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|
/*
* ipmilanplus.c
*
* Interface to call libintf_lanplus from ipmitool to do RMCP+ protocol.
*
* 01/09/07 Andy Cress - created
* 02/22/07 Andy Cress - initialize cipher_suite to 3 (was 0)
*/
#include <stdio.h>
#include <stdarg.h>
#include <string.h>
#include <time.h>
#if defined(LINUX) || defined(BSD) || defined(MACOS)
#include <sys/time.h>
#endif
// #define DEBUG 1
int verbose = 0;
char fdbglog = 0;
#ifndef HAVE_LANPLUS
#ifdef WIN32
#include <windows.h>
extern int strncasecmp(char *s1, char *s2, int n); /*ipmicmd.c*/
#define snprintf _snprintf
#define SockType SOCKET
#else
#define SockType int
#endif
/* No lanplus, so stub these functions returning errors. */
#define uchar unsigned char
#define ushort unsigned short
#define LAN_ERR_INVPARAM -8
#define LOG_MSG_LENGTH 1024 /*usu. ipmicmd.h*/
struct valstr { /*usually in ipmicmd.h*/
ushort val;
char * str;
};
struct oemvalstr {
unsigned int oem;
ushort val;
const char * str;
};
int ipmi_open_lan2(char *node, char *user, char *pswd, int fdebugcmd)
{ if (fdebugcmd) verbose = 1; return(LAN_ERR_INVPARAM); }
int ipmi_close_lan2(char *node)
{ return(LAN_ERR_INVPARAM); }
int ipmi_cmdraw_lan2(char *node, uchar cmd, uchar netfn, uchar lun,
uchar sa, uchar bus, uchar *pdata, int sdata,
uchar *presp, int *sresp, uchar *pcc, char fdebugcmd)
{ printf("lanplus not configured\n"); return(LAN_ERR_INVPARAM); }
int ipmi_cmd_lan2(char *node, ushort cmd, uchar *pdata, int sdata,
uchar *presp, int *sresp, uchar *pcc, char fdebugcmd)
{ return(LAN_ERR_INVPARAM); }
int lan2_send_sol( uchar *payload, int len, void *rsp)
{ return(LAN_ERR_INVPARAM); }
int lan2_recv_sol( void *rsp )
{ return(LAN_ERR_INVPARAM); }
int lan2_keepalive(int type, void *rsp)
{ return(LAN_ERR_INVPARAM); }
void lan2_recv_handler( void *rs )
{ return; }
void lan2_set_sol_data(int insize, int outsize, int port, void *handler,
char esc_char)
{ return; }
SockType lan2_get_fd(void) { return(1); }
void lanplus_set_recvdelay( int delay ) { return; }
long lan2_get_latency( void ) { return(1); }
int lan2_send_break( void *rsp) { return(LAN_ERR_INVPARAM); }
int lan2_send_ctlaltdel( void *rsp) { return(LAN_ERR_INVPARAM); }
#else /* else HAVE_LANPLUS is defined */
#include "ipmilanplus.h"
#include "ipmicmd.h"
void set_loglevel(int level); /*defined in subs.c*/
void lprintf(int level, const char * format, ...);
// #define LOG_WARN 4
// #define LOG_INFO 6
#ifdef METACOMMAND
extern void dbglog( char *pattn, ... ); /*from isolconsole.c*/
extern void sol_output_handler(void *rsp); /*from isolconsole.c*/
extern void dbg_dump(char *tag, uchar *pdata, int len, int fascii);
#else
static void dbglog( char *pattn, ... ) { return; }
static void sol_output_handler(void *rsp) { return; }
static void dbg_dump(char *tag, uchar *pdata, int len, int fascii) { return; }
#endif
int ipmi_close_lan2(char *node); /*prototype*/
extern LAN_OPT lanp; /* from ipmicmd.c */
//extern char *gnode; /* from ipmicmd.c */
//extern char *guser; /* from ipmicmd.c */
//extern char *gpswd; /* from ipmicmd.c */
//extern int gauth_type; /* from ipmicmd.c */
//extern int gpriv_level; /* from ipmicmd.c */
//extern int gcipher_suite; /*from ipmicmd.c, see table 22-19 IPMI 2.0 spec*/
extern int gshutdown; /* from ipmicmd.c */
extern FILE *fpdbg; /* == stdout, from ipmicmd.c */
extern FILE *fperr; /* == stderr, from ipmicmd.c */
extern FILE *fplog; /* from ipmicmd.c */
extern ipmi_cmd_t ipmi_cmds[]; /* from ipmicmd.c */
//extern char lan2_nodename[]; /*from lib/lanplus/lanplus.c */
extern struct ipmi_intf ipmi_lanplus_intf; /*from libintf_lanplus.a*/
typedef struct {
int type;
int len;
char *data;
} SOL_RSP_PKT;
typedef struct {
struct ipmi_intf *intf;
SockType lan2_fd;
uchar sol_seq; /*sending SOL sequence num, will call inc_sol_seq*/
uchar sol_len; /*sending SOL num chars */
uchar sol_seq_acked; /*last acked sent SOL sequence num*/
uchar sol_rseq; /*received SOL sequence num*/
uchar sol_rlen; /*received SOL num chans*/
} LAN2_CONN; /*see also IPMI_HDR below*/
static int loglvl = LOG_WARN; /*3=LOG_ERR 4=LOG_WARN 6=LOG_INFO 7=LOG_DEBUG*/
static LAN2_CONN conn = {NULL,0,0,0,0,0,0};
static LAN2_CONN *pconn = &conn;
// static SockType lan2_fd = 0;
// static struct ipmi_intf *intf = NULL;
static uchar sol_seq = 0; /*sending SOL sequence num, will call inc_sol_seq*/
static uchar sol_len = 0; /*sending SOL num chars */
static uchar sol_seq_acked = 0; /*last acked sent SOL sequence num*/
static uchar sol_rseq = 0; /*received SOL sequence num*/
static uchar sol_rlen = 0; /*received SOL num chans*/
static uchar chars_to_resend = 0;
static long lan2_latency = 0;
// #define LAN_ERR_INVPARAM -8
#define PSWD_MAX 16
#if defined(WIN32)
/* Windows does not have gettimeofday, so do it here */
#include <windows.h>
#define UNIX_EPOCH_USEC 11644473600000000ULL
struct timezone
{
int tz_minuteswest;
int tz_dsttime;
};
int gettimeofday(struct timeval *tv, struct timezone *tz)
{
FILETIME ft;
unsigned __int64 nusec, tmpres = 0;
static int tzflag = 0;
if (tv != NULL) {
GetSystemTimeAsFileTime(&ft);
tmpres |= ft.dwHighDateTime;
tmpres <<= 32;
tmpres |= ft.dwLowDateTime;
nusec = tmpres / 10; /*convert 100-nanosec into microseconds*/
nusec -= UNIX_EPOCH_USEC; /*windows -> unix epoch*/
tv->tv_sec = (long)(nusec / 1000000UL);
tv->tv_usec = (long)(nusec % 1000000UL);
}
if (tz != NULL) {
if (!tzflag) {
_tzset();
tzflag++;
}
tz->tz_minuteswest = _timezone / 60;
tz->tz_dsttime = _daylight;
}
return 0;
}
#endif
#if defined(WIN32) || defined(SOLARIS)
#ifdef OLD
/* Now moved to lib/lanplus/lanplus.c */
void ipmilanplus_init(struct ipmi_intf *intf)
{
strcpy(intf->name,"lanplus");
intf->setup = ipmi_lanplus_setup;
intf->open = ipmi_lanplus_open;
intf->close = ipmi_lanplus_close;
intf->sendrecv = ipmi_lanplus_send_ipmi_cmd;
intf->recv_sol = ipmi_lanplus_recv_sol;
intf->send_sol = ipmi_lanplus_send_sol;
intf->keepalive = ipmi_lanplus_keepalive;
intf->target_addr = IPMI_BMC_SLAVE_ADDR; /*0x20*/
intf->my_addr = IPMI_BMC_SLAVE_ADDR; /*0x20*/
}
#else
extern void ipmilanplus_init(struct ipmi_intf *intf);
#endif
#endif
struct ipmi_intf * ipmi_intf_load(char * name)
{
if (strcmp(name,"lanplus") == 0) {
#if defined(WIN32) || defined(SOLARIS)
/* initialize the intf */
ipmilanplus_init(&ipmi_lanplus_intf);
#endif
return (&ipmi_lanplus_intf);
}
else return (NULL);
}
long lan2_get_latency(void)
{
return(lan2_latency);
}
static void set_latency( struct timeval *t1, struct timeval *t2, long *latency)
{
long nsec;
nsec = t2->tv_sec - t1->tv_sec;
if ((ulong)(nsec) > 1) nsec = 1;
*latency = nsec*1000 + (t2->tv_usec - t1->tv_usec)/1000;
}
/*
* ipmi_open_lan2
*/
int ipmi_open_lan2(char *node, char *puser, char *pswd, int fdebugcmd)
{
char *user = "";
int rv = -1;
size_t n;
struct ipmi_intf *intf;
if (puser != NULL) user = puser;
#ifdef DEBUG
if (fdbglog && fdebugcmd) fdebugcmd = 3; /*full debug*/
else if (fdbglog) fdebugcmd = 2; /*special log only from isolconsole.c*/
else if (fdebugcmd) fdebugcmd = 1; /*debug, no packets*/
if (fdebugcmd) fdebugcmd = 4; /*max debug*/
#endif
switch (fdebugcmd) {
case 4: /* max debug */
loglvl = 8; /* 8=(LOG_DEBUG=1, max), 7=LOG_DEBUG */
verbose = 8; /* usually 0 or 1, but max is 8. */
break;
case 3: /* full debug */
loglvl = 7; /* 7=LOG_DEBUG; max=8 (LOG_DEBUG+1) */
verbose = 4; /* show packets */
break;
case 2: /* debug log file only*/
loglvl = 6; /* 6=LOG_INFO, 4=LOG_WARN */
verbose = 1; /* usually 0 or 1, but could be up to 8. */
break;
case 1: /* debug, no packets */
loglvl = 7; /* 7=LOG_DEBUG; max=8 (LOG_DEBUG+1) */
verbose = 1; /* usually 0 or 1, but could be up to 8. */
break;
case 0: /* no debug*/
/* by default loglevel = 4; (4=LOG_WARN) verbose = 0; */
default: break;
}
if (fdbglog)
dbglog("ipmi_open_lan2(%s,%s,%p,%d) verbose=%d loglevel=%d\n",
node,user,pswd,fdebugcmd,verbose,loglvl);
else if (fdebugcmd)
fprintf(fpdbg,"ipmi_open_lan2(%s,%s,%p,%d) verbose=%d loglevel=%d\n",
node,user,pswd,fdebugcmd,verbose,loglvl);
set_loglevel(loglvl);
intf = pconn->intf;
if (nodeislocal(node)) {
fprintf(fpdbg,"ipmi_open_lan2: node %s is local!\n",node);
rv = LAN_ERR_INVPARAM;
goto EXIT;
} else {
/* if attempting re-open to a new node, close the previous one. */
if (intf != NULL) {
if ((intf->session != NULL) &&
(strcmp(intf->session->hostname,node) != 0)) {
rv = ipmi_close_lan2(intf->session->hostname);
}
}
if ((gshutdown==0) || fdebugcmd)
fprintf(fpdbg,"Opening lanplus connection to node %s ...\n",node);
rv = 0;
if (intf == NULL) {
/* fill in the intf structure */
intf = ipmi_intf_load("lanplus");
if (intf == NULL) return(-1);
}
if (intf->session == NULL && intf->opened == 0) {
if (intf->setup == NULL) return(-1);
rv = intf->setup(intf); /*allocates session struct*/
if (fdebugcmd) printf("lan2 intf setup returned %d\n",rv);
}
if (rv == 0) {
if (intf->open == NULL) return(-1);
if (intf->session == NULL) return(-1);
intf->session->authtype_set = (uchar)lanp.auth_type;
intf->session->privlvl = (uchar)lanp.priv;
intf->session->cipher_suite_id = (uchar)lanp.cipher;
if (node != NULL) { strcpy(intf->session->hostname,node); }
if (user != NULL) { strcpy(intf->session->username,user); }
if (pswd == NULL || pswd[0] == 0)
intf->session->password = 0;
else {
intf->session->password = 1;
n = strlen(pswd);
if (n > PSWD_MAX) n = PSWD_MAX;
memset(intf->session->authcode,0,PSWD_MAX);
strncpy(intf->session->authcode, pswd, n);
}
rv = intf->open(intf);
if (fdebugcmd)
printf("lan2 open.intf(auth=%d,priv=%d,cipher=%d) returned %d\n",
lanp.auth_type,lanp.priv,lanp.cipher, rv);
if (rv != -1) { /*success is >= 0*/
sol_seq = 0; /*init new session, will call inc_sol_seq*/
sol_len = 0;
sol_seq_acked = 0;
pconn->lan2_fd = intf->fd; /*not same as rv if Windows*/
rv = 0;
}
}
pconn->intf = intf;
}
EXIT:
if (rv != 0) {
if ((gshutdown == 0) || fdebugcmd)
fprintf(fperr, "ipmi_open_lan2 error %d\n",rv);
}
return(rv);
}
int ipmi_close_lan2(char *node)
{
int rv = 0;
struct ipmi_intf *intf;
intf = pconn->intf;
if (!nodeislocal(node)) { /* ipmilan, need to close & cleanup */
if (fdbglog) dbglog("ipmi_close_lan2(%s) intf=%p\n",node,intf);
if (intf != NULL) {
if (intf->opened > 0 && intf->close != NULL) {
intf->close(intf); /* do the close */
intf->fd = -1;
intf->opened = 0;
}
}
pconn->lan2_fd = -1;
sol_seq = 0; sol_len = 0;
sol_rseq = 0; sol_rlen = 0;
sol_seq_acked = 0;
}
return (rv);
}
int ipmi_cmdraw_lan2(char *node, uchar cmd, uchar netfn, uchar lun,
uchar sa, uchar bus, uchar *pdata, int sdata,
uchar *presp, int *sresp, uchar *pcc, char fdebugcmd)
{
int rc, n;
struct ipmi_rq req;
struct ipmi_rs *rsp;
struct timeval t1, t2;
struct ipmi_intf *intf = pconn->intf;
if (fdebugcmd) verbose = 5; /* show packets */
#ifdef DEBUG
if (fdebugcmd) verbose = 8;
#endif
if (intf == NULL || (intf->opened == 0)) {
rc = ipmi_open_lan2(node,lanp.user,lanp.pswd,fdebugcmd);
if (rc != 0) {
if (fdebugcmd)
fprintf(fperr, "ipmi_cmd_lan2: interface open error %d\n",rc);
return(rc);
}
intf = pconn->intf;
}
/* do the command */
memset(&req, 0, sizeof(req));
req.msg.cmd = cmd;
req.msg.netfn = netfn;
req.msg.lun = lun;
req.msg.target_cmd = cmd;
req.msg.data = pdata;
req.msg.data_len = sdata;
intf->target_addr = sa; /*usu 0x20*/
intf->target_lun = lun;
intf->target_channel = bus;
gettimeofday(&t1, NULL);
rsp = intf->sendrecv(intf, &req);
if (rsp == NULL) rc = -1;
else {
*pcc = rsp->ccode;
rc = rsp->ccode;
}
gettimeofday(&t2, NULL);
set_latency(&t1,&t2,&lan2_latency);
if (rc == 0) {
/* copy data */
if (rsp->data_len > *sresp) n = *sresp;
else n = rsp->data_len;
memcpy(presp,rsp->data,n);
*sresp = n;
} else {
*sresp = 0;
if (fdebugcmd)
fprintf(fperr, "ipmi_cmd_lan2 error %d\n",rc);
}
return (rc);
}
/*
* ipmi_cmd_lan2
* This is the entry point, called from ipmicmd.c
*/
int ipmi_cmd_lan2(char *node, ushort cmd, uchar *pdata, int sdata,
uchar *presp, int *sresp, uchar *pcc, char fdebugcmd)
{
int rc, i;
uchar mycmd;
for (i = 0; i < NCMDS; i++) {
if (ipmi_cmds[i].cmdtyp == cmd) break;
}
if (i >= NCMDS) {
fprintf(fperr, "ipmi_cmd_lan2: Unknown command %x\n",cmd);
return(-1);
}
if (cmd >= CMDMASK) mycmd = (uchar)(cmd & CMDMASK); /* unmask it */
else mycmd = (uchar)cmd;
rc = ipmi_cmdraw_lan2(node,mycmd, ipmi_cmds[i].netfn, ipmi_cmds[i].lun,
ipmi_cmds[i].sa, ipmi_cmds[i].bus,
pdata, sdata, presp, sresp, pcc, fdebugcmd);
return(rc);
}
#define NOEM 4
static struct { int id; char *name; } oem_list[NOEM] = {
{0x000157, "intelplus"}, /*VENDOR_INTEL*/
{0x002A7C, "supermicro"}, /*VENDOR_SUPERMICRO*/
/* { 0, "icts"}, *ICTS testware, needs user option*/
{0x00000B, "hp"}, /*VENDOR_HP*/
{0x000002, "ibm"} /*VENDOR_IBM*/
};
#ifdef METACOMMAND
extern int is_lan2intel(int vend, int prod); /*oem_intel.c*/
#else
static int is_lan2intel(int vend, int prod) {
int rv = 0;
/* Older Intel BMCs use oem lan2i method, newer Intel FW uses lan2. */
if (vend == VENDOR_INTEL)
if ((prod < 0x0030) || (prod == 0x0811)) rv = 1;
return(rv);
}
#endif
int ipmi_oem_active(struct ipmi_intf * intf, const char * oemtype)
{
int i, vend, prod, dtype;
get_mfgid(&vend,&prod);
dtype = get_driver_type();
if (verbose)
lprintf(LOG_INFO,"oem_active(is_type==%s ?) vend=%x prod=%x", oemtype,vend,prod);
if (strncmp("intelplus", oemtype, strlen(oemtype)) == 0) {
/* special case to detect intelplus, not all Intel platforms */
if (dtype == DRV_LAN2I) {
i = 1;
} else {
if (is_lan2intel(vend,prod)) {
i = 1;
set_driver_type("lan2i");
} else { /* If iBMC, does not use intelplus */
if (verbose) lprintf(LOG_WARN,"detected as not intelplus");
i = 0;
}
}
if (verbose && i == 1) lprintf(LOG_WARN,"intelplus detected, vend=%x prod=%x",vend, prod);
return i;
} else {
// if (intf->oem == NULL) return 0;
for (i = 0; i < NOEM; i++) {
if (strncmp(oem_list[i].name,oemtype,strlen(oemtype)) == 0)
if (oem_list[i].id == vend) {
if (verbose) lprintf(LOG_WARN,"%s detected, vend=%x",oemtype,vend);
return 1;
}
}
}
return 0;
}
/*
* lan2_validate_solrcv()
* Validate the SOL receive packet, and save received SOL info
* (recv seq num, char count) for use in send_sol header.
* return value (bitwise):
* 0x01 bit set: received packet is present with data len > 0
* 0x02 bit set: received packet flags error in the previously sent packet
* 0x04 bit set: received packet is a retry of previous
* 0x08 bit set: break detected
*/
static int lan2_validate_solrcv(struct ipmi_rs * rs)
{
int rv = 0;
if (rs == NULL) return(rv);
if (verbose > 4)
dbg_dump("rs_sol_hdr",
(uchar *)&rs->payload.sol_packet.packet_sequence_number,8,1);
chars_to_resend = 0;
sol_rlen = (uchar)rs->data_len;
if (sol_rlen > 4) sol_rlen -= 4;
else sol_rlen = 0;
if (sol_rlen > 0) rv |= 0x01; /* have a receive packet with dlen > 0 */
if (rs->payload.sol_packet.packet_sequence_number != 0) {
if (rs->payload.sol_packet.packet_sequence_number == sol_rseq) {
lprintf(LOG_INFO,"received retry of sol_rseq %d, rlen=%d",
sol_rseq,sol_rlen);
/* do nothing because rs->data_len was set to 4 in lanplus */
// rv |= 0x04;
/* return, don't process this again */
return(rv);
} else sol_rseq = rs->payload.sol_packet.packet_sequence_number;
}
/* check for errors in previously sent packet */
if (rs->payload.sol_packet.acked_packet_number != 0) {
if (rs->payload.sol_packet.acked_packet_number != sol_seq) rv |= 0x02;
else if ((rs->payload.sol_packet.accepted_character_count < sol_len)
&& (sol_seq_acked < sol_seq)) {
lprintf(LOG_INFO,"partial_ack, seq=%d: acked=%d < sent=%d",
sol_seq,rs->payload.sol_packet.accepted_character_count,
sol_len);
chars_to_resend = sol_len -
rs->payload.sol_packet.accepted_character_count;
rv |= 0x02;
}
sol_seq_acked = rs->payload.sol_packet.acked_packet_number;
}
if (sol_seq != 0) { /*if we have sent something*/
if (rs->payload.sol_packet.is_nack) rv |= 0x02;
if (rs->payload.sol_packet.transfer_unavailable) rv |= 0x02;
if (rs->payload.sol_packet.sol_inactive) rv |= 0x02;
if (rs->payload.sol_packet.transmit_overrun) rv |= 0x02;
}
if (rs->payload.sol_packet.break_detected) rv |= 0x08;
if (rv & 0x02) {
if (sol_seq_acked < sol_seq) { /*not already acked, needs retry*/
lprintf(LOG_INFO,"need to retry sol_seq=%d, acked=%d len=%d rv=%x",
sol_seq,sol_seq_acked,sol_len,rv);
if (chars_to_resend == 0) chars_to_resend = sol_len;
} else rv &= 0xFD;
}
return(rv);
}
/*
* lan2_set_sol_data
* called from isolconsole when SOL 2.0 session is activated.
*/
void lan2_set_sol_data(int insize, int outsize, int port, void *handler,
char esc_char)
{
struct ipmi_intf *intf = pconn->intf;
if (intf == NULL) return;
lprintf(LOG_INFO,"setting lanplus intf params(%d,%d,%d,%p,%c)",
insize,outsize,port,handler,esc_char);
intf->session->sol_data.max_inbound_payload_size = (ushort)insize;
intf->session->sol_data.max_outbound_payload_size = (ushort)outsize;
intf->session->sol_data.port = (ushort)port;
intf->session->sol_data.sol_input_handler = handler;
intf->session->timeout = 1; /* lib/.../lanplus.h: IPMI_LAN_TIMEOUT =1sec*/
intf->session->sol_escape_char = esc_char; /*usu '~'*/
}
int lan2_keepalive(int type, SOL_RSP_PKT *rsp)
{
int rv = 0;
struct ipmi_intf *intf = pconn->intf;
if (fdbglog) dbglog("lan2_keepalive(%d,%p) called\n",type,rsp); /*++++*/
if (intf == NULL) return -1;
if (rsp) rsp->len = 0;
if (type == 2) { /*send empty SOL data*/
struct ipmi_v2_payload v2_payload;
struct ipmi_rs * rs = NULL;
memset(&v2_payload, 0, sizeof(v2_payload));
v2_payload.payload.sol_packet.packet_sequence_number = 0;
v2_payload.payload.sol_packet.character_count = 0;
v2_payload.payload.sol_packet.acked_packet_number = 0;
v2_payload.payload.sol_packet.accepted_character_count = 0;
rs = intf->send_sol(intf, &v2_payload);
if (rs == NULL) {
rv = -1;
} else { /*may sometimes get data back*/
rsp->type = rs->session.payloadtype;
rsp->len = rs->data_len;
rsp->data = rs->data;
lprintf(LOG_INFO,
"keepalive: rq_seq=%d rs_seq=%d (0x%02x) rseq=%d rlen=%d",
// v2_payload.payload.ipmi_request.rq_seq,
v2_payload.payload.sol_packet.packet_sequence_number,
rs->session.seq, rs->session.seq,
rs->payload.sol_packet.packet_sequence_number,rs->data_len);
rv = lan2_validate_solrcv(rs);
if (rv > 1) lprintf(LOG_INFO,
"keepalive: rv=%x need retry of sol_seq=%d(%d) sol_len=%d(%d)",
rv,v2_payload.payload.sol_packet.packet_sequence_number,
sol_seq,v2_payload.payload.sol_packet.character_count,sol_len);
rv = 0; /* 0 = have recv buffer to process*/
}
} else {
rv = intf->keepalive(intf); /*get_device_id*/
}
if (fdbglog) dbglog("lan2_keepalive rv = %d\n",rv); /*++++*/
return(rv);
}
static uchar inc_sol_seq( uchar lastseq )
{
uchar seq;
seq = lastseq + 1;
if (seq > 15) seq = 1;
pconn->intf->session->sol_data.sequence_number = seq;
return(seq);
}
int lan2_send_break( SOL_RSP_PKT *rsp)
{
struct ipmi_rs *rs;
static struct ipmi_v2_payload v2_payload;
int rv = 0;
struct ipmi_intf *intf = pconn->intf;
if (intf == NULL) return -1;
if (rsp == NULL) return -1;
rsp->len = 0; /*just in case*/
memset(&v2_payload, 0, sizeof(v2_payload));
v2_payload.payload.sol_packet.character_count = 0;
v2_payload.payload.sol_packet.generate_break = 1;
rs = intf->send_sol(intf, &v2_payload);
if (rs == NULL) {
rv = -1;
lprintf(LOG_INFO,"send_break error");
} else {
rv = 0;
rsp->type = rs->session.payloadtype;
rsp->len = rs->data_len;
rsp->data = rs->data;
lprintf(LOG_INFO,"send_break(rs): sol_seq=%d rs_sol=%d "
"rs_seq=%d (0x%02x) rseq=%d rlen=%d",
v2_payload.payload.sol_packet.packet_sequence_number,
rs->payload.sol_packet.packet_sequence_number,
rs->session.seq, rs->session.seq,
rs->payload.sol_packet.packet_sequence_number,rs->data_len);
}
return(rv);
}
int lan2_send_sol( uchar *payload, int len, SOL_RSP_PKT *rsp)
{
struct ipmi_rs *rs;
static struct ipmi_v2_payload v2_payload;
int rv = 0;
struct ipmi_intf *intf = pconn->intf;
if (rsp) rsp->len = 0; /*just in case*/
if (intf == NULL) return -1;
memset(&v2_payload, 0, sizeof(v2_payload));
memcpy(v2_payload.payload.sol_packet.data,payload,len);
sol_seq = inc_sol_seq(sol_seq);
sol_len = (uchar)len;
v2_payload.payload.sol_packet.packet_sequence_number = sol_seq;
v2_payload.payload.sol_packet.character_count = (uchar)len;
#ifdef TEST
/* Note that the lanplus layer already did auto-ack of sol recv pkts,
* but we can put the info in send_sol also for completeness. */
/* Further debug shows that this doesn't matter, so skip it. */
v2_payload.payload.sol_packet.acked_packet_number = sol_rseq;
v2_payload.payload.sol_packet.accepted_character_count = sol_rlen;
/* These flags were initialized to zero above via memset. */
v2_payload.payload.sol_packet.is_nack = 0;
v2_payload.payload.sol_packet.assert_ring_wor = 0;
v2_payload.payload.sol_packet.generate_break = 0;
v2_payload.payload.sol_packet.deassert_cts = 0;
v2_payload.payload.sol_packet.deassert_dcd_dsr = 0;
v2_payload.payload.sol_packet.flush_inbound = 0;
v2_payload.payload.sol_packet.flush_outbound = 0;
#endif
lprintf(LOG_INFO,"send_sol(rq): sol_seq=%d acked=%d chars=%d len=%d",
v2_payload.payload.sol_packet.packet_sequence_number,
v2_payload.payload.sol_packet.acked_packet_number,
v2_payload.payload.sol_packet.accepted_character_count,len);
if (verbose > 4)
dbg_dump("rq_sol_hdr",
(uchar *)&v2_payload.payload.sol_packet.packet_sequence_number,
10,1);
rs = intf->send_sol(intf, &v2_payload);
if (rs == NULL) {
rv = -1;
lprintf(LOG_INFO,"send_sol error (%d bytes)",len);
} else {
rsp->type = rs->session.payloadtype;
rsp->len = rs->data_len;
rsp->data = rs->data;
lprintf(LOG_INFO,"send_sol(rs): sol_seq=%d rs_sol=%d rs_seq=%d (0x%02x)"
" rseq=%d rlen=%d",
v2_payload.payload.sol_packet.packet_sequence_number,
// v2_payload.payload.sol_packet.acked_packet_number,
rs->payload.sol_packet.packet_sequence_number,
rs->session.seq, rs->session.seq,
rs->payload.sol_packet.packet_sequence_number,rs->data_len);
rv = lan2_validate_solrcv(rs);
if (rv > 1) lprintf(LOG_INFO,
"send_sol: rv=%x sol_seq=%d(%d) sol_len=%d(%d) not acked",
rv,v2_payload.payload.sol_packet.packet_sequence_number,
sol_seq,v2_payload.payload.sol_packet.character_count,sol_len);
rv = 0; /* 0 = have recv buffer to process*/
}
return(rv);
}
int lan2_recv_sol( SOL_RSP_PKT *rsp )
{
struct ipmi_rs * rs;
int rv;
struct ipmi_intf *intf = pconn->intf;
if (rsp == NULL) return -1;
rsp->len = 0;
if (intf == NULL) return -1;
rs = intf->recv_sol(intf);
if (rs == NULL) return -1;
rsp->type = rs->session.payloadtype;
rsp->len = rs->data_len;
rsp->data = rs->data;
lprintf(LOG_INFO,"recv_sol: rs_sol=%d rs_seq=%d (0x%02x) rseq=%d rlen=%d",
rs->payload.sol_packet.packet_sequence_number,
rs->session.seq, rs->session.seq,
rs->payload.sol_packet.packet_sequence_number,rs->data_len);
rv = lan2_validate_solrcv(rs);
if (rv > 1) {
lprintf(LOG_INFO,
"recv_sol: rv=%x sol_seq=%d sol_len=%d not acked",
rv,sol_seq,sol_len);
}
return(rsp->len);
}
void lan2_recv_handler( void *rs0)
{
struct ipmi_rs *rs = rs0;
SOL_RSP_PKT rsp;
int rv;
rsp.len = 0;
rsp.type = 0;
if (rs == NULL) return;
lprintf(LOG_INFO,"recv_handler: len=%d rs_seq=%d (0x%02x) rseq=%d rlen=%d",
rs->data_len, rs->session.seq, rs->session.seq,
rs->payload.sol_packet.packet_sequence_number,rs->data_len);
rsp.type = rs->session.payloadtype;
rsp.len = rs->data_len;
rsp.data = rs->data;
rv = lan2_validate_solrcv(rs);
if (rv > 1) lprintf(LOG_INFO,
"recv_handler: rv=%x sol_seq=%d sol_len=%d not acked",
rv,sol_seq,sol_len);
sol_output_handler(&rsp);
return;
}
SockType lan2_get_fd(void)
{
if (pconn->intf == NULL) return pconn->lan2_fd;
return(pconn->intf->fd);
}
#endif
/* end ipmilanplus.c */
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