# A handover should mostly favor the best target rxlev:
# Two candidates for congestion resolution both reduce the RXLEV for the MS,
# candidate A results in 10 RXLEV loss, candidate B only in 5 RXLEV loss.
# But candidate A still results in a better RXLEV at the target than candidate B.
# So tolerate more RXLEV reduction if the resulting RXLEV still remains better.
create-bts trx-count 1 timeslots c+s4 TCH/F TCH/F TCH/F TCH/F TCH/F TCH/F TCH/F
create-bts trx-count 1 timeslots c+s4 TCH/F TCH/F TCH/F TCH/F TCH/F TCH/F TCH/F

network
 bts 0
  handover2 min-free-slots tch/f 6

set-ts-use trx 0 0 states * TCH/F TCH/F - - - - -
meas-rep lchan 0 0 1 0 rxlev 40 rxqual 0 ta 0 neighbors 30
meas-rep lchan 0 0 2 0 rxlev 30 rxqual 0 ta 0 neighbors 25

congestion-check
expect-ho from lchan 0 0 1 0 to lchan 1 0 1 0
expect-ts-use trx 0 0 states * - TCH/F - - - - -
expect-ts-use trx 1 0 states * TCH/F - - - - - -

# clear measurements for next run
set-ts-use trx 0 0 states * - - - - - - -
set-ts-use trx 1 0 states * - - - - - - -

set-ts-use trx 0 0 states * TCH/F TCH/F - - - - -
meas-rep lchan 0 0 1 0 rxlev 30 rxqual 0 ta 0 neighbors 25
meas-rep lchan 0 0 2 0 rxlev 40 rxqual 0 ta 0 neighbors 30

congestion-check
expect-ho from lchan 0 0 2 0 to lchan 1 0 1 0
expect-ts-use trx 0 0 states * TCH/F - - - - - -
expect-ts-use trx 1 0 states * TCH/F - - - - - -