t data_usage_quota_reached_valid;
/* Must be set to true if data_usage_quota_reached is being passed */
uint8_t data_usage_quota_reached;
/* If set to TRUE, this field indicates that the client wants to
* receive indications about reaching the data usage quota that
* previously set via QMI_IPA_SET_DATA_USAGE_QUOTA. Setting this field
* in the request message makes sense only when the
* QMI_IPA_INDICATION_REGISTER_REQ is being originated from the Master
* driver
*/
}; /* Message */
/* Response Message; This is the message that is exchanged between the
* control point and the service in order to register for indications.
*/
struct ipa_indication_reg_resp_msg_v01 {
/* Mandatory */
/* Result Code */
struct ipa_qmi_response_type_v01 resp;
/**< Standard response type.*/
}; /* Message */
/* Indication Message; Indication sent to the Modem IPA driver from
* master IPA driver about initialization being complete.
*/
struct ipa_master_driver_init_complt_ind_msg_v01 {
/* Mandatory */
/* Master driver initialization completion status */
struct ipa_qmi_response_type_v01 master_driver_init_status;
/* Indicates the status of initialization. If everything went
* as expected, this field is set to SUCCESS. ERROR is set
* otherwise. Extended error info may be used to convey
* additional information about the error
*/
}; /* Message */
struct ipa_ipfltr_range_eq_16_type_v01 {
uint8_t offset;
/* Specifies the offset from the IHL (Internet Header length) */
uint16_t range_low;
/* Specifies the lower bound of the range */
uint16_t range_high;
/* Specifies the upper bound of the range */
}; /* Type */
struct ipa_ipfltr_mask_eq_32_type_v01 {
uint8_t offset;
/* Specifies the offset either from IHL or from the start of
* the IP packet. This depends on the equation that this structure
* is used in.
*/
uint32_t mask;
/* Specifies the mask that has to be used in the comparison.
* The field is ANDed with the mask and compared against the value.
*/
uint32_t value;
/* Specifies the 32 bit value that used in the comparison. */
}; /* Type */
struct ipa_ipfltr_eq_16_type_v01 {
uint8_t offset;
/* Specifies the offset into the packet */
uint16_t value;
/* Specifies the 16 bit value that should be used in the comparison. */
}; /* Type */
struct ipa_ipfltr_eq_32_type_v01 {
uint8_t offset;
/* Specifies the offset into the packet */
uint32_t value;
/* Specifies the 32 bit value that should be used in the comparison. */
}; /* Type */
struct ipa_ipfltr_mask_eq_128_type_v01 {
uint8_t offset;
/* Specifies the offset into the packet */
uint8_t mask[16];
/* Specifies the mask that has to be used in the comparison.
* The field is ANDed with the mask and compared against the value.
*/
uint8_t value[16];
/* Specifies the 128 bit value that should be used in the comparison. */
}; /* Type */
struct ipa_filter_rule_type_v01 {
uint16_t rule_eq_bitmap;
/* 16-bit Bitmask to indicate how many eqs are valid in this rule */
uint8_t tos_eq_present;
/* Specifies if a type of service check rule is present */
uint8_t tos_eq;
/* The value to check against the type of service (ipv4) field */
uint8_t protocol_eq_present;
/* Specifies if a protocol check rule is present */
uint8_t protocol_eq;
/* The value to check against the protocol field */
uint8_t num_ihl_offset_range_16;
/* The number of 16 bit range check rules at the location
* determined by IP header length plus a given offset offset
* in this rule. See the definition of the ipa_filter_range_eq_16
* for better understanding. The value of this field cannot exceed
* IPA_IPFLTR_NUM_IHL_RANGE_16_EQNS which is set as 2
*/
struct ipa_ipfltr_range_eq_16_type_v01
ihl_offset_range_16[QMI_IPA_IPFLTR_NUM_IHL_RANGE_16_EQNS_V01];
/* Array of the registered IP header length offset 16 bit range
* check rules.
*/
uint8_t num_offset_meq_32;
/* The number of 32 bit masked comparison rules present
* in this rule
*/
struct ipa_ipfltr_mask_eq_32_type_v01
offset_meq_32[QMI_IPA_IPFLTR_NUM_MEQ_32_EQNS_V01];
/* An array of all the possible 32bit masked comparison rules
* in this rule
*/
uint8_t tc_eq_present;
/* Specifies if the traffic class rule is present in this rule */
uint8_t tc_eq;
/* The value against which the IPV4 traffic class field has to
be checked */
uint8_t flow_eq_present;
/* Specifies if the "flow equals" rule is present in this rule */
uint32_t flow_eq;
/* The value against which the IPV6 flow field has to be checked */
uint8_t ihl_offset_eq_16_present;
/* Specifies if there is a 16 bit comparison required at the
* location in the packet determined by "Intenet Header length
* + specified offset"
*/
struct ipa_ipfltr_eq_16_type_v01 ihl_offset_eq_16;
/* The 16 bit comparison equation */
uint8_t ihl_offset_eq_32_present;
/* Specifies if there is a 32 bit comparison required at the
* location in the packet determined by "Intenet Header length
* + specified offset"
*/
struct ipa_ipfltr_eq_32_type_v01 ihl_offset_eq_32;
/* The 32 bit comparison equation */
uint8_t num_ihl_offset_meq_32;
/* The number of 32 bit masked comparison equations in this
* rule. The location of the packet to be compared is
* determined by the IP Header length + the give offset
*/
struct ipa_ipfltr_mask_eq_32_type_v01
ihl_offset_meq_32[QMI_IPA_IPFLTR_NUM_IHL_MEQ_32_EQNS_V01];
/* Array of 32 bit masked comparison equations.
*/
uint8_t num_offset_meq_128;
/* The number of 128 bit comparison equations in this rule */
struct ipa_ipfltr_mask_eq_128_type_v01
offset_meq_128[QMI_IPA_IPFLTR_NUM_MEQ_128_EQNS_V01];
/* Array of 128 bit comparison equations. The location in the
* packet is determined by the specified offset
*/
uint8_t metadata_meq32_present;
/* Boolean indicating if the 32 bit masked comparison equation
* is present or not. Comparison is done against the metadata
* in IPA. Metadata can either be extracted from the packet
* header or from the "metadata" register.
*/
struct ipa_ipfltr_mask_eq_32_type_v01
metadata_meq32;
/* The metadata 32 bit masked comparison equation */
uint8_t ipv4_frag_eq_present;
/* Specifies if the IPv4 Fragment equation is present in this rule */
}; /* Type */
enum ipa_ip_type_enum_v01 {
IPA_IP_TYPE_ENUM_MIN_ENUM_VAL_V01 = -2147483647,
/* To force a 32 bit signed enum. Do not change or use*/
QMI_IPA_IP_TYPE_INVALID_V01 = 0,
/* Invalid IP type identifier */
QMI_IPA_IP_TYPE_V4_V01 = 1,
/* IP V4 type */
QMI_IPA_IP_TYPE_V6_V01 = 2,
/* IP V6 type */
QMI_IPA_IP_TYPE_V4V6_V01 = 3,
/* Applies to both IP types */
IPA_IP_TYPE_ENUM_MAX_ENUM_VAL_V01 = 2147483647
/* To force a 32 bit signed enum. Do not change or use*/
};
enum ipa_filter_action_enum_v01 {
IPA_FILTER_ACTION_ENUM_MIN_ENUM_VAL_V01 = -2147483647,
/* To force a 32 bit signed enum. Do not change or use */
QMI_IPA_FILTER_ACTION_INVALID_V01 = 0,
/* Invalid action on filter hit */
QMI_IPA_FILTER_ACTION_SRC_NAT_V01 = 1,
/* Pass packet to NAT block for Source NAT */
QMI_IPA_FILTER_ACTION_DST_NAT_V01 = 2,
/* Pass packet to NAT block for Destination NAT */
QMI_IPA_FILTER_ACTION_ROUTING_V01 = 3,
/* Pass packet to Routing block */
QMI_IPA_FILTER_ACTION_EXCEPTION_V01 = 4,
/* Treat packet as exception and send to exception pipe */
IPA_FILTER_ACTION_ENUM_MAX_ENUM_VAL_V01 = 2147483647
/* To force a 32 bit signed enum. Do not change or use*/
};
struct ipa_filter_spec_type_v01 {
uint32_t filter_spec_identifier;
/* This field is used to identify a filter spec in the list
* of filter specs being sent from the client. This field
* is applicable only in the filter install request and response.
*/
enum ipa_ip_type_enum_v01 ip_type;
/* This field identifies the IP type for which this rule is
* applicable. The driver needs to identify the filter table
* (V6 or V4) and this field is essential for that
*/
struct ipa_filter_rule_type_v01 filter_rule;
/* This field specifies the rules in the filter spec. These rules
* are the ones that are matched against fields in the packet.
*/
enum ipa_filter_action_enum_v01 filter_action;
/* This field specifies the action to be taken when a filter match
* occurs. The remote side should install this information into the
* hardware along with the filter equations.
*/
uint8_t is_routing_table_index_valid;
/* Specifies whether the routing table index is present or not.
* If the action is "QMI_IPA_FILTER_ACTION_EXCEPTION", this
* parameter need not be provided.
*/
uint32_t route_table_index;
/* This is the index in the routing table that should be used
* to route the packets if the filter rule is hit
*/
uint8_t is_mux_id_valid;
/* Specifies whether the mux_id is valid */
uint32_t mux_id;
/* This field identifies the QMAP MUX ID. As a part of QMAP
* protocol, several data calls may be multiplexed over the
* same physical transport channel. This identifier is used to
* identify one such data call. The maximum value for this
* identifier is 255.
*/
}; /* Type */
/* Request Message; This is the message that is exchanged between the
* control point and the service in order to request the installation
* of filtering rules in the hardware block by the remote side.
*/
struct ipa_install_fltr_rule_req_msg_v01 {
/* Optional */
/* IP type that this rule applies to
Filter specification to be installed in the hardware */
uint8_t filter_spec_list_valid;
/* Must be set to true if filter_spec_list is being passed */
uint32_t filter_spec_list_len;
/* Must be set to # of elements in filter_spec_list */
struct ipa_filter_spec_type_v01
filter_spec_list[QMI_IPA_MAX_FILTERS_V01];
/* This structure defines the list of filters that have
* to be installed in the hardware. The driver installing
* these rules shall do so in the same order as specified
* in this list.
*/
/* Optional */
/* Pipe index to intall rule */
uint8_t source_pipe_index_valid;
/* Must be set to true if source_pipe_index is being passed */
uint32_t source_pipe_index;
/* This is the source pipe on which the filter rule is to be
* installed. The requestor may always not know the pipe
* indices. If not specified, the receiver shall install
* this rule on all the pipes that it controls through
* which data may be fed into IPA.
*/
/* Optional */
/* Total number of IPv4 filters in the filter spec list */
uint8_t num_ipv4_filters_valid;
/* Must be set to true if num_ipv4_filters is being passed */
uint32_t num_ipv4_filters;
/* Number of IPv4 rules included in filter spec list */
/* Optional */
/* Total number of IPv6 filters in the filter spec list */
uint8_t num_ipv6_filters_valid;
/* Must be set to true if num_ipv6_filters is being passed */
uint32_t num_ipv6_filters;
/* Number of IPv6 rules included in filter spec list */
/* Optional */
/* List of XLAT filter indices in the filter spec list */
uint8_t xlat_filter_indices_list_valid;
/* Must be set to true if xlat_filter_indices_list
* is being passed
*/
uint32_t xlat_filter_indices_list_len;
/* Must be set to # of elements in xlat_filter_indices_list */
uint32_t xlat_filter_indices_list[QMI_IPA_MAX_FILTERS_V01];
/* List of XLAT filter indices. Filter rules at specified indices
* will need to be modified by the receiver if the PDN is XLAT
* before installing them on the associated IPA consumer pipe.
*/
}; /* Message */
struct ipa_filter_rule_identifier_to_handle_map_v01 {
uint32_t filter_spec_identifier;
/* This field is used to identify a filter spec in the list of
* filter specs being sent from the client. This field is
* applicable only in the filter install request and response.
*/
uint32_t filter_handle;
/* This field is used to identify a rule in any subsequent message.
* This is a value that is provided by the server to the control
* point
*/
}; /* Type */
/* Response Message; This is the message that is exchanged between the
* control point and the service in order to request the
* installation of filtering rules in the hardware block by
* the remote side.
*/
struct ipa_install_fltr_rule_resp_msg_v01 {
/* Mandatory */
/* Result Code */
struct ipa_qmi_response_type_v01 resp;
/* Standard response type.
* Standard response type. Contains the following data members:
* - qmi_result_type -- QMI_RESULT_SUCCESS or QMI_RESULT_FAILURE
* - qmi_error_type -- Error code. Possible error code values are
* described in the error codes section of each message definition.
*/
/* Optional */
/* Filter Handle list */
uint8_t filter_handle_list_valid;
/**< Must be set to true if filter_handle_list is being passed */
uint32_t filter_handle_list_len;
/* Must be set to # of elements in filter_handle_list */
struct ipa_filter_rule_identifier_to_handle_map_v01
filter_handle_list[QMI_IPA_MAX_FILTERS_V01];
/* This is a list of handles returned to the control point.
* Each handle is mapped to the rule identifier that was
* specified in the request message. Any further reference
* to the rule is done using the filter handle
*/
}; /* Message */
struct ipa_filter_handle_to_index_map_v01 {
uint32_t filter_handle;
/* This is a handle that was given to the remote client that
* requested the rule addition.
*/
uint32_t filter_index;
/* This index denotes the location in a filter table, where the
* filter rule has been installed. The maximum value of this
* field is 64.
*/
}; /* Type */
/* Request Message; This is the message that is exchanged between the
* control point and the service in order to notify the remote driver
* about the installation of the filter rule supplied earlier by
* the remote driver
*/
struct ipa_fltr_installed_notif_req_msg_v01 {
/* Mandatory */
/* Pipe index */
uint32_t source_pipe_index;
/* This is the source pipe on which the filter rule has been
* installed or was attempted to be installed
*/
/* Mandatory */
/* Installation Status */
enum ipa_qmi_result_type_v01 install_status;
/* This is the status of installation. If this indicates
* SUCCESS, other optional fields carry additional
* information
*/
/* Mandatory */
/* List of filter indices */
uint32_t filter_index_list_len;
/* Must be set to # of elements in filter_index_list */
struct ipa_filter_handle_to_index_map_v01
filter_index_list[QMI_IPA_MAX_FILTERS_V01];
/* This field provides the list of filter indices and the
* corresponding filter handle. If the installation_status
* indicates failure, then the filter indices shall be set
* to a reserve index (255)
*/
/* Optional */
/* Embedded pipe index */
uint8_t embedded_pipe_index_valid;
/* Must be set to true if embedded_pipe_index is being passed */
uint32_t embedded_pipe_index;
/* This index denotes the embedded pipe number on which a call to
* the same PDN has been made. If this field is set, it denotes
* that this is a use case where PDN sharing is happening. The
* embedded pipe is used to send data from the embedded client
* in the device
*/
/* Optional */
/* Retain Header Configuration */
uint8_t retain_header_valid;
/* Must be set to true if retain_header is being passed */
uint8_t retain_header;
/* This field indicates if the driver installing the rule has
* turned on the "retain header" bit. If this is true, the
* header that is removed by IPA is reinserted after the
* packet processing is completed.
*/
/* Optional */
/* Embedded call Mux Id */
uint8_t embedded_call_mux_id_valid;
/**< Must be set to true if embedded_call_mux_id is being passed */
uint32_t embedded_call_mux_id;
/* This identifies one of the many calls that have been originated
* on the embedded pipe. This is how we identify the PDN gateway
* to which traffic from the source pipe has to flow.
*/
/* Optional */
/* Total number of IPv4 filters in the filter index list */
uint8_t num_ipv4_filters_valid;
/* Must be set to true if num_ipv4_filters is being passed */
uint32_t num_ipv4_filters;
/* Number of IPv4 rules included in filter index list */
/* Optional */
/* Total number of IPv6 filters in the filter index list */
uint8_t num_ipv6_filters_valid;
/* Must be set to true if num_ipv6_filters is being passed */
uint32_t num_ipv6_filters;
/* Number of IPv6 rules included in filter index list */
/* Optional */
/* Start index on IPv4 filters installed on source pipe */
uint8_t start_ipv4_filter_idx_valid;
/* Must be set to true if start_ipv4_filter_idx is being passed */
uint32_t start_ipv4_filter_idx;
/* Start index of IPv4 rules in filter index list */
/* Optional */
/* Start index on IPv6 filters installed on source pipe */
uint8_t start_ipv6_filter_idx_valid;
/* Must be set to true if start_ipv6_filter_idx is being passed */
uint32_t start_ipv6_filter_idx;
/* Start index of IPv6 rules in filter index list */
}; /* Message */
/* Response Message; This is the message that is exchanged between the control
* point and the service in order to notify the remote driver about the
* installation of the filter rule supplied earlier by the remote driver
*/
struct ipa_fltr_installed_notif_resp_msg_v01 {
/* Mandatory */
/* Result Code */
struct ipa_qmi_response_type_v01 resp;
/* Standard response type */
}; /* Message */
/* Request Message; Notifies the remote driver of the need to clear the data
* path to prevent the IPA from being blocked at the head of the processing
* pipeline
*/
struct ipa_enable_force_clear_datapath_req_msg_v01 {
/* Mandatory */
/* Pipe Mask */
uint32_t source_pipe_bitmask;
/* Set of consumer (source) pipes that must be clear of
* active data transfers.
*/
/* Mandatory */
/* Request ID */
uint32_t request_id;
/* Identifies the ID of the request that is sent to the server
* The same request ID is used in the message to remove the force_clear
* request. The server is expected to keep track of the request ID and
* the source_pipe_bitmask so that it can revert as needed
*/
/* Optional */
/* Source Throttle State */
uint8_t throttle_source_valid;
/* Must be set to true if throttle_source is being passed */
uint8_t throttle_source;
/* Specifies whether the server is to throttle the data from
* these consumer (source) pipes after clearing the exisiting
* data present in the IPA that were pulled from these pipes
* The server is expected to put all the source pipes in the
* source_pipe_bitmask in the same state
*/
}; /* Message */
/* Response Message; Notifies the remote driver of the need to clear the
* data path to prevent the IPA from being blocked at the head of the
* processing pipeline
*/
struct ipa_enable_force_clear_datapath_resp_msg_v01 {
/* Mandatory */
/* Result Code */
struct ipa_qmi_response_type_v01 resp;
/* Standard response type */
}; /* Message */
/* Request Message; Notifies the remote driver that the forceful clearing
* of the data path can be lifted
*/
struct ipa_disable_force_clear_datapath_req_msg_v01 {
/* Mandatory */
/* Request ID */
uint32_t request_id;
/* Identifies the request that was sent to the server to
* forcibly clear the data path. This request simply undoes
* the operation done in that request
*/
}; /* Message */
/* Response Message; Notifies the remote driver that the forceful clearing
* of the data path can be lifted
*/
struct ipa_disable_force_clear_datapath_resp_msg_v01 {
/* Mandatory */
/* Result Code */
struct ipa_qmi_response_type_v01 resp;
/* Standard response type */
}; /* Message */
enum ipa_peripheral_speed_enum_v01 {
IPA_PERIPHERAL_SPEED_ENUM_MIN_ENUM_VAL_V01 = -2147483647,
/* To force a 32 bit signed enum. Do not change or use */
QMI_IPA_PER_USB_FS_V01 = 1,
/* Full-speed USB connection */
QMI_IPA_PER_USB_HS_V01 = 2,
/* High-speed USB connection */
QMI_IPA_PER_USB_SS_V01 = 3,
/* Super-speed USB connection */
QMI_IPA_PER_WLAN_V01 = 4,
/* WLAN connection */
IPA_PERIPHERAL_SPEED_ENUM_MAX_ENUM_VAL_V01 = 2147483647
/* To force a 32 bit signed enum. Do not change or use*/
};
enum ipa_pipe_mode_enum_v01 {
IPA_PIPE_MODE_ENUM_MIN_ENUM_VAL_V01 = -2147483647,
/* To force a 32 bit signed enum. Do not change or use */
QMI_IPA_PIPE_MODE_HW_V01 = 1,
/* Pipe is connected with a hardware block */
QMI_IPA_PIPE_MODE_SW_V01 = 2,
/* Pipe is controlled by the software */
IPA_PIPE_MODE_ENUM_MAX_ENUM_VAL_V01 = 2147483647
/* To force a 32 bit signed enum. Do not change or use */
};
enum ipa_peripheral_type_enum_v01 {
IPA_PERIPHERAL_TYPE_ENUM_MIN_ENUM_VAL_V01 = -2147483647,
/* To force a 32 bit signed enum. Do not change or use */
QMI_IPA_PERIPHERAL_USB_V01 = 1,
/* Specifies a USB peripheral */
QMI_IPA_PERIPHERAL_HSIC_V01 = 2,
/* Specifies an HSIC peripheral */
QMI_IPA_PERIPHERAL_PCIE_V01 = 3,
/* Specifies a PCIe peripheral */
IPA_PERIPHERAL_TYPE_ENUM_MAX_ENUM_VAL_V01 = 2147483647
/* To force a 32 bit signed enum. Do not change or use */
};
struct ipa_config_req_msg_v01 {
/* Optional */
/* Peripheral Type */
uint8_t peripheral_type_valid;
/* Must be set to true if peripheral_type is being passed */
enum ipa_peripheral_type_enum_v01 peripheral_type;
/* Informs the remote driver about the perhipheral for
* which this configuration information is relevant. Values:
* - QMI_IPA_PERIPHERAL_USB (1) -- Specifies a USB peripheral
* - QMI_IPA_PERIPHERAL_HSIC(2) -- Specifies an HSIC peripheral
* - QMI_IPA_PERIPHERAL_PCIE(3) -- Specifies a PCIe peripheral
*/
/* Optional */
/* HW Deaggregation Support */
uint8_t hw_deaggr_supported_valid;
/* Must be set to true if hw_deaggr_supported is being passed */
uint8_t hw_deaggr_supported;
/* Informs the remote driver whether the local IPA driver
* allows de-aggregation to be performed in the hardware
*/
/* Optional */
/* Maximum Aggregation Frame Size */
uint8_t max_aggr_frame_size_valid;
/* Must be set to true if max_aggr_frame_size is being passed */
uint32_t max_aggr_frame_size;
/* Specifies the maximum size of the aggregated frame that
* the remote driver can expect from this execution environment
* - Valid range: 128 bytes to 32768 bytes
*/
/* Optional */
/* IPA Ingress Pipe Mode */
uint8_t ipa_ingress_pipe_mode_valid;
/* Must be set to true if ipa_ingress_pipe_mode is being passed */
enum ipa_pipe_mode_enum_v01 ipa_ingress_pipe_mode;
/* Indicates to the remote driver if the ingress pipe into the
* IPA is in direct connection with another hardware block or
* if the producer of data to this ingress pipe is a software
* module. Values:
* -QMI_IPA_PIPE_MODE_HW(1) --Pipe is connected with hardware block
* -QMI_IPA_PIPE_MODE_SW(2) --Pipe is controlled by the software
*/
/* Optional */
/* Peripheral Speed Info */
uint8_t peripheral_speed_info_valid;
/* Must be set to true if peripheral_speed_info is being passed */
enum ipa_peripheral_speed_enum_v01 peripheral_speed_info;
/* Indicates the speed that the peripheral connected to the IPA supports
* Values:
* - QMI_IPA_PER_USB_FS (1) -- Full-speed USB connection
* - QMI_IPA_PER_USB_HS (2) -- High-speed USB connection
* - QMI_IPA_PER_USB_SS (3) -- Super-speed USB connection
* - QMI_IPA_PER_WLAN (4) -- WLAN connection
*/
/* Optional */
/* Downlink Accumulation Time limit */
uint8_t dl_accumulation_time_limit_valid;
/* Must be set to true if dl_accumulation_time_limit is being passed */
uint32_t dl_accumulation_time_limit;
/* Informs the remote driver about the time for which data
* is accumulated in the downlink direction before it is pushed into the
* IPA (downlink is with respect to the WWAN air interface)
* - Units: milliseconds
* - Maximum value: 255
*/
/* Optional */
/* Downlink Accumulation Packet limit */
uint8_t dl_accumulation_pkt_limit_valid;
/* Must be set to true if dl_accumulation_pkt_limit is being passed */
uint32_t dl_accumulation_pkt_limit;
/* Informs the remote driver about the number of packets
* that are to be accumulated in the downlink direction before it is
* pushed into the IPA - Maximum value: 1023
*/
/* Optional */
/* Downlink Accumulation Byte Limit */
uint8_t dl_accumulation_byte_limit_valid;
/* Must be set to true if dl_accumulation_byte_limit is being passed */
uint32_t dl_accumulation_byte_limit;
/* Inform the remote driver about the number of bytes
* that are to be accumulated in the downlink direction before it
* is pushed into the IPA - Maximum value: TBD
*/
/* Optional */
/* Uplink Accumulation Time Limit */
uint8_t ul_accumulation_time_limit_valid;
/* Must be set to true if ul_accumulation_time_limit is being passed */
uint32_t ul_accumulation_time_limit;
/* Inform thes remote driver about the time for which data
* is to be accumulated in the uplink direction before it is pushed into
* the IPA (downlink is with respect to the WWAN air interface).
* - Units: milliseconds
* - Maximum value: 255
*/
/* Optional */
/* HW Control Flags */
uint8_t hw_control_flags_valid;
/* Must be set to true if hw_control_flags is being passed */
uint32_t hw_control_flags;
/* Informs the remote driver about the hardware control flags:
* - Bit 0: IPA_HW_FLAG_HALT_SYSTEM_ON_NON_TERMINAL_FAILURE --
* Indicates to the hardware that it must not continue with
* any subsequent operation even if the failure is not terminal
* - Bit 1: IPA_HW_FLAG_NO_REPORT_MHI_CHANNEL_ERORR --
* Indicates to the hardware that it is not required to report
* channel errors to the host.
* - Bit 2: IPA_HW_FLAG_NO_REPORT_MHI_CHANNEL_WAKE_UP --
* Indicates to the hardware that it is not required to generate
* wake-up events to the host.
* - Bit 4: IPA_HW_FLAG_WORK_OVER_DDR --
* Indicates to the hardware that it is accessing addresses in
* the DDR and not over PCIe
* - Bit 5: IPA_HW_FLAG_INTERRUPT_MODE_CTRL_FLAG --
* Indicates whether the device must
* raise an event to let the host know that it is going into an
* interrupt mode (no longer polling for data/buffer availability)
*/
/* Optional */
/* Uplink MSI Event Threshold */
uint8_t ul_msi_event_threshold_valid;
/* Must be set to true if ul_msi_event_threshold is being passed */
uint32_t ul_msi_event_threshold;
/* Informs the remote driver about the threshold that will
* cause an interrupt (MSI) to be fired to the host. This ensures
* that the remote driver does not accumulate an excesive number of
* events before firing an interrupt.
* This threshold is applicable for data moved in the UL direction.
* - Maximum value: 65535
*/
/* Optional */
/* Downlink MSI Event Threshold */
uint8_t dl_msi_event_threshold_valid;
/* Must be set to true if dl_msi_event_threshold is being passed */
uint32_t dl_msi_event_threshold;
/* Informs the remote driver about the threshold that will
* cause an interrupt (MSI) to be fired to the host. This ensures
* that the remote driver does not accumulate an excesive number of
* events before firing an interrupt
* This threshold is applicable for data that is moved in the
* DL direction - Maximum value: 65535
*/
}; /* Message */
/* Response Message; Notifies the remote driver of the configuration
* information
*/
struct ipa_config_resp_msg_v01 {
/* Mandatory */
/* Result Code */
struct ipa_qmi_response_type_v01 resp;
/**< Standard response type.*/
}; /* Message */
enum ipa_stats_type_enum_v01 {
IPA_STATS_TYPE_ENUM_MIN_ENUM_VAL_V01 = -2147483647,
/* To force a 32 bit signed enum. Do not change or use */
QMI_IPA_STATS_TYPE_INVALID_V01 = 0,
/* Invalid stats type identifier */
QMI_IPA_STATS_TYPE_PIPE_V01 = 1,
/* Pipe stats type */
QMI_IPA_STATS_TYPE_FILTER_RULES_V01 = 2,
/* Filter rule stats type */
IPA_STATS_TYPE_ENUM_MAX_ENUM_VAL_V01 = 2147483647
/* To force a 32 bit signed enum. Do not change or use */
};
struct ipa_pipe_stats_info_type_v01 {
uint32_t pipe_index;
/* Pipe index for statistics to be retrieved. */
uint64_t num_ipv4_packets;
/* Accumulated number of IPv4 packets over this pipe. */
uint64_t num_ipv4_bytes;
/* Accumulated number of IPv4 bytes over this pipe. */
uint64_t num_ipv6_packets;
/* Accumulated number of IPv6 packets over this pipe. */
uint64_t num_ipv6_bytes;
/* Accumulated number of IPv6 bytes over this pipe. */
};
struct ipa_stats_type_filter_rule_v01 {
uint32_t filter_rule_index;
/* Filter rule index for statistics to be retrieved. */
uint64_t num_packets;
/* Accumulated number of packets over this filter rule. */
};
/* Request Message; Retrieve the data statistics collected on modem
* IPA driver.
*/
struct ipa_get_data_stats_req_msg_v01 {
/* Mandatory */
/* Stats Type */
enum ipa_stats_type_enum_v01 ipa_stats_type;
/* Indicates the type of statistics to be retrieved. */
/* Optional */
/* Reset Statistics */
uint8_t reset_stats_valid;
/* Must be set to true if reset_stats is being passed */
uint8_t reset_stats;
/* Option to reset the specific type of data statistics
* currently collected.
*/
}; /* Message */
/* Response Message; Retrieve the data statistics collected
* on modem IPA driver.
*/
struct ipa_get_data_stats_resp_msg_v01 {
/* Mandatory */
/* Result Code */
struct ipa_qmi_response_type_v01 resp;
/* Standard response type. */
/* Optional */
/* Stats Type */
uint8_t ipa_stats_type_valid;
/* Must be set to true if ipa_stats_type is passed */
enum ipa_stats_type_enum_v01 ipa_stats_type;
/* Indicates the type of statistics that are retrieved. */
/* Optional */
/* Uplink Source Pipe Statistics List */
uint8_t ul_src_pipe_stats_list_valid;
/* Must be set to true if ul_src_pipe_stats_list is being passed */
uint32_t ul_src_pipe_stats_list_len;
/* Must be set to # of elements in ul_src_pipe_stats_list */
struct ipa_pipe_stats_info_type_v01
ul_src_pipe_stats_list[QMI_IPA_MAX_PIPES_V01];
/* List of all Uplink pipe statistics that are retrieved. */
/* Optional */
/* Downlink Destination Pipe Statistics List */
uint8_t dl_dst_pipe_stats_list_valid;
/* Must be set to true if dl_dst_pipe_stats_list is being passed */
uint32_t dl_dst_pipe_stats_list_len;
/* Must be set to # of elements in dl_dst_pipe_stats_list */
struct ipa_pipe_stats_info_type_v01
dl_dst_pipe_stats_list[QMI_IPA_MAX_PIPES_V01];
/* List of all Downlink pipe statistics that are retrieved. */
/* Optional */
/* Downlink Filter Rule Stats List */
uint8_t dl_filter_rule_stats_list_valid;
/* Must be set to true if dl_filter_rule_stats_list is being passed */
uint32_t dl_filter_rule_stats_list_len;
/* Must be set to # of elements in dl_filter_rule_stats_list */
struct ipa_stats_type_filter_rule_v01
dl_filter_rule_stats_list[QMI_IPA_MAX_FILTERS_V01];
/* List of all Downlink filter rule statistics retrieved. */
}; /* Message */
struct ipa_apn_data_stats_info_type_v01 {
uint32_t mux_id;
/* Indicates the MUX ID associated with the APN for which the data
* usage statistics is queried
*/
uint64_t num_ul_packets;
/* Accumulated number of uplink packets corresponding to
* this Mux ID
*/
uint64_t num_ul_bytes;
/* Accumulated number of uplink bytes corresponding to
* this Mux ID
*/
uint64_t num_dl_packets;
/* Accumulated number of downlink packets corresponding
* to this Mux ID
*/
uint64_t num_dl_bytes;
/* Accumulated number of downlink bytes corresponding to
* this Mux ID
*/
}; /* Type */
/* Request Message; Retrieve the APN data statistics collected from modem */
struct ipa_get_apn_data_stats_req_msg_v01 {
/* Optional */
/* Mux ID List */
uint8_t mux_id_list_valid;
/* Must be set to true if mux_id_list is being passed */
uint32_t mux_id_list_len;
/* Must be set to # of elements in mux_id_list */
uint32_t mux_id_list[QMI_IPA_MAX_APN_V01];
/* The list of MUX IDs associated with APNs for which the data usage
* statistics is being retrieved
*/
}; /* Message */
/* Response Message; Retrieve the APN data statistics collected from modem */
struct ipa_get_apn_data_stats_resp_msg_v01 {
/* Mandatory */
/* Result Code */
struct ipa_qmi_response_type_v01 resp;
/* Standard response type.*/
/* Optional */
/* APN Data Statistics List */
uint8_t apn_data_stats_list_valid;
/* Must be set to true if apn_data_stats_list is being passed */
uint32_t apn_data_stats_list_len;
/* Must be set to # of elements in apn_data_stats_list */
struct ipa_apn_data_stats_info_type_v01
apn_data_stats_list[QMI_IPA_MAX_APN_V01];
/* List of APN data retrieved as per request on mux_id.
* For now, only one APN monitoring is supported on modem driver.
* Making this as list for expandability to support more APNs in future.
*/
}; /* Message */
struct ipa_data_usage_quota_info_type_v01 {
uint32_t mux_id;
/* Indicates the MUX ID associated with the APN for which the data usage
* quota needs to be set
*/
uint64_t num_Mbytes;
/* Number of Mega-bytes of quota value to be set on this APN associated
* with this Mux ID.
*/
}; /* Type */
/* Request Message; Master driver sets a data usage quota value on
* modem driver
*/
struct ipa_set_data_usage_quota_req_msg_v01 {
/* Optional */
/* APN Quota List */
uint8_t apn_quota_list_valid;
/* Must be set to true if apn_quota_list is being passed */
uint32_t apn_quota_list_len;
/* Must be set to # of elements in apn_quota_list */
struct ipa_data_usage_quota_info_type_v01
apn_quota_list[QMI_IPA_MAX_APN_V01];
/* The list of APNs on which a data usage quota to be set on modem
* driver. For now, only one APN monitoring is supported on modem
* driver. Making this as list for expandability to support more
* APNs in future.
*/
}; /* Message */
/* Response Message; Master driver sets a data usage on modem driver. */
struct ipa_set_data_usage_quota_resp_msg_v01 {
/* Mandatory */
/* Result Code */
struct ipa_qmi_response_type_v01 resp;
/* Standard response type.*/
}; /* Message */
/* Indication Message; Modem driver sends this indication to master
* driver when the data usage quota is reached
*/
struct ipa_data_usage_quota_reached_ind_msg_v01 {
/* Mandatory */
/* APN Quota List */
struct ipa_data_usage_quota_info_type_v01 apn;
/* This message indicates which APN has the previously set quota
* reached. For now, only one APN monitoring is supported on modem
* driver.
*/
}; /* Message */
/* Request Message; Master driver request modem driver to terminate
* the current data usage quota monitoring session.
*/
struct ipa_stop_data_usage_quota_req_msg_v01 {
/* This element is a placeholder to prevent the declaration of
* an empty struct. DO NOT USE THIS FIELD UNDER ANY CIRCUMSTANCE
*/
char __placeholder;
}; /* Message */
/* Response Message; Master driver request modem driver to terminate
* the current quota monitoring session.
*/
struct ipa_stop_data_usage_quota_resp_msg_v01 {
/* Mandatory */
/* Result Code */
struct ipa_qmi_response_type_v01 resp;
/**< Standard response type.*/
}; /* Message */
/*Service Message Definition*/
#define QMI_IPA_INDICATION_REGISTER_REQ_V01 0x0020
#define QMI_IPA_INDICATION_REGISTER_RESP_V01 0x0020
#define QMI_IPA_INIT_MODEM_DRIVER_REQ_V01 0x0021
#define QMI_IPA_INIT_MODEM_DRIVER_RESP_V01 0x0021
#define QMI_IPA_MASTER_DRIVER_INIT_COMPLETE_IND_V01 0x0022
#define QMI_IPA_INSTALL_FILTER_RULE_REQ_V01 0x0023
#define QMI_IPA_INSTALL_FILTER_RULE_RESP_V01 0x0023
#define QMI_IPA_FILTER_INSTALLED_NOTIF_REQ_V01 0x0024
#define QMI_IPA_FILTER_INSTALLED_NOTIF_RESP_V01 0x0024
#define QMI_IPA_ENABLE_FORCE_CLEAR_DATAPATH_REQ_V01 0x0025
#define QMI_IPA_ENABLE_FORCE_CLEAR_DATAPATH_RESP_V01 0x0025
#define QMI_IPA_DISABLE_FORCE_CLEAR_DATAPATH_REQ_V01 0x0026
#define QMI_IPA_DISABLE_FORCE_CLEAR_DATAPATH_RESP_V01 0x0026
#define QMI_IPA_CONFIG_REQ_V01 0x0027
#define QMI_IPA_CONFIG_RESP_V01 0x0027
#define QMI_IPA_DISABLE_LINK_LOW_PWR_STATE_REQ_V01 0x0028
#define QMI_IPA_DISABLE_LINK_LOW_PWR_STATE_RESP_V01 0x0028
#define QMI_IPA_ENABLE_LINK_LOW_PWR_STATE_REQ_V01 0x0029
#define QMI_IPA_ENABLE_LINK_LOW_PWR_STATE_RESP_V01 0x0029
#define QMI_IPA_GET_DATA_STATS_REQ_V01 0x0030
#define QMI_IPA_GET_DATA_STATS_RESP_V01 0x0030
#define QMI_IPA_GET_APN_DATA_STATS_REQ_V01 0x0031
#define QMI_IPA_GET_APN_DATA_STATS_RESP_V01 0x0031
#define QMI_IPA_SET_DATA_USAGE_QUOTA_REQ_V01 0x0032
#define QMI_IPA_SET_DATA_USAGE_QUOTA_RESP_V01 0x0032
#define QMI_IPA_DATA_USAGE_QUOTA_REACHED_IND_V01 0x0033
#define QMI_IPA_STOP_DATA_USAGE_QUOTA_REQ_V01 0x0034
#define QMI_IPA_STOP_DATA_USAGE_QUOTA_RESP_V01 0x0034
/* add for max length*/
#define QMI_IPA_INIT_MODEM_DRIVER_REQ_MAX_MSG_LEN_V01 98
#define QMI_IPA_INIT_MODEM_DRIVER_RESP_MAX_MSG_LEN_V01 21
#define QMI_IPA_INDICATION_REGISTER_REQ_MAX_MSG_LEN_V01 8
#define QMI_IPA_INDICATION_REGISTER_RESP_MAX_MSG_LEN_V01 7
#define QMI_IPA_INSTALL_FILTER_RULE_REQ_MAX_MSG_LEN_V01 11293
#define QMI_IPA_INSTALL_FILTER_RULE_RESP_MAX_MSG_LEN_V01 523
#define QMI_IPA_FILTER_INSTALLED_NOTIF_REQ_MAX_MSG_LEN_V01 574
#define QMI_IPA_FILTER_INSTALLED_NOTIF_RESP_MAX_MSG_LEN_V01 7
#define QMI_IPA_MASTER_DRIVER_INIT_COMPLETE_IND_MAX_MSG_LEN_V01 7
#define QMI_IPA_DATA_USAGE_QUOTA_REACHED_IND_MAX_MSG_LEN_V01 15
#define QMI_IPA_ENABLE_FORCE_CLEAR_DATAPATH_REQ_MAX_MSG_LEN_V01 18
#define QMI_IPA_DISABLE_FORCE_CLEAR_DATAPATH_REQ_MAX_MSG_LEN_V01 7
#define QMI_IPA_ENABLE_FORCE_CLEAR_DATAPATH_RESP_MAX_MSG_LEN_V01 7
#define QMI_IPA_DISABLE_FORCE_CLEAR_DATAPATH_RESP_MAX_MSG_LEN_V01 7
#define QMI_IPA_CONFIG_REQ_MAX_MSG_LEN_V01 81
#define QMI_IPA_CONFIG_RESP_MAX_MSG_LEN_V01 7
#define QMI_IPA_DISABLE_LINK_LOW_PWR_STATE_REQ_MAX_MSG_LEN_V01 18
#define QMI_IPA_DISABLE_LINK_LOW_PWR_STATE_RESP_MAX_MSG_LEN_V01 7
#define QMI_IPA_ENABLE_LINK_LOW_PWR_STATE_REQ_MAX_MSG_LEN_V01 7
#define QMI_IPA_ENABLE_LINK_LOW_PWR_STATE_RESP_MAX_MSG_LEN_V01 7
#define QMI_IPA_GET_DATA_STATS_REQ_MAX_MSG_LEN_V01 11
#define QMI_IPA_GET_DATA_STATS_RESP_MAX_MSG_LEN_V01 2234
#define QMI_IPA_GET_APN_DATA_STATS_REQ_MAX_MSG_LEN_V01 36
#define QMI_IPA_GET_APN_DATA_STATS_RESP_MAX_MSG_LEN_V01 299
#define QMI_IPA_SET_DATA_USAGE_QUOTA_REQ_MAX_MSG_LEN_V01 100
#define QMI_IPA_SET_DATA_USAGE_QUOTA_RESP_MAX_MSG_LEN_V01 7
#define QMI_IPA_STOP_DATA_USAGE_QUOTA_REQ_MAX_MSG_LEN_V01 0
#define QMI_IPA_STOP_DATA_USAGE_QUOTA_RESP_MAX_MSG_LEN_V01 7
/* Service Object Accessor */
#endif/* IPA_QMI_SERVICE_V01_H */